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 Publications

282. X.Y. Qiu, Y. Wang, M.H. Shao*, “High-performance and durable Fe-N-C fuel cell catalysts”, Joule (Invited preview), accepted.

281. U.B. Shahid, Y.J. Kwon, Y. Yuan, S. Gu M.H. Shao*, “High-performance Ammonia Electrosynthesis from Nitrate in a NaOH-KOH-H2O Ternary Electrolyte”, Angewandte Chemie International Edition, accepted.

280. B.X. Zhang, J.M. Wang, G.M. Liu, C.M. Weiss, D.Q. Liu, Y.P. Chen, L.X. Xia, P. Zhou, M.X. Gao, Y.F. Liu, J. Chen, Y.S. Yan, M.H. Shao, H.G. Pan, W.P. Sun, “A strongly coupled Ru–CrOx cluster–cluster heterostructure for efficient alkaline hydrogen electrocatalysis”, Nature Catalysis, accepted.

279. H.W. Wu, F. Xiao, F. Yang, M. Gu, M.H. Shao*, “Highly active and durable core-shell electrocatalysts for proton exchange membrane fuel cell”, Nano Research (Special Issue dedicated to Yi Cui, invited), accepted.

278. Y. Zhang, S.B. Han, S.Q. Zhu, R.H. Chen, Z.M. Cao, T.H. Li, M. Gu, M.H. Shao*, Y.N. Xia*, “Slowly removing surface ligand by aging the sample enhances the stability of Pd nanosheets toward electron beam and electrocatalysis”, Angewandte Chemie International Edition, accepted.

277. Y.H. Li, E.P. Delmo, G.Y. Hou, X.L. Cui, M. Zhao, Z.H. Tian, Y. Zhang*, M.H. Shao*, “Enhanced local CO2 adsorption enabling highly selective and efficient formate production over an ultra-wide potential window”, Angewandte Chemie International Edition, accepted.

276. T.H. Li, M.H. Shao*, “A minireview on carbonate and bicarbonate electrochemical reduction reactions”, EES Catalysis (invited), 2024, 2, 564-572.

275. H. Huang, H.J. Zhu, J. Gao, J.T. Wang, M.H. Shao, W.D. Zhou*, “Grain‐growth Inhibitor with Three‐section‐sintering for Highly Dispersed Single‐crystal NCM90 Cubes”, Angewandte Chemie International Edition, 2024, 63, e202314457.

274. T. Wang, Q. Dong, F.Z. Wang, R. Xu, C. Tong, D. Su, M.H. Shao, C.P. Li, Z.D. Wei*, “Functionless cobalt toward functional cobalt nitride: Catalytic sulfur carrier for lithium-sulfur pouch batteries”, Matter, 2024, 7, 1035-1053.

273. F.Z. Chen, S.J. Robertson, X. Xu, S.Z. Chen, C.L. Sun, M.H. Shao*, J.H. Wang*, “Interface regulation strategy in constructing ZnS@MoS2 heterostructure with enhanced surface reaction dynamics for robust lithium-ion storage”, Nano Energy, 2024, 123, e202313858.

272. F. Xiao, M.H. Shao*, “Electrocatalyst and electrode design strategies for durable proton exchange membrane fuel cells”, Matter, 2024, 7, 351-377.

271. Y.N. Wang, Y. Wang, Q.L. Zhao, S.Q. Zhu, F. Yang, E.P. Delmo, X.Y. Qiu, C. Song, J.H. Jang, T.H. Li, M.H. Shao*, “Efficient C-N coupling in electrocatalytic urea generation on copper carbonate hydroxide electrocatalysts”, Journal of Energy Chemistry (Special Issue, Invited), 2024, 93, 289-298.

270. Y.N. Wang, Y.S. Liu, H.M. Xu, J.H. Jang, X.Y. Qiu, E.P. Delmo, Q.L. Zhao, P. Gao, M.H. Shao*, “A Sulfur-Doped Copper Catalyst with Efficient Electrocatalytic Formate Generation during the Electrochemical Carbon Dioxide Reduction Reaction”, Angewandte Chemie International Edition, 2024, 136, e202313858. 

269. J. Wang, M.Z. Sun, H.M. Xu, F.K. Hao, Q.B. Wa, J.J. Su, J.W. Zhou, Y.H. Wang, J.L. Yu, P.H. Zhang, R.Q. Ye, S.Q. Chu*, B.L. Huang*, M.H. Shao*, Z.X. Fan*, “Coordination environment engineering of metal centers in coordination polymers for selective carbon dioxide electroreduction toward multicarbon products”, ACS Nano, 2024, 18, 7192–720.

268. Y.N. Wang, F. Yang, H.M. Xu, J.H. Jang, E.P. Delmo, X.Y. Qiu, Z.H. Ying, P. Gao, S.Q. Zhu*, M. D. Gu*,  M.H. Shao*, “The role of phase mixing degree in promoting C-C coupling in electrochemical CO2 reduction reaction on Cu-based catalysts”, Angewandte Chemie International Edition, 2024, e202400952.

267.     Z.L. Fan, Q.T. Sun, H. Yang, W.X. Zhu, F. Liao, Q. Shao, T.Y. Zhang, H. Huang, T. Cheng, Y. Liu, M.W. Shao, M.H. Shao*, Z.H. Kang, “Layered Quasi-Nevskite Metastable-Phase Cobalt Oxide Accelerates Alkaline Oxygen Evolution Reaction Kinetics”, ACS Nano, 2024, 18, 5029–5039.

266. X.X. Xie, P. Zhang, X.H. Li, Z.W. Wang, X. Qin, M.H. Shao, L.Q. Zhang, W.D. Zhou, “Rational Design of F-Modified Polyester Electrolytes for Sustainable All-Solid-State Lithium Metal Batteries”, Journal of the American Chemical Society, 2024, 146, 5940–5951.

265. Q Zhao, Y Zhang, D Cao, M.H. Shao*, “The Prospects of Urea Manufacturing via Electrochemical Co-reduction of CO2 and Nitrates”, Current Opinion in Electrochemistry (Invited Review), 2024, 101479.

264. E.P. Delmo, Y. Wang, Y.H. Song, S.Q. Zhu, H.C. Zhang, T.H. Li, J.H. Jang, Y.J. Kwon, M.H. Shao*, “In situ Infrared Spectroscopic Evidence of Enhanced *CO + *CHO Coupling on Oxide-Derived Copper During Electrochemical CO2 Reduction”, Journal of the American Chemical Society, 2024, 146, 1935–1945.

263. S.J. Robertson, J.P. Cheng, M.H. Shao*, “Extraction-less amperometric detection of tetrodotoxin in seawater”, Journal of the Electrochemical Society, 2024, 171, 027523.

262. W.Q. Guan, H.D. Shao, C. Zhuang. X.Y. Xiao, J.Q. Zhao, Y. Wang, L.B. Zhang, M.H. Shao*,  J. Hu*, “Strategies for the regulation of specific active sites in metal-nitrogen-carbon”, Nano Energy, 2024, 109149.

261. F. Yang, Y. Wang, Y.D. Cui, X.M. Yang, Y.M. Zhu, C. M. Weiss, M.H. Li, G.Y. Cheng, Y.S. Yan, M. Gu, M.H. Shao*, “Sub-3 nm Pt@Ru toward Outstanding Hydrogen Oxidation Reaction Performance in Alkaline Media”, Journal of the American Chemical Society, 2023, 145, 27500-27511.

260. J. Wang, H. Tan, H.M. Xu, S. Xi, Q.B. Wa, Y.H. Wang, W. Xi, J.W. Zhou, J.L. Yu, F.K. Hao, Y.C. Xiong, Y.B. Ma, G.Z. Wang, Q. Liu, G.C. Shan, M.H. Shao*, Z.X. Fan*, “Electronic structure modulation of unconventional phase metal nanomaterials for highly selective carbon dioxide electroreduction”, ACS Materials Letter, 2023, 5, 3212-3221.

259. X. Luo, B.J. Wu, J.R. Li, Y.F. Wang, X.X. Tang, C.P. Li*, M.H. Shao, Z.D. Wei*, “Benzoic acid: electrode-regenerated molecular catalyst to boost cycloolefin epoxidation”, Journal of the American Chemical Society, 2023, 145, 20665-20671.

258. X. Wang, C.J. Ma, X.M. Qu, M. Ma, Y.J. Wei, X.L. Zhang, J. Tian*, Q. Li*, M.H. Shao*, “Surface hydrophobic modification of MXene to promote the electrochemical conversion of N2 to NH3”, Journal of Energy Chemistry, 2023, 87, 439-449.

257. J.Q. Huang, Z.C. Shen, S.J. Robertson, Y.H. Lin, J.L. Zhu, K. Yang, Y.T. Wang, M.H. Shao*, Z.C. Shi*, “Fluorine grafted gel polymer electrolyte by in situ construction for high-voltage lithium metal batteries”, Chemical Engineering Journal, 2023, 475, 145802.

256. H. Chen, Y. Tian, C. Hu, R. Tao, Y. Yuan, R. Wang, D.-M. Shin, M.H. Shao, Y.M. Lee, Y.S. Kim*, “Poly(Ethylene Piperidinium)s for Anion Exchange Membranes”, Angewandte Chemie International Edition, 2023, 62,  e202307690.

255. Z. Tang, R. Zhang, H.Y. Wang*, S.Y. Zhou, Z.Y. Pan, Y.C. Huang, D. Sun*, Y.G. Tang, X.B. Ji, K. Amine*, M.H. Shao*, “Revealing the closed pore formation of waste wood-derived hard carbon for advanced sodium-ion battery”, Nature Communications, 2023, 14, 6024.

254. L.S. Lo, X. Liu, M.H. Shao, H.B. Liu, P.-Y. Qian, J.P. Cheng*, “Aquaculture bacterial pathogen database: pathogen monitoring and screening in coastal waters using environmental DNA”, Water Research X, 2023, 20, 100194.

253. C.L. Sun, X.X. Cen, L. Gui, F.Z. Chen, Y. Wang, S.Z. Chen, M.H. Shao*, J.H. Wang*, “High-Quality Epitaxial N Doped Graphene on SiC with Tunable Interfacial Interactions via Electron/Ion Bridges for Stable Lithium-Ion Storage”, Nano-Micro Letters (invited), 2023, 15, 202.

 

252. Y. Hao, F. Hu, S.Q. Zhu, Y.J. Sun, H. Wang, L.Q. Wang, Y. Wang, J.J. Xue, Y. Liao, M.H. Shao, S.J. Peng*, “MXene-Regulated Metal-Oxide Interfaces with Modified Intermediate Configurations Realizing Nearly 100% CO2 Electrocatalytic Conversion”, Angewandte Chemie International Edition, 2023, e202304179.

251. X. Zhou, A. Zhang, B. Chen, S.Q. Zhu, Y. Cui, L.C. Bai, J.L. Yu, Y.Y. Ge, Q.B. Yun, L.J. Li, B. Huang, L.W. Liao, J.J. Fu, Q.B. Wa, G. Wang, Z.Q. Huang, L. Zheng, Y. Ren, S.Y. Li, G.Y. Liu, L. Zhai, Z.J. Li, J.W. Liu, Y. Chen, L. Ma, C.Y. Ling, J.L.  Wang, Z.X. Fan, Y.H. Du, M.H. Shao, H. Zhang*, “Synthesis of 2H/fcc-Heterophase AuCu nanostructures for highly efficient electrochemical CO2 reduction at industrial current densities”, Advanced Materials, 2023, 2304414.

250. H.M. Xu, S.Q. Zhu, Z.X. Fan, M.H. Shao*, “A minireview on selected applications of in situ infrared spectroscopy in studying CO2 electrochemical reduction reaction”, Current Opinions in Electrochemistry (invited), 2023, 101363.

249. J.H. Jang, S.Q. Zhu, E. P. Delmo, T.H. Li, Q.L. Zhao, Y.N. Wang, L.L. Zhang, H.W. Huang, J.J. Ge*, M.H. Shao*, “Facile design of oxide-derived Cu nanosheet electrocatalyst for CO2 reduction reaction”, EcoMat (invited), 2023, 5, e12334.

248. Q.L. Zhao, X.X. Lu, Y.N. Wang, S.Q. Zhu, Y.S. Liu, F. Xiao, S.X. Dou, W.-H. Lai*, M.H. Shao*, “Sustainable and high-rate electrosynthesis of nitrogen fertilizer”, Angewandte Chemie International Edition, 2023, 135, e202307123.

 

247. B. Huang, Y.Y. Ge, A. Zhang, S.Q. Zhu, B. Chen, G.X. Li, Q.B. Yun, Z.Q. Huang, Z.Y. Shi, X. Zhou, L.J. Li, X.X. Wang, G. Wang, Z.G. Guan, L. Zhai, Q.X. Luo, Z.J. Li, S.Y. Lu, Y. Chen, C.‐S. Lee, Y. Han, M.H. Shao, H. Zhang*, “Seeded dynthesis of hollow PdSn intermetallic nanomaterials for highly efficient electrocatalytic glycerol oxidation”, Advanced Materials, 2023, 2302233.

246. M.G. Pan, W. Wang, H.Z. Wang, J. Ma, M.H. Shao, Z. Jin*, “High-voltage and durable pH-neutral aqueous redox flow batteries based on quaternary ammonium cations function-alized fused-ring diimide and TEMPO radical systems”, Journal of Power Sources, 2023, 580, 233269.

245. Z.W. Xu, G.Y. Chen, F. Yang, J.H. Jang, Y. Sun, F. Xiao, G.M. Liu, X.Y. Qiu, M. Gu, M.H. Shao*, “Graphene-supported Fe/Ni single atoms and FeNi alloy nanoparticles as bifunctional oxygen electrocatalysts for rechargeable zinc-air batteries”, Electrochimica Acta (Special Issue on Single Atom Electrocatalysis, invited), 2023, 458, 142549.

244. Q. Dong, T. Wang, D. Su, R. Gan, M.H. Shao, C.P. Li, Q.F. Liu, Z.D. Wei*, “Anchoring and boosting: Ferrocene-based separators used to eliminate the polysulfide shuttle effect for Li–S batteries”, Journal of Membrane Science, 2023, 678, 121660.

243. J. Wang, W.H. Xuan, Q. He, J.X. Jiang, Y.Y. Zhou, Y. Nie, Q. Liao, M.H. Shao, D. Wei, and Z.D. Wei*, “Supperlattice-like structure: ordered mass transfer endows high quality output of fuel cell”, Journal of Electrochemistry, 2023, 29, 2215003.

242. Y. Wang, M.F. Li, Z.L. Yang, W.C. Lai, J.J. Ge, M.H. Shao, Y. Xiang, X.L. Chen, H.W. Huang, “A universal synthesis of ultrathin Pd-based nanorings for efficient ethanol electrooxidation”, Materials Horizon, 2023,10, 1416-1424.

241. M.G. Pan, M.H. Shao, Z. Jin*, “Development of organic redox-active materials in aqueous flow batteries: current strategies and future perspectives”, SmartMat (invited), 2023, e1198.

240. E. P. Delmo, Y. Wang, S.Q. Zhu, T.H. Li, Y.N. Wang, J.H. Jang, Q.L. Zhao, A. P. Roxas, G. S. Nambafu, Z.T. Luo, L.T. Weng, M.H. Shao*, “The role of glyoxal as an intermediate in the electrochemical CO2 reduction reaction on copper”, Journal of Physical Chemistry C, 2023, 127, 4496-4510.

239. X.X. Luo, X.X. Tang, C.P. Li, M.H. Shao, Z.D. Wei*, “Electrochemical oxidation of styrene to benzaldehyde by discrimination of spin-paired π electrons”, Chemical Science, 2023, 14, 1679-1686.

238. J.W. Zhang, G.G. Zeng, S.Q. Zhu, H.L. Tao, Y. Pan, W.C. Lai, J. Bao, C. Lian*, D. Su*, M.H. Shao*, H.W. Huang*, “Steering CO2 electroreduction pathway toward ethanol via surface hydroxyl species induced non-covalent interaction”, Proceedings of the National Academy of Sciences, 2023, 120, e2218987120.

237. Y.X. Hao, D. Yu, S.Q. Zhu, C.H. Kuo, Y.M. Chang, L.Q. Wang, H.Y. Chen, M.H. Shao, S.J. Peng*, “Methanol upgrading coupled with hydrogen product at large current density promoted by strong interfacial interaction”, Energy & Environmental Science, 2023, 16, 1100-1110.

236. J. Wang, Y. Wang, C. Cai, Y.S. Liu, D.J. Wu, M.Y. Wang, M.H. Li, X.B. Wei, M.H. Shao*, M. Gu*, “Cu-doped iron oxide for the efficient electrocatalytic nitrate reduction reaction”, Nano Letters, 2023, 23, 1897–190.

235. C. Tong, H.P. Chen, S.K, Jiang, L. Li, M.H. Shao, C.P. Li, Z.D. Wei, “Suppress loss of polysulfides in lithium–sulfur battery by regulating the rate-determining step via 1T MoS2–MnO2 covering layer”, ACS Applied Materials & Interfaces, 2023, 15, 1175-1183.

234. L. Wang*, S.Q. Zhu, Y. Wang, Z.P. Liu, Y.S. Liu, Q. Wang, M. Gu, K.D. Li, X. Sun, L.W. Yang, M.H. Shao*, “Amorphous nickel tungstate nanocatalyst boosts urea electrooxidation”, Chemical Engineering Journal, 2023,141826.

 

233. H.Z. Yu, S.Q. Zhu, Y.X. Hao, Y.M. Chang, L.L. Li, J. Ma, H.Y. Chen, M.H. Shao, S.J. Peng*, “Modulating local interfacial bonding environment of heterostructures for energy‐saving hydrogen production at high current densities”, Advanced Functional Materials, 2023, 2212811.

 

232. M.J. Sun, C.Q. Ma, M. Ma, Y.J. Wei, S.H. Dong, X.L. Zhang, J. Tian*, M.H. Shao*, “Electrochemical ammonia synthesis via nitrogen reduction reaction on 1T/2H mixed-phase MoSSe catalyst: Theoretical and experimental studies”, Materials Today Physics, 2023, 30, 100945.

 

231. D.D. Li, J.B. Chen, Y.T. Chen, Y. Wang, M.H. Shao, Z.C. Shi*, “Superior oxygen electrocatalyst derived from metal organic coordination polymers by instantaneous nucleation and epitaxial growth for rechargeable Li–O2 battery”, Journal of Energy Chemistry, 2023, 78, 169-177.

 

230. X.S. Liu, Y. Cheng, Y. Su, F.C. Ren, J. Zhao, Z.T. Liang, B.Z. Zheng, J.W. Shi, K. Zhou, Y.X. Xiang, J.M. Zheng, M.-S. Wang, J.Y. Huang, M.H. Shao, Y. Yang*, “Revealing the surface-to-bulk effect of nickel-rich cathode in sulfide all-solid-state batteries”, Energy Storage Materials, 2023, 54, 713-723.

229. H. Hu, Y. Meng, Y. Mei, P.X. Hou,* C. Liu, H.-M. Cheng, M.H. Shao*, J.-C Li,* “Bifunctional oxygen electrocatalysts enriched with single Fe atoms and NiFe2O4 nanoparticles for rechargeable zinc–air batteries” Energy Storage Materials, 2023, 54, 517-523.

228. H. Jiang, Y Wang, J. Hu*, X.X. Shai, F. Liu, T. Le, L.B. Zhang*, M.H. Shao*, “Phase regulation of WO3 for highly selective oxygen reduction to hydrogen peroxide”, Chemical Engineering Journal, 2023, 452, 139449.

227. F. Xiao, Y. Wang, G.L. Xu, F. Yang, S.Q. Zhu, C.-J. Sun, Y.D. Cui, Z.W. Xu, Q.L. Zhao, J.H. Jang, X.Y. Qiu, E. Liu, W. Drisdell, Z.D. Wei, M. Gu, K. Amine, M.H. Shao*, “Fe-N-C boosts the stability of supported platinum nanoparticles for fuel cells”, Journal of the American Chemical Society, 2022, 144, 20372-20384.

226. Q.L. Zhao, Y. Wang, S.Q. Zhu, E.P. Delmo, Y.D. Cui, T. Lin, R.C. Dutta, J.D. Li, F. Xiao, T.H. Li, Y.N. Wang, J.H. Jang, Q. Wei, G.Y. Chen, M.H. Shao*, “Enhanced electrocatalytic CO2 conversion to CH4 via molecular engineering on copper salphen complexes”, Journal of Physical Chemistry C, (invited, Zhao-Wu Tian Festschrift), 2022, 126, 17502-17509.

225. F.Z Chen, C.L. Sun, S.J. Robertson, Y.H. Zhu, S.Z. Chen, M.H. Shao*, J.H. Wang*, “Unlocking robust lithium storage performance in high 1T-phase purity MoS2 constructed by Mg intercalation”, Nano Energy, 2022, 104, 107894.

224. P.Z. Lin, J. Sun, M.H. Shao, M.C. Wu, T.S. Zhao*, “Modeling proton exchange membrane fuel cells with fiber-based microporous layers”, International Journal of Heat and Mass Transfer, 2022, 198, 123398.

223. Z.J. Yang, C.X. Zhang, Y.J. Mei, Y. Zhang, Y.B. Feng, M.H. Shao*, J. Hu*, “Effect of nitrogen species in graphite carbon nitride on hydrogen peroxide production”, Advanced Materials Interfaces, 2022, 2201325.

222. J. Wang, D.J. Wu, M.H. Li, X.B. Wei, X.M. Yang, M.H. Shao*, M. Gu*, “Bismuth ferrite as an electrocatalyst for the electrochemical nitrate reduction”, Nano Letters, 2022, 22, 13, 5600-5606.

221. D.A. El-Hady, Y.X. Lyu, S.K. Zhan, J.X. Yang, Y. Wang, Q.L. Zhao,* M.H. Shao*, “Vacancy and composition engineering of manganese hexacyanoferrate for sodium-ion storage”,  ACS Applied Energy Materials, 2022, 5, 8547-8553.

220. M.M. Deng, H.M. Yang, L.S. Peng, L. Zhang, L.Q. Tan, G.J. He, M.H. Shao, L. Li*, Z.D. Wei*, “Insight into the boosted activity of TiO2-CoP composites for hydrogen evolution reaction: Accelerated mass transfer, optimized interfacial water, and promoted intrinsic activity”, Journal of Energy Chemistry, 2022, 74, 111-120

219. H.W. Wu, X.J. Hu, M.H. Shao, Z.S. Wei, G.H. Chen*, “Encapsulating sulfur into Magnéli phase Ti4O7 nanotube array for lithium sulfur battery cathode”, The Canadian Chemical Engineering Journal, 2022, 100, 2417-2431.

218. Y. Zhang, P. Zheng, X.P. Qin, J.Yang, K.N. Dinh, Y. Zheng, M.H. Shao*, Q.Y. Yang*, “Constructing a multi-bishelled cobalt-based electrocatalyst for oxygen evolution reaction in CO2 electrolysis”, NPG Asia Materials, 2022, 14, 55.

217. H.H. Chen, R. Tao p, K.T. Bang, M.H. Shao, Y.S. Kim*, “Anion exchange membranes for fuel cells: state-of-the-art and perspective”, Advanced Energy Materials, 2022, 2200934.

216. K. Siddharth, Y. Wang, J. Wang, F. Xiao, G.S. Nambafu, U.B. Shahid, F. Yang, E.P. Delmo, M.H. Shao*, “Pt on nitrogen doped graphene and tungsten carbide supports for ammonia electro-oxidation reaction”, Frontiers of Chemical Science and Engineering (invited), 2022, 16, 930-938.

215. R. Xu, H. A. Tang, Y.Y. Zhou, F.Z. Wang, H.R. Wang, M.H. Shao, C.Pu. Li, Z.D. Wei*, “Enhanced catalysis of LIS3· radical-to-polysulfide interconversion via increased sulfur vacancies in lithium–sulfur batteries”, Chemical Sciences, 2022, 13, 6224-6232.

214. F. Xiao, Q. Wang, G.-L. Xu, X.P. Qin, I.H. Hwang, C.-J. Sun, W. Hua, H.-W. Wu, S.Q. Zhu, J.-C. Li, J.G. Wang, Y.M. Zhu, D.J. Wu, Z.D. Wei, M. Gu*, K. Amine*, M.H. Shao*, “Highly active and durable hybrid electrocatalyst for proton exchange membrane fuel cell”, Nature Catalysis, 2022, 5, 503-512.

213. X.P. Qin, S.Q. Zhu, F. Xiao, D. Pan, M.H. Shao*, “Full atomistic mechanism study of hydrogen evolution reaction on Pt surfaces at universal pHs: Ab initio simulations at electrochemical interfaces”, Electrochimica Acta (Special issue, invited), 2022, 425, 140709.

212. X. Qian, C.Q. Ma, M.J. Sun, X.L. Zhang, U. B. Shahid, J. Tian,*, M.H. Shao*, “Synergistic enhancement of electrocatalytic nitrogen reduction over few-layers MoSe2 decorated Ti3C2Tx MXene”, ACS Catalysis, 2022, 12, 6385-6393.

211. C. Sun, F.Z. Chen, X.F. Tang, D.D. Zhang, K. Zheng, G. Zhu, U. B. Shahid, Z.L. Liu, M.H. Shao*; J.H. Wang*, “Simultaneous interfacial interaction and built-in electric field regulation of GaZnON@NG for high-performance lithium-ion storage”, Nano Energy, 2022, 99, 107369.

210. S.Q. Zhu, M.H. Shao*, “Electrolyte pH-dependent hydrogen binding energies and coverages on platinum, iridium, rhodium, and ruthenium surfaces”, Catalysis Science & Technology (Special Issue on in situ and operando spectroscopy, invited), 2022, 12, 3228-3233.

209. L. Huang, Z.X. Luo, X.X. Huang, Y. Wang, J. Yan, W. Liu, Y.F. Guo, K.L. Wan, S. R. B. Arulmani, M.H. Shao, H.G. Zhang*, “Applications of biomass-based materials to remove fluoride from wastewater: A review”, Chemosphere, 2022, 134679.

208. X. Qian, Y.J. Wei, M.J. Sun, Y. Han*, X.L. Zhang, J. Tian*, M.H. Shao*, “Heterostructuring 2D TiO2 nanosheets in situ grown on Ti3C2Tx MXene to improve the electrocatalytic nitrogen reduction”, Journal of Chinese Catalysis, 2022, 43, 1937–1944.

207. E.P. Delmo, Y. Wang, J. Wang, S.Q. Zhu, T.H. Li, X.P. Qin, Y.B. Tian, Q.L. Zhao, J. Jang, Y.N. Wang, M. Gu, L.L. Zhang*, M.H. Shao*, “Metal organic framework – ionic liquid hybrid catalysts for the selective electrochemical reduction of CO2 to CH4”, Chinese Journal of Catalysis (Special Issue on CO2 electroreduction, invited), 2022, 43, 1687-1696.

206. Y. Wang, M.H. Shao*, "Theoretical screening of transition metal-N4 doped graphene for electroreduction of nitrate", ACS Catalysis, 2022, 12, 5407-5415.

 

205. T. Wang, Y.F. Yang, M.R. Li, Q. Dong, C.P. Li, N. Yang, M.H. Shao, Z.D. Wei*, “A triathlete for the oxygen reduction reaction in zinc air fuel cells”, Macromolecules, 2022, 55, 2524-2532.

204. Q.L Zhao, Y. Wang, M. Li, S.Q. Zhu, T.H. Li, J.X. Yang, T. Lin, E.P. Delmo, Y.N. Wang, J.H. Jang, M. Gu, M.H. Shao*, “Organic frameworks confined Cu single atoms and nanoclusters for tandem electrocatalytic CO2 reduction to methane”, SmartMat (invited), 2022, 3, 183-193.

203. X.Y. Chen, S.G. Zhang, X. Qian, Z.Q. Liang, Y.J. Xue, Y. Han*, J. Tian*, M.H. Shao*, “Enabling efficient electrocatalytic conversion of N2 to NH3 by Ti3C2 MXene loaded with semi-metallic 1T'-MoS2 nanosheets”, Applied Catalysis B: Environmental, 2022, 310, 121277.

202. P.B. Li, X.Q. Qi*, L. Zhao, J.J. Wang, M. Wang*, M.H. Shao, J.S., Chen, R. Wu*, Z.D. Wei, “Hierarchical 3D porous carbon with facilely accessible Fe–N4 single-atom sites for Zn–air batteries”, Journal of Materials Chemistry A, 2022, 10, 5925-5929.

201. X.J. Huang, L. Huang, S.R. Arulmani, J. Yan, Q. Li, J.F. Tang, K.L. Wan, H.G. Zhang*, T.F. Xiao; M.H. Shao, “Research progress of metal organic frameworks and their derivatives for adsorption of anions in water: A review”, Environmental Research, 2022, 204, 112381.

200. J.Y. Xi K. Meng*, Y. Li, M. Wang, Q. Liao, Z.D. Wei, M.H. Shao, J.C. Wang, “Performance improvement of ultra-low Pt proton exchange membrane fuel cell by catalyst layer structure optimization”, Chinese Journal of Chemical Engineering, 2022, 41, 473-479.

199. D.D. Li, J.W. Liang, S.J. Robertson, Y.T. Chen, N.G. Wang, M.H. Shao*, Z.C. Shi*, “Heterogeneous bimetallic organic coordination polymer-derived Co/Fe@NC bifunctional catalysts for rechargeable Li–O2 batteries”, ACS Applied Materials & Interfaces, 2022, 14, 5459-5467.

198. Y.F. Shi, R. Schimmenti, S.Q. Zhu, K. Venkatraman, R.H. Chen, M.F. Chi, M.H. Shao, M. Mavrikakis*, Y.N. Xia*, “Solution-phase synthesis of PdH0.706 nanocubes with enhanced stability and activity toward formic acid oxidation”, Journal of the American Chemical Society, 2022, 144, 2556-2568.

197. X.C. Zhou, Y.B. Ma, Y.Y. Ge, S.Q. Zhu, Y. Cui, B. Chen, L.W. Liao, Q.B. Yun, Z. He, H.W. Long, L.J. Li, B. Huang, Q.X. Luo, L. Zhai, X.X. Wang, L.C. Bai, G. Wang, Z.Q. Guan, Y. Chen, C.-S. Lee, J.L. Wang, C.Y. Ling*, M.H. Shao*, Z.X. Fan*, H. Zhang*, “Preparation of Au@Pd core–shell nanorods with fcc-2H-fcc heterophase for highly efficient electrocatalytic alcohol oxidation”, Journal of The American Chemical Society, 2022, 144, 547–555.

196. U. B. Shahid, Y.F. Chen, S. Gu*, W.Z. Li*, M.H. Shao*, “Electrochemical nitrogen reduction: an intriguing but challenging quest”, Trends in Chemistry (invited), 2022, 4, 142-156.

195. H.J. Kim, H.Y. Kim, J.W. Joo, S.H. Joo*, J.S. Lim, J.W. Lee*, H.W. Huang, M.H. Shao*, J. Hu*, J.Y. Kim*, B.J. Min, S.W. Lee*, M.K., K. Lee*, S. Choi, Y.J. Park, Y. Wang, J.J. Li, Z.C. Zhang*, J.M. Ma, and S.-I. Choi*, “Recent advances in non-precious group metal-based catalysts for water electrolysis and beyond”, Journal of Materials Chemistry A, 2022, 10, 50-88.

194. X.Y. Chen, C.Q. Ma, Z.X. Tan, X. Wang, X. Qian, X.L. Zhang, J. Tian*, S.H. Yan*, M.H. Shao*, “One-dimensional screw-like MoS2 with oxygen partially replacing sulfur as an electrocatalyst for the N2 reduction reaction”, Chemical Engineering Journal, 2022, 433, 134504.

193. D.D. Li, Z.C. Shen, J.B. Chen, K. Siddharth, M.H. Shao*, Z.C. Shi*, “Co-based multicomponent nanoparticles embedded in nitrogen and sulfur co-doped carbon for lithium oxygen battery”, Nano Energy, 2022, 91, 106644.

192. Y. Guo, P. Jin, M.H. Shao, S.G. Dong, R.G. Du*, C.J. Lin, “Effect of an environment-friendly diisooctyl sebacate-based mixed corrosion inhibitor on reinforcing steel”, Acta Physico-Chimica Sinica, 2022, 38, 2003033.

191. Z.W. Ren, H.L. Hu, X.Y. Guo, Y.J. Gao, P. W.K. Fong, H. Tang, J.M. Huang, H.K. Zhang, M.C. Qin, L. Cui, K. Liu, M.-F. Lo, D. Shen, A. Ng, C. Surya, M.H. Shao, C.-S. Lee, X.H. Lu, F. Laquai, Y. Zhu, G. Li*, “Ligand-tailored ultrafine SnO2 quantum dots boosting in situ interface binding for efficient perovskite photovoltaic”, Light: Science & Applications, 2021, 10, 239.

190. Q.L. Qi, J. Tai, J. Hu,* Z.H. Zhang, H.C. Song, M.H. Shao*, C.X. Zhang,* L.B. Zhang, “Ligand functionalized iron-based metal−organic frameworks for efficient electrocatalytic oxygen evolution”, ChemCatChem (invited), 2021, 13, 4976-4984.

189. J. Wang, C. Cai, Y. Wang, X.M. Yang, D.J. Wu, Y.M. Zhu, M.H. Li, M. Gu*, M.H. Shao*, “Electrocatalytic reduction of nitrate to ammonia on low-cost ultrathin CoOx nanosheets”, ACS Catalysis, 2021, 11, 15135–15140.

188. Z.F. Yang, C.N. Lv, W.B. Li, T.Q. Wu, Q. Zhang*, Y.G. Tang, M.H. Shao*, H.Y. Wang*, “Revealing the two-dimensional surface diffusion mechanism for zinc dendrite formation on zinc anode”, Small (invited), 2021, 2104148.

 

187. Q.L. Zhao*, Y.A. Wang, W.H. Lai, M.H. Shao*, “Approaching a high-rate and sustainable production of hydrogen peroxide: oxygen reduction on Co-N-C single-atom electrocatalysts in simulated seawater”, Energy and Environmental Science, 2021, 14, 5444-5456.

186. M.J. Wang, S.G. Chen, M.H. Shao, Z.D. Wei*, “Recent advances of electrocatalysts in hydrogen fuel cells”, Chemical Industry and Engineering Progress, 2021, 40, 4948-4961.

185. N. Yang , L.L. Peng , L. Li , J. Li , Q. Liao, M.H. Shao, Z.D. Wei*, “Theoretical probing possible degradation mechanisms of FeNC catalyst during oxygen reduction reaction”, Chemical Science, 2021, 12, 12476-12484.

184. S.Q. Zhu, X.P. Qin, F. Xiao, S.L. Yang, Y. Xu, Z. Tan, J.D. Li, J.W. Yan, Q. Chen, M.H. Chen, M.H. Shao*, “Direct spectroscopic evidence on the role of ruthenium in improving the hydrogen electrocatalysis kinetics of platinum in alkaline environment”, Nature Catalysis, 2021, 4, 711-718.

183. Q. Hu, Y.J. Qin, X.D. Wang, Z.Y. Wang, X.W. Huang, H.J. Zheng, K.R. Gao, H.P. Yang, P.X. Zhang, M.H. Shao, C.X. He*, “Reaction intermediates-mediated electrocatalysts synthesis favors specified facets and defects exposure for efficient nitrate-ammonia conversion”, Energy and Environmental Science, 2021, 14, 4989-4997.

182. Y.H. Zhao, R. Xu, Y.Y. Zhou, F.Z. Wang, C. Tong, M.H. Shao, M. Wang, C.P. Li, Z.D. Wei*, “Lattice-matching Ni-based scaffold with spongy cover for uniform electric field against lithium dendrite”, Chemical Communications, 2021, 57, 9442-9445.

181. J.X. Yang, X. Liu, Y. Wang, X.W. Zhou, L.T. Wen, Y.Z. Liu, Y. Ren, C. Zhao, M. Dahbi, J. Alami, D. Ei-Hady, G.-L. Xu*, K. Amine*, M.H. Shao*, “Electrolytes polymerization-induced cathode-electrolyte-interphase for high voltage lithium-ion batteries”, Advanced Energy Materials, 2021, 2101956.

180. Y. Zhang, Z.H. Lyu, Z.T. Chen, S.Q. Zhu, Y.F. Shi, R.H. Chen, M.H. Xie, Y. Yao, M.F. Chi, M.H. Shao*,  Y.N. Xia*, “Maximizing the catalytic performance of Pd@AuxPd1-x nanocubes in H2O2 production by reducing shell thickness to increase compositional stability”, Angewandte Chemie International Edition, 2021, 60, 19643-19647.

179. X.S. Xu, Y. Wang, B.T. Sun, Z.Q. Liang, H.Z. Cui, J. Tian*, M.H. Shao*, “Semi-metal 1T' phase molybdenum sulfide nanosheets enable efficient electrocatalytic nitrogen fixation under ambient conditions”, EcoMat (invited), 2021, 3, e12122.

178. Q. Hu, Y.J. Qin, X.D. Wang, Z.Y. Wang, X.W. Huang, H.J. Zheng, K.R. Gao, H.P. Yang, P.X. Zhang, M.H. Shao, C.X. He*, “Grain boundaries engineering of hollow copper nanoparticles enables highly efficient ammonia electrosynthesis from nitrate”, CCS Chemistry, 2021, 3, 2092-2103.

177. G.S. Nambafu, K. Siddharth, C. Zhang, T.S. Zhao, Q. Chen, K. Amine*, M.H. Shao*, “An organic bifunctional redox active material for symmetric aqueous redox flow battery”, Nano Energy, 2021, 106422.

176. J.-C. Li*, Y. Meng, L.L. Zhang, P.X. Hou, C. Liu*, H.M. Cheng, M.H. Shao*, “Dual-phasic carbon with Co single atoms and nanoparticles as a bifunctional oxygen electrocatalyst for rechargeable Zn-air batteries”, Advanced Functional Materials, 2021, 2103360.

175. X.P. Wang, M.H. Shao, C.Q. Ye, S.G. Dong, R.G. Du*, C.J. Lin, “Study on effect of chloride ions on corrosion behavior of reinforcing steel in simulated polluted concrete pore solutions by scanning micro-reference electrode technique”, Journal of Electroanalytical Chemistry, 2021, 895, 115454.

174. X. Yue*, X.P. Qin, Y.D. Chen, C.H. Liang, M. Feng, X.Z. Qiu, M.H. Shao*, S.M. Huang*, “Constructing active sites from atomic-scale geometrical engineering in spinel oxide solid solutions for efficient and robust oxygen evolution reaction electrocatalysts”, Advanced Science, 2021, 2101653.

173. L. Zhang, J.W. Huang, Q.Z. Zheng, A. Li, X. Li, J. Li, M.H. Shao, H.M. Chen, Z.D. Wei, Z.H. Deng, C.P. Li, ““Superaerophobic” NiCo bimetallic phosphides for high-efficient hydrogen evolution reaction electrocatalysts”, Chemical Communications, 2021, 57, 6173-6176.

172. U. B. Shahid, K. Siddharth, M.H. Shao*, “Electrifying the nitrogen cycle: an electrochemical endeavor”, Current Opinion in Electrochemistry (invited), 2021, 100790.

171. Y. Wang, X.P. Qin, M.H. Shao*, “First-principles mechanistic study on nitrate reduction reactions on copper surfaces: effects of crystal facet and pH”, Journal of Catalysis (Special Thematic Issue on Electrocatalysis, invited), 2021, 400, 62-70.

 

170. X.P. Qin, S.Q. Zhu, L. Zhang, S.H. Sun, M.H. Shao*, “Theoretical studies of Metal−N−C for oxygen reduction and hydrogen evolution reactions in acid and alkaline solutions”, Journal of Electrochemistry (Special issue for celebrating the 100th anniversary of Xiamen University, invited), 2021, 27, 185-194.

​​

169. J.-C. Li, X.P. Qin, F. Xiao, C.H. Liang, M.J. Xu, Y. Meng, E. Sarnello, L. Fang, T. Li, S. Ding, Z.Y. Lyu, S.Q. Zhu, X.P. Pan, P.-X. Hou, C. Liu*, Y.H. Lin*, M.H. Shao*, “Highly dispersive cerium atoms on carbon nanowires as oxygen reduction reaction electrocatalysts for Zn-air batteries”, Nano Letters, 2021, 21, 4508-4515.

 

168. F. Xiao , X. Liu, C.J. Sun, I. Hwang, Q. Wang, Z.W. Xu, Y.A. Wang, S.Q. Zhu, H.-w. Wu, Z.D. Wei, L.P. Zheng, D.J. Cheng, M. Gu*, G.L. Xu*, K. Amine*, M.H. Shao*, “Solid-state synthesis of highly dispersed nitrogen-coordinated single iron atom electrocatalysts for proton exchange membrane fuel cells”, Nano Letters, 2021, 21, 3633-3639.

167. S.Q. Zhu , E.P. Delmo, T.H. Li, X.P. Qin, J. Tian, L. Zhang, M.H. Shao*, “Recent advances in catalyst structure and composition engineering strategies for regulating CO2 electrochemical reduction”, Advanced Materials (Special issue for celebrating the 100th anniversary of Xiamen University, invited), 2021, 2005484.

166. K. Siddharth , P. Alam, Md D. Hossain, N. Xie, G.S. Nambafu , F. Rehman, J. W.Y. Lam, G.H. Chen, J.P. Cheng, Z.T. Luo, G.H. Chen, B.Z. Tang*, M.H. Shao*, “Hydrazine detection during ammonia electro-oxidation using an aggregation-induced emission dye”, Journal of the American Chemical Society, 2021, 143, 2433-2440.

 

165. G.Z. Li, Y.C. Mu, Z.X. Huang, N.G. Wang, Y.Y. Chen, J. Liu, G.P. Liu, O.L Li, Z.C. Shi*, M.H. Shao*, “Poly-active centric Co3O4-CeO2/Co-N-KB composites as superior oxygen reduction catalysts for Zn-air batteries”, Science China Materials, 2021, 64, 74-83.

164. Q. Hu, Z.Y. Wang, X.W. Huang, Y.J. Qin, H.P. Yang, X.D. Ren, Q.L. Zhang, J.H. Liu, M.H. Shao*, C.X. He*, “Integrating well-controlled core-shell structures into “superaerophobic” electrodes for water oxidation at large current densities”, Applied Catalysis B: Environmental, 2021, 119920.

163. T.H. Li , J. Wang , S.Q. Zhu , E.P. Delmo , F. Sun, L. Zhang , *, M. Gu*, M.H. Shao*, “Cu3PdxN nanocrystals for efficient CO2 electrochemical reduction to methane”, Electrochimica Acta (Special Issue on CO2 electroreduction, invited), 2021, 137793.

162. F. Xiao, M.H. Shao*, “Recent progress on electrocatalysts for oxygen reduction reaction” Science Focus (Invited Analysis of Chinese Hot Papers), 2020, 15(6), 56-58 (in Chinese).

 

161.  Z.H. Lyu (equal contribution), S.Q. Zhu (equal contribution), L. Xu (equal contribution), Z.T. Chen, Y. Zhang, S. Zhou, M.H Xie, T.H. Li, J. Y. Liu, M.F. Chi, M.H. Shao*, M. Mavrikakis*, Y.N. Xia*, “Kinetically-controlled synthesis of Pd-Cu janus nanocrystals with enriched surface structures and enhanced catalytic activities toward CO2 reduction”, Journal of the American Chemical Society, 2021, 143, 149-162.

160.  F. Xiao, Y.-C. Wang, Z.-P. Wu, G.Y. Chen,  F. Yang , S.Q. Zhu , K. Siddharth , Z.J. Kong, A.L. Lu, J.-C. Li, C.-J. Zhong*, Z.-Y. Zhou*, M.H. Shao*, “Recent advances in electrocatalysts for proton exchange membrane fuel cells and alkaline membrane fuel cells”, Advanced Materials (Special issue for celebrating the 100th anniversary of Xiamen University, invited), 2021, 2006292.

159. Q. Wang, S. Zhang, H. He, Y.G. Tan, C.X. He, M.H. Shao*, H.Y. Wang*, C.X. He, “Oxygen vacancy engineering in titanium dioxide for sodium storage”, Chemistry-An Asian Journal (Special Collection on Defect Chemistry, invited), 2021, 16, 3-19.

 

158. Z.H. Lyu (equal contribution), S.Q. Zhu (equal contribution), M.H Xie, Y. Zhang, Z.T. Chen, R.H. Chen, M.K. Tian, M.F. Chi, M.H. Shao*, Y.N. Xia*, “Controlling the surface oxidation of Cu nanowires improves their catalytic selectivity and stability toward C2+ products in CO2 reduction”, Angewandte Chemie International Edition, 2021, 60, 1909-1915.

157. S. Ding, Z. Lyu, H. Zhong, D. Liu, E. Sarnello, L. Fang, M. Xu, M.H. Engelhard, H. Tian, T. Li, X.Q. Pan, S.P. Beckman, S. Feng, D. Du, J.‐C. Li,*, M.H. Shao, Y.H. Lin*, “An ion‐imprinting derived strategy to synthesize single‐atom iron electrocatalysts for oxygen reduction”, Small, 2020, 2004454.

 

156. J. Li, Q.Y. Zhou, M.F. Yue, S.G. Chen, J.H. Deng, X.Y. Ping, J. Li, Q. Liao, M.H. Shao, Z.D. Wei*, “Cross-linked multi-atom Pt catalyst for highly efficient oxygen reduction catalysis”, Applied Catalysis B: Environmental, 2021, 119728.

155. Y.X. Wang, H.Y. Su, Y.H. He, L.G. Li, S.Q. Zhu (equal contribution), H. Shen, P.F. Xie, X.B. Fu, G.Y. Zhou, C. Feng, D.K. Zhao, F. Xiao, X.J. Zhu, Y.C. Zeng, M.H. Shao*, S.W. Chen*, G. Wu*, J. Zeng*, C. Wang*, “Advanced electrocatalysts with single-metal-atom active sites”, Chemical Reviews, 2020, 120, 12217–12314.

154. X.L. Gao, G.L. Zhou, H. Wang, J.Z. Yin*, L.L. Zhang*, F. Xiao, K. Siddharth, S.Q. Zhu, M.H. Shao*, “Defect engineering of molybdenum-based materials for electrocatalysis”, Catalytsts (invited review), 2020, 10, 1301.

 

153. C. Lv, L. Zhong, Y. Yao, D. Liu, Y. Kong, X. Jin, Z. Fang, W. Xu, C. Yan, K. Dinh, M. Shao, L. Song, G. Chen, S. Li, Q. Yan*, G. Yu*, 'Boosting electrocatalytic ammonia production through mimicking “π Back-Donation”, Chem, 2020, 6, 2690-2702.

 

152. J.J. Wang, J.G. Wang,*, X.P. Qin, Y. Wang, Z.Y. You, H.Y. Liu, M.H. Shao*, “Superfine MnO2 nanowires with rich defects toward a boosted zinc ion storage performance”, ACS Applied Materials & Interfaces, 2020, 12, 34949-34958.

151. F. Xiao , G-L. Xu, C.-J. Sun, I. Hwang, M.J. Xu, H.-W. Wu, Z.D. Wei, X.Q. Pan, K. Amine*, M.H. Shao*, “Durable hybrid electrocatalysts for proton exchange membrane fuel cells”, Nano Energy, 2020, 77, 105192.

150. Y.F. Zhang, F. Xiao, G.Y. Chen, M.H. Shao*, “Fuel cell performance of non-precious metal based electrocatalysts”, Journal of Electrochemistry, 2020, 26, 563-572.

 

149. Y. Guo, P. Jin, M.H. Shao, S.G. Dong, R.G. Du*, C.J. Lin, “Effect of an Environment-Friendly Diisooctyl Sebacate-Based Mixed Corrosion Inhibitor on Reinforcing Steel”, Acta Physico-Chimica Sinica, accepted.

148.E. Kamphaus, M. Angarita-Gomez, X.P. Qin , M.H. Shao, P. Balbuena*, “Effects of solid electrolyte interphase components on the reduction of LiFSI over lithium metal”, ChemPhysChem, 2020, 21, 1317.

 

147. G.Z. Li, Y.C. Mu, Z.X. Huang, N.G. Wang, Y.Y. Chen, J. Liu, G.P. Liu, O.L Li, Z.C. Shi*, M.H. Shao*, “Poly-active centric Co3O4-CeO2/Co-N-KB composites as superior oxygen reduction catalysts for Zn-air batteries”, Science China Materials, accepted.

 

146. C.Y Guo, C.H. Liang, X.P. Qin , Y.J. Gu, M.H. Shao*, W.-T. Wong*, “Facile preparation of Pd-loaded core−shell ZIF-8@Pd@MOF-74 catalyst for the efficient and chemo-selective hydrogenation reaction under ambient condition”, ACS Applied Nano Materials, 2020, 3, 7242, 7251.

145. K. Siddharth, Z.L. Xing, F. Xiao, S.Q. Zhu, L.L. Zhang, F. Pan, M.H. Shao*, “Au nanoparticles modified with Pt, Ru and SnO2 as electrocatalysts for ethanol oxidation reaction in acids”, Chemistry-An Asian Journal (Special Collection on Interface Chemistry for Electrochemical Energy Applications, invited), 2020, 15, 2174-2180.

 

144. J.G. Wang,*, L.B. Ren, Z.D. Hou, M.H. Shao*, “Flexible reduced graphene oxide/prussian blue films for hybrid supercapacitors”, Chemical Engineering Journal, 2020, 125521.

 

143. S.Q. Zhu, X.P. Qin, Y. Yao, M.H. Shao*, “The pH-dependent hydrogen and water binding energies on platinum surfaces as directly probed through surface-enhanced infrared absorption spectroscopy”, Journal of the American Chemical Society, 2020, 142, 19, 8748-8754.

 

142. X.S. Xu, X.J. Tian, B.T. Sun, Z.Q. Liang, H.Z Cui, J. Tian,*, M.H. Shao*, “1 T-phase molybdenum sulfide nanodots enable efficient electrocatalytic nitrogen fixation under ambient conditions”, Applied Catalysis B: Environmental, 2020, 118984. 

 

141.Y. Yao , S.Q. Zhu , H.J. Wang, H. Li*, M.H. Shao*, “A spectroscopic study of nitrogen and nitrate electrochemical reduction on rhodium surfaces”, Angewandte Chemie International Edition, 2020, 59, 10479-10483.     

 

140. Y.T. Chan , K. Siddharth , M.H. Shao*, “Investigation of cubic Pt Alloys for ammonia oxidation reaction”, Nano Research (Nano Research Award Special Issue, Invited), , 2020, 13, 1920-1927.

139. Y. Yao, J. Wang, H.J. Wang, H. Li*, M.H. Shao*, “Electrochemical synthesis of ammonia from nitrogen under ambient conditions: current status and challenges”, Electrochemical Energy Reviews (invited review), 2020, 3, 239–270.

138. J.-C. Li, H. Zhong, M.J. Xu d, T. Li, L.G. Wang, Q.R Shi, S. Feng, Z.Y. Lyu, D. Liu, D. Du, S.P. Beckman, X.Q. Pan, Y.H. Lin*, M.H. Shao*, “Boosting the activity of Fe-Nx moieties in Fe-N-C electrocatalysts via phosphorus doping for oxygen reduction reaction”, Science China Materials, 2020, 63, 965-971.

137.D. Liu, J.-C. Li, *, S.C. Ding, Z.Y. Lyu, S. Feng, H.Y. Tian, C.X. Hyuan, M. Xu, T. Li, D. Du, P. Liu, M.H. Shao, Y.H. Lin*, “2D single‐atom catalyst with optimized iron sites produced by thermal melting of metal–organic frameworks for oxygen reduction reaction”, Small Methods, 2020, 1900827.

136. K. Siddharth , Y.M. Hong, X.P. Qin , H.J. Lee, Y.T. Chan , S.Q. Zhu , G.H. Chen, S.-I. Choi*, M.H. Shao*, “Surface engineering in improving activity of Pt nanocubes for ammonia electrooxidation reaction”, Applied Catalysis B: Environmental, 2020, 118821.

135. J.-C. Li , S. Maurya, Y.S. Kim, T. Li, L.G. Wang, Q.R. Shi, D. Liu, S. Feng, Y.H. Lin,* M.H. Shao*, “Stabilizing single-atom iron electrocatalysts for oxygen reduction via ceria confining and trapping”, ACS Catalysis, 2020,10, 2452-2458.   

134. S. Ibraheem, S.G. Chen, L.L. Peng, J. Li, L. Li, Q. Liao, M.H. Shao, Z.D. Wei*, “Strongly coupled iron selenides-nitrogen-bond as an electronic transport bridge for enhanced synergistic oxygen electrocatalysis in rechargeable zinc-O2 batteries”, Applied Catalysis B: Environmental, 2020, 118569.

133. S.J. Yi, X.P. Qin , C.H. Liang , J.S. Li, R. Rajagopalan, Z.J. Zhang, J.Y. Song, Y.G. Tang, F.Y. Cheng, H.Y. Wang ,*, M.H. Shao*, “KMnO4 etched N-rich carbon nanotubes as advanced electrocatalysts for Zn-air batteries”, Applied Catalysis B: Environmental, 2020, 118537.

132. Y.F. Zhang, S.Q. Zhu, L. Zhang, D. Su, M.H. Shao*, “Interatomic diffusion in Pd-Pt core-shell nanoparticles”, Chinese Journal of Catalysis (Special Issue on Electrocatalysis, invited), 2020, 41, 807-812.

131. Z.G. Meng, F. Xiao , Z.X. Wei, X.Y. Guo, Y. Zhu, Y.R. Liu, G.J. Li, Z.Q. Yu, M.H. Shao*, W.-Y. Wong*, “Direct synthesis of L10-FePt nanoparticles from single-source bimetallic complex and their electrocatalytic applications in oxygen reduction and hydrogen evolution reaction”, Nano Research, 2019, 12, 2954-2959.

130Y. Kong, Y. Li, B. Yang, Z.J. Li, Y. Yao , J.G. Lu, L.C. Lei, Z.H. Wen,  M.H. Shao*, Y. Hou*, “Boron and nitrogen co-doped porous carbon nanofibers as metal-free electrocatalysts for highly efficient ammonia electrosynthesis”, Journal of Materials Chemistry A, 2019, 7, 26272-26278.

 

129. F. Xiao , X.P. Qin , M.J. Xu , S.Q. Zhu , L. Zhang , Y.M. Hong, S.-I. Choi, Q.W. Chang , Y. Xu , X.Q, Pan*, M.H. Shao*, “Impact of heat treatment on the electrochemical properties of carbon-supported octahedral Pt-Ni nanoparticles”, ACS Catalysis, 9, 11189-11198.

128. X.P. Qin , L. Zhang , G.L. Xu, S.Q. Zhu,Q. Wang, M. Gu, X.Y. Zhang, C.J. Sun, P.B. Balbuena, K. Amine, M.H. Shao*, “The role of Ru in improving the activity of Pd toward hydrogen evolution and oxidation reactions in alkaline solutions”, ACS Catalysis, 9, 9614-9621.

127. Z.J. Liu, X.W. Ou,; M.H. Zhuang, J.D. Li , M. Hossain, Y. Ding, H.L. Wong, J.W. You, Y.T. Cai, I. Abidi, A. Tyagi, M.H. Shao,  B. Yuan, Z.T. Luo*, “Confinement-enhanced rapid interlayer diffusion within graphene-supported anisotropic ReSe2 electrodes”, ACS Applied Materials & Interfaces, 2019, 11, 31147-31154.

126. L.B. Ren, J.-G. Wang,* H.Y. Liu, X.M. Yin, M.H. Shao*, B.Q. Wei*, “Metal–organic-framework-derived hollow polyhedrons of prussian blue analogues for high power grid-scale energy storage,” Electrochimica Acta, 2019, 321, 134671.

 

125. E. Kamphaus, M. Angarita-Gomez, X.P. Qin, M.H. Shao, M. Engelhard, K. Mueller, V. Murugesan, P. Balbuena, “Role of inorganic surface layer on solid electrolyte interphase evolution at Li-metal anodes”, ACS Applied Materials & Interfaces, 2019,11, 31467-31476.

124. S.Q. Zhu , X.P. Qin , Q. Wang, T.H. Li , R. Tao , M. Gu*, M.H. Shao*, “Breaking the scaling relation of adsorbed intermediates on Au-Pd nanoparticles toward enhanced CO2 electrochemical reduction”, Journal of Materials Chemistry A, 2019, 7, 16954-16961.

123.  X.P. Qin , S.Q. Zhu , F. Xiao , L. Zhang , M.H. Shao*, “Strongly adsorbed CO is a spectator in CO2 reduction reaction on heterogeneous single-atom Fe-N-C electrocatalysts”, ACS Energy Letters, 2019, 4, 1778-1783.

122. D.J. Liu, T.T. Wu, Q. Zhang, X.M. Wang, X.Y. Guo , Y.K. Sun, Y. Zhu, M.H. Shao, H.J. Chen, Y. Luo, D.Y. Lei, “Probing the in-plane near-field enhancement limit in a plasmonic particle-on-film nanocavity with surface-enhanced Raman spectroscopy of graphene”, ACS Nano, 2019, 13, 7644-7654.

121. N. He, D. Sun, Y.G. Tang, H.Y. Wang ,*, M.H. Shao*, “Understanding and improving the initial Coulombic efficiency of high-capacity anode materials for better sodium ion batteries”, Energy Storage Materials (invited review), 2019, 23, 233-251.

 

120. Y. Wang, F.-L. Meng, D. Bao, M.-M. Shi, Q. Zhang, Y.-T. Zhou, K.H. Liu, Y. Zhang, J.-Z. Wang, Z. Chen, D. Wang, Z. Jiang, M. Luo, L. Gu, Q. Zhang, X. Cao, Y. Yao , M.H. Shao, Y. Zhang,* X.-B. Zhang,* J.G. Chen,* J.-M. Yan,* Q. Jiang*, “Lattice defect-rich bismuth for nitrogen electroreduction to ammonia under ambient conditions”, Angewandte Chemie International Edition, 2019, 8, 9464-9469.

119. J.-C. Li, F. Xiao, H. Zhong, T. Li, M.J. Xu d, L. Ma, M. Cheng, D. Liu. S. Feng, Q.R. Shi, H.-M. Cheng, C. Liu, D. Du, S.P. Beckman, X.Q. Pan, Y.H. Lin, M.H. Shao*, “Secondary-atom-assisted synthesis of single iron atoms anchored on N-doped carbon nanowires for oxygen reduction reaction”, ACS Catalysis, 2019, 9, 5929-5934.

118. J.-C. Li, M. Cheng, L. Ma, T. Li, X.F. Ruan, D. Liu, H.-M. Cheng, C. Liu, D. Du, Z.D. Wei, Y.H. Lin, M.H. Shao*, “Carbon nanotube-linked hollow carbon nanospheres doped with iron and nitrogen as single-atom electrocatalysts for oxygen reduction reaction in acidic solution”, Journal of Materials Chemistry A, 2019, 7, 14478-14482.

117. X.P. Qin , P.B. Balbuena*, M.H. Shao*, “First-principles study on the initial oxidative decompositions of ethylene carbonate on layered cathode surfaces of lithium ion batteries”, Journal of Physical Chemistry C, 2019, 123, 14449-144453.

116.  Z.X. HuangX.P. Qin , G.Z. Li, W.C., Yao, J. Liu, J. Wang, N.G. Wang, I. Kemakorn, G. Wu,  M.H. Shao*, Z.C. Shi*, “Co3O4 nanoparticles anchored on nitrogen-doped partially exfoliated multi-wall carbon nanotubes as an enhanced oxygen electrocatalyst for rechargeable and flexible solid-state Zn-air battery”, ACS Applied Energy Materials, 2019, 2, 4428-4438.

 

115. Y. Yao , H.J. Wang, X.-Z. Yuan, H. Li, M.H. Shao*, “Electrochemical nitrogen reduction reaction on ruthenium”, ACS Energy Letters, 2019, 4, 1336-1341.

 

114. D. Sun, D. Huang, H.Y. Wang *, G.L. Xu, X.Y. Zhang, R. Zhang, Y.G. Tang, D. Abd EI-Hady, W. Alshitari, A. Saad AL-Bogami, K. Amine*, M.H. Shao*, “Thermal-driven ion intercalation assisted exfoliation of 1T MoS2 nanosheets from bulky MoS2 with extraordinary sodium storage performance”, Nano Energy, 2019, 61: 361-369.

113. F. Xiao , G.L. Xu, C.J. Sun, M.J. Xu , W. Wen, Q. Wang, M. Gu, S.Q. Zhu , Y.Y. Li, Z.D. Wei, X.Q. Pan, J.G. Wang, K. Amine*, M.H. Shao*, “Nitrogen-coordinated single iron atom catalysts derived from metal organic frameworks for oxygen reduction reaction”, Nano Energy, 2019, 61: 60-68.

112. G.-L. Xu, Q. Liu , K.K.S. Lau, X. Liu, H. Gao, Y.Z. Liu, M. Zhuang, Y. Ren, J.D. Li , M.H. Shao, Z.H. Chen, K. Amine*, G.H. Chen*, “Building an artificial protective skin for emerging energy materials”, Nature Energy, 2019, 4, 484-494.

111. S. Majumder , M.H. Shao, Y. Deng, G.H. Chen*, “Ultrathin Sheets of MoS2/g-C3N4 Composite as a Good Hosting Material of Sulfur for Lithium-Sulfur Batteries”, Journal of Power Sources, 2019, 431: 93-104.

110. W.G. Chong, F. Xiao, S.S. Yao, J. Cui, Z. Sodighi, J.X. Wu, M. Ihsan-ul Haq,  M.H. Shao, J.-K. Kim*, “Nitrogen-doped graphene fiber webs for multi-battery energy storage”, Nanoscale, 2019, 11, 6334-6342.

109. S. Q.Zhu, T.H. Li , W.B. Cai, M.H. Shao*, “CO2 electrochemical reduction as probed through infrared spectroscopy”, ACS Energy Letters (invited Perspective, ACS Editors’ Choice), 2019, 4: 682-689.

108. J.-C. Li , X.P. Qin , P.-X. Hou, M. Cheng, C. Shi, C. Liu*, H.-M. Cheng, M.H. Shao*, “Identification of active sites in nitrogen and sulfur co-doped carbon-based oxygen reduction catalysts”, Carbon, 2019, 147: 303-311.

107. H.H. Sun, J.G. Wang,*, X.Z. Zhang, C.J. Li, F. Liu, W.J. Zhu, W. Hua, Y.Y. Li, M.H. Shao*, “Nanoconfined construction of MoS2@C/MoS2 core-sheath nanowires for superior rate and durable Li-ion energy storage”, ACS Sustainable Chemistry & Engineering, 2019, 7: 5346-5354.

106. S. Majumder , M.H. Shao, Y. Deng, G.H. Chen*, “Two dimensional WS2/C nanosheets as a polysulphide immobilizer for high performance lithium-sulphur batteries”, Journal of the Electrochemical Society (JES Focus Issue: Selected Papers from IMLB 2018, invited), 2019, 166: A5386-A5395.

105. J.-C. Li, D. Liu, D. Du, Y.H. Lin, Z.D. Wei, M.H. Shao*, “Dispersive single-atom metals anchored on functionalized nanocarbons for electrochemical reactions”, Topics in Current Chemistry (Topical Collection in Electrocatalysis, invited review), 2019, 377: 4-26.

104. H.M. Chen, S.Q. Zhu, Z.L. Xing, J.L. Huang, M.H. Shao*, ”Palladium Adatoms on Gold Nanoparticles as Electrocatalysts for Ethanol Electrooxidation in Alkaline Media”, Journal of Electrochemistry (Special Issue dedicated to Prof. Baolian Yi’s 80th birthday, invited), 2018, 24: 740-747.

103. J.-G. Wang*, H.Y. Liu, H.Z. Liu, M.H. Shao*, B.Q. Wei*, “Hyperbranched NiCoP arrays with high electrocatalytic activities toward efficient overall water splitting”, ACS Applied Materials & Interfaces, 2018, 10: 41237-41245.

102. L. Wang*, Z.P. Liu, S.Q. Zhu , M.H. Shao, B.L. Yang*, J.G. Chen*, “Tungsten carbide and cobalt modified nickel nanoparticles supported on MWCNTs as highly efficient electrocatalysts for urea oxidation in alkaline electrolyte”, ACS Applied Materials & Interfaces, 2018, 10: 41338-41347.

101. Y. Yao, Q. Feng, S.Q. Zhu, J.D. Li, Y.Z. Yao, Y.J. Wang, Q. Wang, M. Gu, H.J. Wang, H. Li, X.-Z. Yuan, M.H. Shao*, “Chromium oxynitride electrocatalysts for electrochemical synthesis of ammonia under ambient conditions”, Small Methods (Special Issue on Nitrogen Electrochemical Reduction, invited), 2018, 1800324.

100. L. Zhang, S.Q. Zhu , S.Y. Dong, N.J. Woo, Z.L. Xu, J.Q. Huang, J.-K. Kim, M.H. Shao*, “Co nanoparticles encapsulated in porous N-doped carbon nanofibers as an efficient electrocatalyst for hydrogen evolution reaction”, Journal of the Electrochemical Society (JES Focus Issue: Electrocatalysis in Honor of Radoslav Adzic, invited), 2018, 165: J3271-3275.

99. S.Q. Zhu, Q. Wang, X.P. Qin, M. Gu, R. Tao, B. P. Lee , L. Zhang, Y.Z. Yao, T.H. Li, M.H. Shao*, “Tuning structural and compositional effects in Pd-Au nanowires for highly selective and active CO2 electrochemical reduction reaction”, Advanced Energy Materials, 2018, 1802238.

98. J.-G. Wang*, H.Z. Liu, X.Y. Zhang, M.H. Shao*, B.Q. Wei*, “Elaborate construction of N/S-co-doped carbon nanobowls for ultrahigh power supercapacitors”, Journal of Materials Chemistry A, 2018, 6: 17563-17661.

 

97. E. Kalamaras, M. Maroto-Valer, M.H. Shao, J. Xuan*, H. Wang*, “Solar carbon fuels via photoelectrochemistry: A review”, Catalysis Today 2018, 317, 56-75.

96. L.T. Zhang , D. Dambournet, A. Iadecola, D. Batuk, O. Borkiewicz, K. Wiaderek, E. Salager, M.H. Shao, G.H. Chen*, J.-M. Tarascon*, “Origin of the high capacity manganese-based oxyfluoride electrodes for rechargeable batteries”, Chemistry of Materials, 2018, 30: 5362-5372.

95. K. Siddharth, Y.T. Chan , Lu Wang, M.H. Shao*, “Ammonia electro-oxidation reaction: recent development in mechanistic understanding and electrocatalyst design”, Current Opinion in Electrochemistry (Invited Review) 2018, 9: 151-157.

94. X.P. Qin , M.H. Shao,P.B. Balbuena*, “Elucidating mechanisms of Li plating on Li anodes of lithium-based batteries”, Electrochimica Acta, 2018, 284: 485-494.

93. Z.X. Huang, X.P. Qin , X.F. Gu, G.Z. Li, Y.C. Mu, N.G. Wang, K. Ithisuphalap, H.X. Wang, Z.P. Guo, Z.C. Shi*, G. Wu*, M.H. Shao*, “Mn3O4 quantum dots supported on nitrogen-doped partially exfoliated multi-wall carbon nanotubes as oxygen reduction electrocatalysts for high-performance Zn-air batteries”, ACS Applied Materials & Interfaces, 2018, 10: 23900-23909.

92. J.-C. Li, P.-X. Hou, M. Cheng, C. Liu,H.-M. Cheng*, M.H. Shao*, “Carbon nanotube encapsulated in nitrogen and phosphorus co-doped carbon as a bi-functional electrocatalyst for oxygen reduction and evolution reaction”, Carbon, 2018, 139: 156-163.

 

91. ​​J.-G. Wang*, H. Liu, H. Liu, W. Hua, H. Sun, M.H. Shao*, “Reactive template synthesis of flexible V2O5@polypyrrole core-shell nanowire membrane with enhanced supercapacitive performance”, ACS Applied Materials & Interfaces, 2018, 10: 18816-18823.

90. L. Wang*, S.Q. Zhu , N. Marinkovic, S. Kattel, M.H. Shao, B.L. Yang*, J.G. Chen*, “Insight into the synergistic effect between nickel and tungsten carbide for catalyzing urea electrooxidation in alkaline electrolyte”, Applied Catalysis B: Environmental 2018, 232: 365-370.

 

89. Y. Yao , S. Zhu , H.J. Wang, H. Li, M.H. Shao*, “A spectroscopic study on the nitrogen electrochemical reduction reaction on gold and platinum surfaces”, Journal of the American Chemical Society, 2018, 140: 1496-1501.

 

88. H. He, M.M. Gan, H.Y Wang *, G.L. Xu, X.Y. Zhang, D. Huang, F. Fu , Y.G. Tang, K. Amine *, M.H. Shao*, “Structure-dependent performance of TiO2/C as anode material for Na-ion batteries”, Nano Energy 2018, 44: 217-227.

 

87. L.L. Zhang, Y.T. Chen. P.P. Zhao, W. Luo*, S.L. Chen, M.H. Shao*, Fe3C nanorods encapsulated in N-doped carbon nanotubes as active electrocatalysts for hydrogen evolution reaction”, Electrocatalysis (invited), 2018, 9(2): 264-270.

 

86. S. Zhu, B. Jiang, W.-B. Cai, M.H. Shao*, “The role of bicarbonate anions in CO2 electrochemical reduction reaction on Cu surfaces”, Journal of the American Chemical Society, 2017, 139, 15664-15667.

 

85. L.L. Zhang, J. Xiao, H.Y Wang, M.H. Shao*, “Carbon-based electrocatalysts for hydrogen and oxygen evolution reactions”, ACS Catalysis (Invited Perspective), 2017, 7:7855-7865.

 

84. J.E. Sulaiman, S.Q. Zhu, Z.L. Xing, Q.W. Chang, M.H. Shao*, “Pt-Ni octahedra as electrocatalysts for ethanol electro-oxidation reaction”, ACS Catalysis, 2017, 7: 5134-5141.

 

83. Q.W. Chang, Y. Xu, S.Q. Zhu, F. Xiao, M.H. Shao*, “Pt-Ni nanourchins as electrocatalysts for oxygen reduction reaction”, Frontiers in Energy (Special Issue on Energy Materials, invited), 2017,11: 254-259.

 

82. Q.W. Chang, Y. Xu, Z.Y. Duan, F. Xiao, F. Fu, Y.M. Hong, J. Kim, S.-I. Choi*, D. Su*, M.H. Shao*, “Structural evolution of sub-10 nm octahedral platinum-nickel bimetallic nanocrystals”, Nano Letters, 2017, 17: 3926-3931. 

 

81. F. Fu, J.D. Li, Y.Z. Yao, X.P. Qin, Y.B. Dou, H.Y. Wang, J. Tsui, K.Y. Chan, M.H. Shao*, “Hierarchical NiCo2O4 micro- and nanostructures with tunable morphologies as anode materials for Li-ion and Na-ion batteries”, ACS Applied Materials & Interfaces, 2017, 9: 16194-16201.

 

80. J.S. Li, J.J. Chen, H.Y. Wang*, Y. Ren, K. Liu, Y.G. Tang*, M.H. Shao*, “Fe/N co-doped carbon materials with controllable structure as highly efficient electrocatalysts for oxygen reduction reaction”, Energy Storage Materials, 2017, 8: 49-58.

 

79. H. He, Q. Zhang, H.Y Wang *, H. H. Zhang, J.D. Li, Z.G. Peng, Y.G. Tang*, M.H. Shao*, “Defect-rich TiO2-δ nanocrystals confined in a mooncake-shaped porous carbon matrix as an advanced Na ion battery anode”, Journal of Power Sources, 2017, 354: 179-188.

 

78. F. Fu, Y.Z. Yao, H.Y Wang, G.L. Xu, K. Amine*, S.-G. Sun*, M.H. Shao*, “Structure dependent electrochemical performance of Li-rich layered oxides in lithium-ion batteries ”, Nano Energy, 2017, 35: 370-378.

 

77. H. He, H.Y Wang *, D. Sun, M.H. Shao*, X.B. Huang, Y.G. Tang*, “N-doped rutile TiO2/C with significantly enhanced Na storage ability for Na-ion battery”, Electrochimica Acta, 2017, 236: 43-52.

 

76. S. Zhu, X.M. Hu, M.H. Shao*, “Impacts of anions on oxygen reduction reaction kinetics on platinum and palladium surfaces in alkaline solutions”, Physical Chemistry Chemical Physics, 2017, 19:7631-7641.

 

75. M.-Z. Wang, X.P. Qing, K. Jiang, Y. Dong, M.H. Shao*, W.-B. Cai*, “Electrocatalytic activities of oxygen reduction reaction on Pd/C and Pd-B/C catalysts”, Journal of Physical Chemistry C, 2017, 121: 3416-3423.

 

74. H. He; D. Sun, Q. Zhang, F. Fu , Y.G. Tang, J. Guo, M.H. Shao*, H.Y. Wang* , “Iron doped cauliflower-like rutile TiO2 with superior sodium storage properties”, ACS Applied Materials & Interfaces, 2017, 9: 6093-6103.

 

73. L.L. Zhang, W. Liu, Y.B. Dou, Z. Du, M.H. Shao*, “Non-precious metal electrocatalysts based on transition metal-N-C composites for hydrogen evolution reaction at universal pHs”, Journal of Physical Chemistry C, 2016, 120: 29047-29053.

 

72. K. Liu, X.B. Huang, F.Z. Li, Y.G. Tang*, J.S. Li, J.J. Chen, H.Y. Wang*, M.H. Shao*, “CeO2 – Co3O4/C as a highly active electrocatalyst for oxygen reduction reaction in Al-air batteries”, ACS Applied Materials & Interface, 2016, 8: 34422-34430.

 

71. Q.W. Chang, F. Xiao, Y. Xu, M.H. Shao*, “Core-shell electrocatalysts for oxygen reduction reaction”, Acta Physico-Chimica Sinica (Invited Feature Article) 2017, 33 (1): 9-17.

 

70. S. Zhu, X.M. Hu, L.L. Zhang, M.H. Shao*, “Impacts of Perchloric Acid, Nafion and Alkali Metal Ions on Oxygen Reduction Reaction Kinetics in Acidic and Alkaline Solutions”, Journal of Physical Chemistry C, 2016, 120: 27452-27461.

 

69. F. Fu, J.Y. Tang, J.D. Li, Y.Z. Yao, M.H. Shao*, “Hollow porous hierarchical structured Li-rich layered oxides as high performance cathode materials for lithium-ion batteries”, ACS Applied Materials & Interfaces 2016, 8: 25654-25659.

 

68. L.L. Zhang, Q.W. Chang, H.M. Chen, M.H. Shao*, “Recent advances in palladium-based electrocatalysts for fuel Cell reactions and hydrogen evolution reaction”, Nano Energy (Special Issue on Electrocatalysis, invited) 2016, 29: 198-219.

 

67. S.Q. Zhu, J. Yue, X.P. Qing, Z.D. Wei, Z.X. Liang, R.R. Adzic, S.R. Brankovic, Z. Du, M.H. Shao*, “The role of citric acid in perfecting platinum monolayer on palladium nanoparticles during the surface limited redox replacement reaction”, Journal of the Electrochemical Society (JES Focus Issue: Electrochemical Deposition as Surface Controlled Phenomenon, invited) 2016, 163: D3040-D3046.

 

66. J. Yue, Z. Du, M.H. Shao*, “The role of citric acid and ascorbic acid in morphology control of palladium nanocrystals: A molecular dynamics and density functional theory study”, Chemical Physics Letters 2016, 659: 159-163.

 

65. M.H. Zhuang, X.W. Ou, Y.B. Dou, L.L. Zhang, Q.C Zhang, R.Z. Wu, Y. Ding, M.H. Shao*, Z.T. Luo*, “Polymer-embedded fabrication of Co2P nanoparticles encapsulated in N,P-doped graphene for hydrogen generation”, Nano Letters 2016, 16: 4691-4698.

 

64. L.L. Zhang, S.Q. Zhu, Q.W. Chang, D. Su, J. Yue, Z. Du, M.H. Shao*, “Palladium-platinum core-shell electrocatalysts for oxygen reduction reaction prepared with the assistance of citric acid”, ACS Catalysis 2016, 6: 3428-3432.

 

63. S. Khateeb, S. Guerreo, D. Su, R.M. Darling, L.V. Protsailo, M.H. Shao*, “Fuel cell performance of palladium-platinum core-shell electrocatalysts synthesized in gram-scale batches”, Journal of the Electrochemical Society 2016, 163: F708-F713.

 

62. H.M. Chen, Z.L. Xing, S.Q. Zhu, L.L. Zhang, Q.W. Chang, J.L. Huang, W.-B. Cai, N. Kang, C.-J. Zhong, M.H. Shao*, “Palladium modified gold nanoparticles as electrocatalysts for ethanol electrooxidation”, Journal of Power Sources 2016, 321: 264-269.

 

61. M.H. Shao*, Q.W. Chan, J.P. Dodelet, R. Chenitz, “Recent Advances in Electrocatalysts for Oxygen Reduction Reaction”, Chemical Reviews (invited) 2016, 116: 3594–3657.

 

60. W. Wang v,*, G. Wang, M. Shao*, “First-principles modeling of direct versus oxygen-assisted water dissociation on Fe(100) surfaces”, Catalysts (Special Issue on Surface Chemistry and Catalysis) 2016, 6: 29.

 

59. Y. Nie, X. Xie, S. Chen, W. Ding, X. Qi, Y. Wang, J. Wang, W. Li, , Z. Wei*, M. Shao*, “Towards effective utilization nitrogen-containing active sites: nitrogen-doped carbon layers wrapped CNTs electrocatalysts for superior oxygen reduction’, Electrochimica Acta 2016, 187: 153-160.

 

58. S. Zhu, M.H. Shao*, “Surface structure and composition effects on electrochemical reduction of carbon dioxide”, Journal of Solid State Electrochemistry (Special Issue dedicated to Prof. JH Zagal’s 65th birthday, invited) 2016, 20: 861-873.

 

57. A. Hachimi1, B. Merzougui, A. Hakeem, T. Laoui, G. M. Swain, Q.W. Chang, M.H. Shao, M. Atieh, “Synthesis of nitrogen doped carbon nanotubes using injection-vertical chemical vapor deposition: effects of synthesis parameters on the nitrogen content”, Journal of Nanomaterials 2015, 453725.

 

56. J. Yue d, Z. Du, M.H. Shao*, “Mechanisms of enhanced electrocatalytic activity for oxygen reduction reaction on high-index platinum n(111)-(111) surfaces”, Journal of Physical Chemistry Letters 2015, 6:3346-3351.

 

55. A. Peles, M.H. Shao, L. Protsailo, “Pt Monolayer Electrocatalyst for Oxygen Reduction Reaction on Pd-Cu Alloy: First-Principles Investigation”, Catalysts (Special Issue on Electrocatalysis in Fuel Cells, invited) 2015, 5: 1193-1201.

 

54. A. Akinpelu, B. Merzougui*, S. Bukola, A.-M. Adad, R.A. Basheer, G. Swain, Q. Chan, M.H. Shao*, A Pt-free electrocatalyst based on pyrolized vinazene-carbon composite for oxygen reduction reaction, Electrochimica Acta 2015, 161:305-311.

 

53. H. Chen, J. Huang,* D. Huang, D. Sun, M.H. Shao,* Q. Li, “Novel AuPd nanostructures for hydrogenation of 1, 3-butadiene”, Journal of Materials Chemistry A 2015, 3:4846-4854.

 

52. E. Hu, S.M. Bak, S.D. Senanayake, X.-Q. Yang*, K.-W. Nam*, L. Zhang, M.H. Shao*, “Thermal Stability in the Blended LiMn2O4-LiNi1/3Co1/3Mn1/3O2 Cathode Materials: An in situ Time-resolved X-Ray Diffraction and Mass Spectroscopy Study”, Journal of Power Sources 2015, 277:193-197.

 

51. S. Bukola, B. Merzougui*, A. Akinpelu, T. Laoui, M.N. Hedhili, G.M. Swain, M.H. Shao*, “Fe-N-C electrocatalysts for oxygen reduction reaction synthesized by using aniline salt and Fe3+/H2O2 catalytic system”, Electrochimica Acta 2014, 146: 809-818.

 

50. S.-I. Choi, M.H. Shao*, N. Lu, A. Ruditskiy, H.-C. Peng, J. Park, S. Guerrero, J. Wang, M. J. Kim, Y.N. Xia*, “Synthesis and characterization of Pd@Pt-Ni core-shell octahedra with high activity toward oxygen reduction”, ACS Nano 2014, 8: 10363–10371.

 

49. M.H. Shao*, A. Peles, J.H. Odell, “Enhanced oxygen reduction activity of platinum monolayer with a gold interlayer on palladium”, Journal of Physical Chemistry C 2014, 118: 18505-18509.

 

48. M.H. Shao*, “In situ microscopic studies on the structural and chemical behaviors of lithium-ion battery materials”, Journal of Power Sources 2014, 270: 475-486.

 

47. S.-I. Choi, S. Xie, M.H. Shao*, N. Lu, S. Guerrero, J. Odell, J. Park, J. Wag, M. King, Y.N. Xia*, “Controlling the sizes and compositions of nanosized Pt-Ni octahedra to optimize their catalytic activities toward oxygen reduction reaction”, ChemSusChem 2014, 7: 1476-1483.

 

46. M.H. Shao*, J.H. Odell, A. Peles, D. Su, “The role of transition metals in the catalytic activity of Pt alloys: quantification of strain and ligand effects”, Chemical Communications  2014, 50: 2173-2176.

 

45. M.H. Shao*, G. He, A. Peles, J.H. Odell, J. Zeng, D. Su, J. Tao, T.K. Yu, Y.M. Zhu, Y.N. Xia,* “Manipulating the oxygen reduction activity of platinum monolayer with shape-controlled palladium nanocrystals”, Chemical Communications  2013, 49: 9030-9032.

 

44. M.H. Shao*, B.H. Smith, S. Guerrero, L. Protsailo, D. Su, K. Kaneko, J. H. Odell, M.P. Humbert, K. Sasaki, J. Marzullo, R.M. Darling, “Core-shell catalysts consisting of nanoporous cores for fuel cell”, Physical Chemistry Chemical Physics 2013, 15: 15078-15090.

 

43. S.-I. Choi, S. Xie, M.H. Shao*, J.H. Odell, H.-C. Peng, J. Park, X. Xia, N. Lu, J. Wang, M. J. Kim, Y.N. Xia,* “Synthesis and characterization of 9-nm Pt-Ni octahedra with record high activity 3.3 A/mg for oxygen reduction reaction”, Nano Letters 2013, 13: 3420-3425.

 

42. B. Merzougui*, A. Hachimi, A. Akeem, B. Saheed, M.H. Shao*, “Fe-N-multiwalled carbon nanotube composites as electrocatalysts for oxygen reduction reaction”, Electrochimica Acta 2013, 107: 126-132.

 

41. M.H. Shao*, J.H. Odell, S.-I. Choi, Y.N. Xia, “Electrochemical active area measurements of platinum and palladium based nanomaterials”, Electrochemistry Communications 2013, 31: 46-48.

 

40. M.H. Shao*, J.H. Odell, M. Humbert, T.K. Yu, Y.N. Xia, “Electrocatalysis on shape-controlled palladium nanocrystals: oxygen reduction reaction and formic acid oxidation”, Journal of Physical Chemistry C 2013, 117: 4172-4180.

 

39. B. Wanjala, B. Wang, V. Petkov, P. Zhu, R. Loukrakpam, Y. Chen, J. Luo, M. Shao, M. Engelhard,  C.J. Zhong, “Design of ternary nanoalloy catalysts: effect of nanoscale alloying and structural perfection on electrocatalytic enhancement”, Chemistry of Materials 2012, 24: 4283-4293.

 

38. M. Humbert, B. Smith, Q. Wang, S.N. Ehrlich, M.H. Shao*, “Synthesis and characterization of palladium-platinum core-shell electrocatalysts for oxygen reduction”, Electrocatalysis (Special Issue dedicated to Radoslav Adzic, invited), 2012, 3: 298-303.

 

37. M.H. Shao*, A. Peles, K. Shoemaker, “Electrocatalysis on platinum nanoparticles: particle size effect on oxygen reduction reaction activity”, Nano Letters 2011, 11: 3714-3719.

 

36. M.H. Shao*, T.K. Yu, J.H. Odell, Y.N. Xia*, “Structural dependence of oxygen reduction reaction on palladium nanocrystals”, Chemical Communications 2011, 47: 6566-6568.

 

35. M.H. Shao*, B. Merzougui, K. Shoemaker, L. Stolar, L. Protsailo, Z.J. Mellinger, I.J. Hsu, J.G. Chen*, “Tungsten carbide modified high surface area carbon as fuel cell catalyst support”, Journal of Power Sources 2011, 196: 7226-7434.

 

34. R. Loukrakpam, J. Luo, P. N. Njoki, B. Wanjala, D. Mott , C.J. Zhong*, M.H. Shao*, L. Protsailo, T. Kawamura, “Preparation and characterization of nanoengineered PtIrCo/C electrocatalysts for oxygen reduction reaction”, ACS Catalysis (Highlighted in ACS News and Research Articles) 2011, 1: 562-572.

 

33. M.H. Shao*, A. Peles, K. Shoemaker, M. Gummalla, P. Njoki, J. Luo, C.J. Zhong, “Enhanced oxygen reduction activity of platinum monolayer on gold nanoparticles”, Journal of Physical Chemistry Letters 2011, 2: 67-72.

 

32. M.H. Shao*, “Palladium-based electrocatalysts for hydrogen oxidation and oxygen reduction reactions”, Journal of Power Sources (review) 2011, 196: 2433-2444.

 

31. B. Wanjala, J. Luo, R. Loukrakpam, P. N. Njoki, D. Mott , C.J. Zhong*, M.H. Shao*, L. Protsailo, T. Kawamura, “Nanoengineered PtNiCo/C catalysts: effect of thermal treatment temperature on electrocatalytic activity and stability for oxygen reduction reaction”, Journal of Physical Chemistry C 2010, 114(41): 17580-17590.

 

30. M.H. Shao*, K. Shoemaker, A. Peles, K. Kaneko, L. Protsailo, “Pt monolayer on porous Pd-Cu alloys as electrocatalysts for oxygen reduction”,  Journal of the American Chemical Society 2010, 132 (27):  9253-9255.

 

29. L. Guo, V.M. Swope, B. Merzougui, L. Protsailo, M. Shao, Q. Yuan, G.M. Swain, “Oxidation resistance of bare and Pt-coated electrically-conducting diamond powder as assessed by thermogravimetric analysis”, Journal of the Electrochemical Society 2010, 157(1): A19-A25.

 

28. A. Kowal, M. Li, M. Shao, K. Sasaki, M. B. Vukmirovic, J. Zhang, N. S. Marinkovic, P. Liu, A. I. Frenkel, R. R. Adzic, “Ternary Pt/Rh/SnO2 electrocatalysts for oxidizing ethanol to CO2”, Nature Materials 2009, 8(4): 325-330.

 

27. F.H.B. Lima, J. Zhang, M.H. Shao, K. Sasaki, M.B. Vukmirovic, E.A. Ticianelli, R.R. Adzic, “Oxygen electrocatalysis on Pt-monolayer on carbon-dispersed PdCo substrates in alkaline media”, Journal of Solid State Electrochemistry (Special Issue dedicated to Oleg Petrii, invited) 2008, 12(4): 399-407.

 

26. M. Shao, K. Sasaki, N.S. Marinkovic, L. Zhang, R.R. Adzic, “Synthesis and characterization of platinum monolayer oxygen-reduction electrocatalysts with Co–Pd core–shell nanoparticle supports”, Electrochemistry Communications 2007, 9(12): 2848-2853.

 

25. R.R. Adzic, J. Zhang, K. Sasaki, M.B. Vukmirovic, M. Shao, J. X. Wang, A.U. Nilekar, M. Mavrikakis, F. Uribe, “Platinum monolayer fuel cell electrocatalysts”, Topics in Catalysis (Special Issue on Fuel Cells, invited, Most Download Paper of 2009) 2007, 46(3-4): 249-262.

 

24. M.H. Shao, K. Sasaki, P. Liu, R.R. Adzic, “Pd3Fe and Pt monolayer-modified Pd3Fe electrocatalysts for oxygen reduction”, Zeitschrift Fur Physikalische Chemie-International Journal of Research in Physical Chemistry & Chemical Physics (Special Issue dedicated to Dieter Kolb, invited) 2007, 221: 1175-1190.

 

23. J.X. Wang, E.T. Springer, P. Liu, M.H. Shao, R.R. Adzic, “Hydrogen oxidation reaction on Pt in acidic media:  adsorption isotherm and activation free energies”, Journal of Physical Chemistry C 2007, 111 (33): 12425-12433.

 

22. M.H. Shao, P. Liu, J. Zhang, R.R. Adzic, “Origin of enhanced activity in palladium alloy electrocatalysts for oxygen reduction”, Journal of Physical Chemistry B (Special Issue dedicated to Norman Sutin, invited) 2007, 111(24) 6772-6775.

 

21. F.H.B. Lima, J. Zhang, M.H. Shao, M.B. Vukmirovic, E.A. Ticianelli, R.R. Adzic, “Catalytic activity-d-band center correlation for the O2 reduction reaction on Pt in alkaline solutions”, Journal of Physical Chemistry C 2007, 111(1): 404-410.

 

20. M.H. Shao, T. Huang, P. Liu, J. Zhang, M.B. Vukmirovic, R.R. Adzic, “Pd monolayer- and Pd alloy- electrocatalysts for oxygen reduction”, Langmuir (Special Issue on Electrochemistry, invited) 2006, 22(25): 10409-10415.

 

19. R.R. Adzic, J. Zhang, M.H. Shao, K. Sasaki, M.B. Vukmirovic, F.A. Uribe, “Platinum and mixed platinum-metal monolayer fuel cell electrocatalysts: design, activity and long-term performance stability”, ECS Transactions, 2006, 3(1): 31-36.

 

18. M.H. Shao, P. Liu, R.R. Adzic, “Superoxide is the intermediate in the oxygen reduction reaction on platinum electrode”, Journal of the American Chemical Society 2006, 128 (23): 7408-7409.

 

17. M.H. Shao, K. Sasaki, R.R. Adzic, “Pd-Fe nanoparticles as electrocatalysts for oxygen reduction”, Journal of the American Chemical Society (ISI Hot Paper) 2006, 128 (11): 3526-3527.

 

16. J. Zhang, F.H.B. Lima, M.H. Shao, K. Sasaki, J.X. Wang, J. Hanson, R.R. Adzic, “Platinum monolayer on nonnoble metal-noble metal core-shell nanoparticle electrocatalysts for O2 reduction”, Journal of Physical Chemistry B (Most-Accessed Article) 2005, 109 (48): 22701-22704.

 

15. M.H. Shao, R.R. Adzic, “Spectroscopic identification of the reaction intermediates in oxygen reduction on gold in alkaline solutions”, Journal of Physical Chemistry B 2005, 109(35): 16563-16566.

 

14. M.H. Shao, J. Warren, N.S. Marinkovic, P.W. Faguy, R.R. Adzic, “In situ ATR-SEIRAS study of electrooxidation of dimethyl ether on a Pt electrode in acid solutions”, Electrochemistry Communications 2005, 7(5): 459-465.

 

13. M.H. Shao, R.R. Adzic, “Electrooxidation of ethanol on a Pt electrode in acid solutions: in situ ATR-SEIRAS study”, Electrochimica Acta 2005, 50(12): 2415-2422.

 

12. Y. Li, R.G. Du, M.H. Shao, R.G. Hu, Y.H. Lin, C.J. Lin, “In-situ measurement of local potential on the surface of reinforcing steel bar”, Journal of Xiamen University 2004, 43(1): 138 (in Chinese).

 

11. M.H. Shao, Y. Fu, R.G. Hu, C.J. Lin, “A study on pitting corrosion of Al 2024-T3 by scanning microreference electrode technique”, Materials Science & Engineering A 2003, 344(1-2): 323-327.

 

10. Y.H. Lin, M.H. Shao, R.G. Hu, C.J. Lin, “In-situ measurement of local Cl- concentration on the surface of 2024 aluminum alloy by scanning micro electrode”, Journal of Electrochemistry 2003, 9(3): 280 (in Chinese).

 

9. R.G. Hu, R.G. Du, M.H. Shao, C.J. Lin, “In-situ STM investigation on the corrosion and inhibition behaviors of reinforcing steel bar in simulated concrete pore solutions”, Journal of Chinese Society of Corrosion & Protection 2003, 23(6): 321 (in Chinese).

 

8. M.H. Shao, R.S. Huang, R.G. Hu, C.J. Lin, “Investigation of formation and inhibition mechanism of cerium conversion films on Al 2024 alloy”, Journal of Rare Earths 2002, 20 (6): 640-645.

 

7. M.H. Shao, R.S. Huang, R.G. Hu, C.J. Lin, “Fabrication of composite scanning micro pH electrode and its application in localized corrosion”, Acta Physico-Chimica Sinica 2002, 18(10): 934-937 (in Chinese).

 

6. M.H. Shao, R.S. Huang, Y. Fu, R.G. Hu, C.J. Lin, “Investigation on the formation mechanism of Ce conversion films on 2024 aluminum alloy”, Acta Physico-Chimica Sinica 2002, 18(9): 791-795 (in Chinese).

 

5. M.H. Shao, Y. Fu, R.G. Hu, C.J. Lin, “Localized corrosion study of Al 2024-T3 alloy by scanning micro reference electrode technique”, Acta Physico-Chimica Sinica 2002, 18(4): 350-354 (in Chinese).

 

4. M.H. Shao, C.J. Lin. “A review of the investigation on pitting corrosion of aluminum alloy”, Corrosion Science and Protection Technology 2002, 14(3): 147-151 (in Chinese).

 

3. M.H. Shao, Y. Fu, R.G. Hu, C.J. Lin, “The inhibition mechanism of cerium for aluminum alloy 2024-T3”. Electrochemistry 2002, 8(1): 15-21 (in Chinese).

 

2. Y.L. Hu, R.G. Hu, M.H. Shao, C.J. Lin, “In-situ ECSTM investigation on passivation surface for polycrystalline stainless steel”, Acta Metallurgica sinica 2001, 37(9): 965-970 (in Chinese).

 

1. Y.L. Hu, R.G. Hu, M.H. Shao, X.D. Zhou, C.J. Lin. “In-situ Study of ECSTM on the process of passivation and break down of stainless steel passive films”, Journal of Chinese Electron Microscopy Society 2001, 20(5):630 (in Chinese).

 

Brooks and Book Chapters

 

5. M.H. Shao, Ed.; “Electrocatalysis in Fuel Cells: A Non- and Low- Platinum Approach”, Springer, London,   2013 (www.springer.com/978-1-4471-4910-1).

 

4. M.H. Shao, “Palladium-Based Electrocatalysts for Oxygen Reduction Reaction”, in: Electrocatalysis in Fuel Cells: A Non- and Low- Platinum Approach, M.H. Shao, Ed.; Springer, London, 2013.

 

3. K. Sasaki, M.H. Shao, R.R. Adzic, “Dissolution and Stabilization of Platinum in Oxygen Cathodes”, in: Proton Exchange Membrane Fuel Cell Durability, F.N. Buchi, M. Inaba, J. Schmidt, Eds.; Springer, New York, 2009, p.7-28.

 

2. Y. Xu, M.H. Shao, M. Mavrikakis, R.R. Adzic, “Recent Developments in the Electrocatalysis of the O2 Reduction Reaction”, in: Fuel Cell Catalysis: a Surface Science Approach, M.T.M. Koper, Ed.; John Wiley & Sons, New York, 2009, p.271-316.

 

1. C.J. Lin, X.D. Zhou, R.G. Du, M.H. Shao, Y. Li, Z.W. Tian, “Novel Electrochemical Techniques with Spatial Resolution”, in: Frontiers of Physical Chemistry of Solid Surfaces, H.L. Wan, Ed.; Xiamen University Press, Xiamen, 2006, p.331-351 (in Chinese).

 

Patents and Applications

 

30. B. Merzougui, M.H. Shao, L. Protsailo, “Fuel cell catalyst support with fluoride-doped metal oxides/phosphates and method of manufacturing same”, US Patent, 8,968,967, 2015.

 

29. M.H. Shao, L. Protsailo, “Platinum monolayer on hollow, porous nanoparticles with high surface areas and method of making”, US Patent, 8,921,260, 2014.

 

28. M.H. Shao, B. Merzougui, P. Hagans, S. Opalka, “Power generation method using a fuel cell having a stabilized cathode catalyst”, US Patent, 8,920,985, 2014.

 

27. M.H. Shao, B. Merzougui, “Carbide stabilized catalyst structures and method of making”, US Patent, 8,679,704, 2014.

 

26. M.H. Shao, B. Merzougui, P. Hagans, S. Opalka, “Fuel cell has a stabilized cathode catalyst”, US Patent, 8,389,175, 2013.

 

25. M.H. Shao, B. Merzougui, P. Hagans, S. Opalka, “A stabilized platinum catalyst”, US Patent,  8,304,365, 2012.

 

24. J. Weidner, J. Odell, M.H. Shao, “Method and system for core-shell catalyst process”, International patent pending, PCT/US13/051200, filed on 07/19/2013.

 

23. M.H. Shao, B. Smith, “Core-shell catalyst and method for palladium-based particle”, International patent pending,

PCT/US12/67574, filed on 12/3/2012.

 

22. M.H. Shao, “Platinum alloy nano catalyst with a non-Pt core”, International patent pending, PCT/US12/61286, filed on 10/22/2012.

 

21.  M.H. Shao, S. Motupally, L. Protsailo, B. Merzougui, “Platinum Monolayer for Fuel Cells”, International patent pending, PCT/US12/42884, filed on 06/08/2012.

 

20.  M.H. Shao, “Method and apparatus for analyzing a material”, International patent pending, PCT/US12/42884, filed on 06/18/2012.

 

19.  M.H. Shao, “Surfactant removal from palladium particles”, International patent pending, PCT/US11/01030, filed on 06/08/2011.

 

18.  M.H. Shao, “Core-shell catalysts for natural gas reforming”. International patent pending, PCT/US11/35862, filed on 05/10/2011.

 

17.  M.H. Shao, “Catalytic material”, International patent pending, 13/101,283, filed on 05/05/2011.

 

16.  M.H. Shao, “Shape controlled core-shell catalysts”, International patent pending, PCT/US11/32849, filed on 04/18/2011.

 

15.  M.H. Shao, K. Kaneko, M. Humbert, “A method to prepare catalysts with a Pt overlayer”, International patent pending, PCT/US11/25693, filed on 02/22/2011.

 

14.  M.H. Shao, “Method to prepare full monolayer of platinum on palladium based core nanoparticles”, International patent pending, PCT/US11/23585, filed on 02/03/2011.

 

13.  M.H. Shao, “Shape controlled palladium and palladium alloy nanoparticle catalyst”, International patent pending, PCT/US11/021703, filed on 01/19/2011.

 

12.  B. Merzougui, M.H. Shao, L. Protsailo, J.G. Chen, “Supported catalyst”, International patent pending, PCT/US10/34166, filed on 05/10/2010.

 

11.  M.H. Shao, “Catalytic material”. Provision patent pending, 61/331,431, filed on 05/05/2010.

 

10.  M.H. Shao, L. Protsailo, “Platinum nanoparticles having hollow skeletal structures and methods of making”, International patent pending, PCT/US10/00411, filed on 02/12/2010.

 

9.  M.H. Shao, L. Protsailo, “Platinum monolayer on alloy nanoparticles with high surface areas and method of making”, International patent pending, PCT/US10/00414, filed on 02/12/2010.

 

8.  M.H. Shao, “Platinum-Palladium catalysts with intermediate layer”, International patent pending, PCT/US09/69562, filed on 12/28/2009.

 

7.  M.H. Shao, L. Protsailo, C.J. Zhong, J. Luo, B. Wanjala, R. Loukrakpam, P. NjoKi, T. Kawamura, “Method for treating a supported catalyst”, International patent pending, PCT/US09/68382, filed on 12/17/2009.

 

6.  C.J. Zhong, B. Wanjala, M.H. Shao, L. Protsailo, P. NjoKi, J. Luo, R. Loukrakpam, T. Kawamura, “Supported catalysts”, International patent pending, PCT/US09/68364, filed on 12/17/2009.

 

5.  B. Merzougui, M.H. Shao, “Hexaboride containing catalyst structure and method for making”, International patent pending, PCT/US09/02987, filed on 05/14/2009.

 

4.  B. Merzougui, L. Protsailo, M.H. Shao, “Boron-doped diamond coated carbon catalyst support”, International patent pending, PCT/US09/00842, filed on 02/10/2009.

 

3.  B. Merzougui, M.H. Shao, L. Protsailo, “Boron-doped diamond coated catalyst support”, International patent pending, PCT/US09/00844, filed on 02/10/2009.

 

2.  T. Kawamura, M.H. Shao, S. Opalka, “Quaternary alloy catalyst for fuel cell”, International patent pending, PCT/US08/81919, filed on 10/31/2008.

 

1.  B. Merzougui, M.H. Shao, L. Protsailo, “Fuel cell catalyst support with boron carbide-coated metal oxides and method of manufacturing same”, International patent pending, PCT/US08/76948, filed on 09/19/2008. 

 

 


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