高敏锐


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name:

minrui gao (高敏锐)

address:

university of science and technology of china

jinzhai road 96, hefei, 230026, p.r. china

tel:

86 551 63606059

e-mail:

homepage:




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 education & research experience

2016.07 - present

professor, university of science and technology of china

2015.10 - 2016.07

postdoctor, max planck institute of colloids and interfaces, germany

2014.04 - 2015.09

postdoctor, argonne national laboratory, usa

2012.09 - 2014.04

postdoctor, university of delaware, usa

2006.09 - 2012.07

ph.d., university of science and technology of china

2002.09 - 2006.07

b.s., hefei university


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 research interests

1.

development of new energy materials

2.

photo/electrochemical energy devices

3.

photo/electrochemical reaction mechanisms

4.

commercial-scale developments


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 awards & honors

1.

nsfc distinguished young scholars, 2022
(国家杰出青年科学基金)

2.

ustcaf faculty award, 2021
(2021年中国科大校友基金会青年教师事业奖)

3.

energy & fuels rising star, 2021

4.

rising investigator in china, 2020
(2020年中国新锐科技人物)

5.

member of the chinese association of young scientists & technologists, 2020
(中国青年科技工作者协会理事,2020)

6.

中国科协科技人才奖项评审专家, 2023-2028

7.

rsc jmca emerging investigator, 2020

8.

the qiu shi outstanding young scholar award, 2018
()

9.

excellent doctoral dissertation award of chinese academy of sciences, 2014

10.

the special prize for the president scholarship of chinese academy of sciences, 2012

11.

lu jiaxi excellent graduate student award, 2012

12.

academic award for doctoral degree candidates by chinese ministry of education, 2011

13.

zhu li yue hua outstanding graduate student scholarship, 2011

14.

academic award for doctoral degree candidates by ustc, 2011

15.

funding support from the creative scientific research foundation for graduate students of ustc, 2009

16.

zhang zong zhi science and technology award, 2009


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 recent publications

after joining the ustc

(* corresponding author; # contributed equally)

1.

z. z. wu,# x. l. zhang,# p. p. yang,# z. z. niu,# f. y. gao, y. c. zhang, l. p. chi, s. p. sun, j. w. duanmu, p. g. lu, y. c. li, and m. r. gao,* gerhardtite as a precursor to an efficient co-to-acetate electroreduction catalyst, journal of the american chemical society 10.1021/jacs.3c09255 (2023).

2.

y. h. wang,# f. y. gao,# x. l. zhang,# y. yang, j. liao, z. z. niu, s. qin, p. p. yang, p. c. yu, m. sun, and m. r. gao,* efficient nh3-tolerant nickel-based hydrogen oxidation catalyst for anion exchange membrane fuel cells, journal of the american chemical society 145, 31, 17485–17494 (2023).

3.

x. l. zhang,# p. c. yu,# x. z. su,# s. j. hu, l. shi, y. h. wang, p. p. yang, f. y. gao, z. z. wu, l. p. chi, y. r. zheng, and m. r. gao,* efficient acidic hydrogen evolution in proton exchange membrane electrolyzers over a sulfur-doped marcasite-type electrocatalyst, science advances 9, eadh2885 (2023).

4.

j. w. duanmu, m. r. gao,* advances in bio-inspired electrocatalysts for clean energy future, nano research 10.1007/s12274-023-5977-3 (2023). invited review.

5.

p. p. yang, m. r. gao,* enrichment of reactants and intermediates for electrocatalytic co2 reduction, chemical society reviews 52, 4343-4380 (2023).

6.

f. y. gao, m. r. gao,* nickel-based anode catalysts for efficient and affordable anion exchange membrane fuel cells, accounts of chemical research 56, 12, 1445-1457 (2023). editor-eab invited accounts.

7.

p. p. yang,# x. l. zhang,# p. liu,# d. j. kelly, z. z. niu, y. kong, l. shi, y. r. zheng, m. h. fan, h. j. wang, m. r. gao,* highly enhanced chloride adsorption mediates efficient neutral co2 electroreduction over a dual-phase copper catalyst, journal of the american chemical society 145, 8714-8725 (2023).

8.

r. wu,# j. xu,# c. l. zhao,# x. z. su,# x. l. zhang, y. r. zheng, f. y. yang, x. s. zheng, j. f. zhu, j. luo, w. x. li, m. r. gao,* s. h. yu,* dopant triggered atomic configuration activates water splitting to hydrogen, nature communications 14: 2306 (2023).

9.

z. z. niu,# l. p. chi,# z. z. wu, p. p. yang, m. h. fan, m. r. gao,* co2-assisted formation of grain boundaries for efficient co-co coupling on a derived cu catalyst, national science open 2: 20220044 (2023).invited paper.

10.

x. l. zhang,# s. j. hu,# y. h. wang,# l. shi, y. yang, m. r. gao,* plasma-assisted synthesis of metal nitrides for an efficient platinum-group-metal-free anion-exchange-membrane fuel cells, nano letters 23, 107-115 (2023).

11.

f. y. gao,# y. h. wang,# y. yang, j. liao, j. w. duanmu, x. l. zhang, z. z. niu, p. p. yang, m. r. gao,* towards reliable assessment of hydrogen oxidation electrocatalysts for anion-exchange membrane fuel cells, nano research 16, in press (2023).

12.

f. y. gao,# s. n. liu,# j. c. ge,# x. l. zhang,# l. zhu,# y. r. zheng, y. duan, s. qin, w. x. dong, x. x. yu, r. c. bao, p. p. yang, z. z. niu, z. g. ding, w. liu, s. lan,* m. r. gao,* y. s. yan, s. h. yu. nickel-molybdenum-niobium metallic glass for efficient hydrogen oxidation in hydroxide exchange membrane fuel cells, nature catalysis 5, 993-1005 (2022).

13.

y. yang,# f. y. gao,#, x. l. zhang,# s. qin, l. r. zheng, y. h. wang, j. liao, q. yang,* m. r. gao*. suppressing electron back-donation for a highly co-tolerant fuel cell anode catalyst via cobalt modulation, angewandte chemie-international edition e202208040 (2022). vip paper. frontispiece paper.

14.

z. y. yu,# y. duan,# y. kong,# x. l. zhang, x. y. feng, y. chen, h. j. wang, x. x. yu, t. ma, x. s. zheng, j. f. zhu, m. r. gao*, s. h. yu*. general synthesis of tube-like nanostructured perovskite oxides with tunable transition metal-oxygen covalency for efficient water electrooxidation in neutral media, journal of the american chemical society 144(29), 13163-13173 (2022).

15.

y. r. zheng,# s. j. hu,# x. l. zhang,# h. x. ju, z. b. wang, p. j. tan, r. wu, f. y. gao, t. t. zhuang, x. zheng, j. f. zhu, m. r. gao*, s. h. yu*. black phosphorous mediates surface charge redistribution of cose2 for electrochemical h2o2 production in acidic electrolytes, advanced materials 2205414 (2022).

16.

f. y. gao,# p. c. yu,# m. r. gao*. seawater electrolysis technologies for green hydrogen production: challenges and opportunities, current opinion in chemical engineering 36, 100827 (2022).invited review.

17.

z. z. wu,# x. l. zhang,# z. z. niu,# f. y. gao, p. p. yang, l. p. chi, l. shi, w. s. wei, r. liu, z. chen, s. j. hu, x. zheng, m. r. gao*. identification of cu(100)/cu(111) interfaces as superior active sites for co dimerization during co2 electroreduction, journal of the american chemical society 144(1), 259-269 (2022).

18.

l. p. chi,# z. z. niu,# x. l. zhang,# p. p. yang, j. liao, f. y. gao, z. z. wu, k. b. tang*, m. r. gao*. stabilizing indium sulfide for co2 electroreduction to formate at high rate by zinc incorporation, nature communications 12, ncomms-21-24083b (2021).

19.

x. l. zhang,# x. z. su,# y. r. zheng, s. j. hu, l. shi, f. y. gao, p. p. yang, z. z. niu, z. z. wu, s. qin, r. wu, y. duan, c. gu, x. s. zheng, j. f. zhu, m. r. gao*. strongly coupled cobalt diselenide monolayers for selective electrocatalytic oxygen reduction to h2o2 under acidic conditions, angewandte chemie-international edition 60, doi:10.1002/anie. 202111075 (2021).

20.

z.-z. niu,# l. p. chi,# r. liu, z. chen, m. r. gao*. rigorous assessment of co2 electroreduction products in a flow cell. energy & environmental science 14, 4169-4176 (2021).

21.

g. q. liu,# y. yang,# y. li,# t. t. zhuang, x. f. li, j. wicks, j. tian, m. r. gao*, j. l. peng, h. x. ju, l. wu, y. x. pan, l. a. shi, h. m. zhu, j. f. zhu, s. h. yu*, e. h. sargent*. boosting photoelectrochemical efficiency by near-infrared-active lattice-matched morphological heterojunctions, nature communications 12, 4296 (2021).

22.

f. y. gao,# z. z. wu,# m. r. gao*. electrochemical co2 reduction on transition-metal chalcogenide catalysts: recent advances and future perspectives. energy fuels 35, 12869-12883 (2021). front cover. invited review for energy & fuels rising stars.

23.

s. qin,# y. duan,# x. l. zhang,# l. r. zheng, f. y. gao, p. p. yang, z. z. niu, r. liu, y. yang, x. s. zheng, j. f. zhu, m. r. gao*. ternary nickel-tungsten-copper alloy rivals platinum for catalyzing alkaline hydrogen oxidation, nature communications 12, 2686 (2021).

24.

z.-z. niu,# f. y. gao,# x. l. zhang,# p. p. yang, r. liu, l. p. chi, z. z. wu, s. qin, x. x. yu, m. r. gao*. hierarchical copper with inherent hydrophobicity mitigates electrode flooding for high-rate co2 electroreduction to multicarbon products. journal of the american chemical society 143, 8011-8021 (2021). supplementary cover.

25.

x. l. zhang,# p. p. yang,# y. r. zheng, y. duan, s. j. hu, t. ma, f. y. gao, z. z. niu, z. z. wu, s. qin, l. p. chi, x. x. yu, r. wu, c. gu, c. m. wang, x. s. zheng, x. zheng, j. f. zhu, m. r. gao*. an efficient turing-type ag2se-cose2 multi-interfacial oxygen-evolving electrocatalyst, angewandte chemie-international edition 60, 6553-6560 (2021). back cover.

26.

z. chen, r. wang, t. ma, j. l. wang, y. duan, z. z. dai, j. xu, h. j. wang, j. y. yuan, h. l. jiang, y. w. yin, x. g. li, m. r. gao*, s. h. yu*. large –area crystalline zeolitic imidazolate framework thin films, angewandte chemie-international edition 60, 14124-14130 (2021).

27.

z. y. yu, # y. duan, # x. y. feng, x. x. yu, m. r. gao*, s. h. yu*. clean and affordable hydrogen fuel from alkaline water splitting: past, recent progress, and future prospects, advanced materials 33, adma.202007100 (2021). review paper.

28.

z. z. wu, # f. y. gao, # m. r. gao*. regulating the oxidation state of nanomateirals for electrocatalytic co2 reduction, energy & environmental science 14, 1121-1139 (2021).   review paper.  inside front cover.

29.

h. m. xu, # c. gu, # x. l. zhang, # l. shi, q. gao, s. j. hu, s. k. han*, x. zheng, m. r. gao*, s. h. yu*. phase-controlled 1t transition metal dichalcogenide-based multidimensional hybrid nanostructures, ccs chemistry 3, 58-68 (2021).

30.

y. duan, # z. y. yu, # l. yang, # l. r. zheng, c. t. zhang, x. t. yang, f. y. gao, x. l. zhang, x. x. yu, r. liu, h. h. ding, c. gu, x. s. zheng, l. shi, j. jiang, j. f. zhu, m. r. gao*, s. h. yu*. bimetallic nickel-molybdenum/tungsten nanoalloys for high-efficiency hydrogen oxidation catalysis in alkaline electrolytes, nature communications 11 , 4789 (2020). 

31.

p. p. yang, # x. l. zhang, # f. y. gao, # y. r. zheng, z. z. niu, x. x. yu, r. liu, z. z. wu, s. qin, l. p. chi, y. duan, t. ma, x. s. zheng, j. f. zhu, h. j. wang, m. r. gao*, s. h. yu*. protecting copper oxidation state via intermediate confinement for selective co2 electroreduction to c2 fuels, journal of the american chemical society 142(13), 6400-6408 (2020).

32.

f. y. gao, # s. j. hu, # x. l. zhang, y. r. zheng, h. j. wang, z. z. niu, p. p. yang, r. c. bao, t. ma, z. dang, y. guan, x. s. zheng, x. zheng, j. f. zhu, m. r. gao*, s. h. yu*. high-curvature transition-metal chalcogenide nanostructures with a pronounced proximity effect enable fast and selective co2 electroreduction, angewandte chemie-international edition 59, 8706-8712 (2020).

33.

x. x. yu, # z. y. yu, # x. l. zhang, # p. li, b. sun, x. c. gao, k. yan, h. liu, y. duan, m. r. gao*, g. x. wang*, s. h. yu*. highly disordered cobalt oxide nanostructure induced by sulfur incorporation for efficient overall water splitting, nano energy  71, 104652 (2020).

34.

f. y. gao, # r. c. bao, # m. r. gao*, s. h. yu. electrochemical co2-to-co conversion: electrocatalysts, electrolytes, and electrolyzers, journal of materials chemistry a 8, 15458-15478 (2020). invited review for jmca emerging investigator issue.

35.

w. ahmad, q. gao, x. l. zhang, w. tan, l. zhang, m. r. gao*, s. h. yu*. sandwich-type polyoxometalate mediates cobalt diselenide for hydrogen evolution in acidic electrolyte, chemnanomat  6, 1164-1168 (2020). front cover.

36.

p. k. wei, z. w. hao, y. yang, m. y. liu*, h. j. zhang*, m. r. gao*, s. h. yu*. unconventional dual-vacancies in nickel diselenide-graphene nanocomposite for high-efficiency oxygen evolution catalysis, nano research 13, 3292-3298 (2020).

37.

x. l. zhang, # s. j. hu, # y. r. zheng, # r. wu, f. y. gao, p. p. yang, z. z. niu, c. gu, x. x. yu, x. s. zheng, c. ma, x. zheng, j. f. zhu, m. r. gao*, s. h. yu*. polymorphic cobalt diselenide as extremely stable electrocatalyst in acidic media via a phase-mixing strategy, nature communications 10, 5338 (2019). editors’ highlights.

38.

z. y. yu, # y. duan, # j. d. liu, # y. chen, x. k. liu, w. liu, t. ma, y. li, x. s. zheng, t. yao, m. r. gao*, j. f. zhu, b. j. ye, s. h. yu*. unconventional cn vacancies suppress iron-leaching in prussian blue analogue pre-catalyst for boosted oxygen evolution catalysis, nature communications 10, 2799 (2019).

39.

y. duan, # z. y. yu, # shao-jin hu, # x. s. zheng, c. t. zhang, h. h. ding, b. c. hu, q. q. fu, z. l. yu, x. zheng, j. f. zhu, m. r. gao*, s. h. yu*. scale-up synthesis of amorphous nifemo oxides and their rapid surface reconstruction for superior oxygen evolution catalysis, angewandte chemie-international edition 58(44), 15772-15777 (2019).

40.

x. x. yu, z. y. yu, x. l. zhang, y. r. zheng, y. duan, q. gao, r. wu, b. sun, m. r. gao*, g. x. wang*, s. h. yu*. “superaerophobic” nickel phosphide nanoarray catalyst for efficient hydrogen evolution at ultra-high current densities, journal of the american chemical society 141, 7537-7543 (2019).

41.

q. gao, r. wu, y. liu, y. r. zheng, y. li, l. m. shang, y. m. ju, c. gu, x. s. zheng, j. w. liu, j. f. zhu, m. r. gao*, s. h. yu*. synthesis of pdsx-mediated polydymite heteronanorods and their long-range activation for enhanced water electroreduction, research article id 8078549 (2019).

42.

y. r. zheng, p. wu, m. r. gao, * x. l. zhang, f. y. gao, h. x. ju, r. wu, q. gao, r. you, w. x. huang, s. j. liu, s. w. hu, j. f. zhu, z. y. li, s. h. yu* doping-induced structural phase transition in cobalt diselenide enables enhanced hydrogen evolution catalysis, nature communications 9, 2533 (2018).

43.

r. wu, # b. xiao, # q. gao, # y. r. zheng, x. s. zheng, j. f. zhu, m. r. gao*, s. h. yu*. a janus nickel cobalt phosphide catalyst for high-efficiency neutral-ph water splitting, angewandte chemie-international edition 57, 15445-15449 (2018). inside back cover.

44.

c. gu, # s. j. hu, # x. s. zheng, m. r. gao*, y. r. zheng, l. shi, q. gao, x. zheng, w. s. chu, h. b. yao, j. f. zhu, s. h. yu*. synthesis of sub-2 nm iron-doped nise2 nanowires and their surface-confined oxidation for oxygen evolution catalysis, angewandte chemie-international edition 57, 4020-4024 (2018).

45.

z. y. yu, # c. c. lang, # m. r. gao*, y. chen, q. q. fu, y. duan, s. h. yu*. ni-mo-o nanorod-derived composite catalysts for efficient alkaline water-to-hydrogen conversion via urea electrolysis, energy & environmental science 11, 1890-1897 (2018). highlighted by chemistry world.

46.

m. r. gao, y. r. zheng, j. jiang, s. h. yu*. pyrite-type nanomaterials for advanced electrocatalysis, accounts of chemical research 50, 2194-2204 (2017).

before joining the ustc

47.

m. r. gao, maria k. y. chan, y. g. sun* edge-terminated molybdenum disulfide with a 9.4-å interlayer spacing for electrochemical hydrogen production, nature communications 6, doi: 10.1038/ncomms8493 (2015).

48.

m. r. gao,# j. x. liang,# y. r. zheng, y. f. xu, j. jiang, q. gao, j. li, s. h. yu* an effective molybdenum disulfide/cobalt diselenide hybrid catalyst for electrochemical hydrogen generation, nature communications 6, doi:10.1038/ncomms6982 (2015).

49.

m. r. gao, w. c. sheng, z. b. zhuang, q. r. fang, s. gu, j. jiang, y. s. yan* efficient water oxidation using alpha-nickel-hydroxide as an electrocatalyst, journal of the american chemical society 136(19), 7077-7084 (2014).

50.

m. r. gao, y. f. xu, j. jiang, y. r. zheng, s. h. yu*. water oxidation electrocatalyzed by an efficient mn3o4/cose2 nanocomposite, journal of the american chemical society 134, 2930-2933 (2012).

51.

m. r. gao, h. b. yao, w. t. yao, s. h. yu*. synthesis of unique ultrathin lamellar mesostructured cose2 nanobelts in a binary solution, journal of the american chemical society 131, 7486-7487 (2009).

52.

m. r. gao*, s. h. yu, j. y. yuan, w. y. zhang, m. antonietti*. poly(ionic liquid)-mediated morphogenesis of bismuth sulfide with a tunable band gap and enhanced electrocatalytic properties, angewandte chemie-international edition 55, 12812-12816 (2016).

53.

j. jiang,# m. r. gao,# w. sheng, y. s. yan*. hollow chevrel-phase nimo3s4 for hydrogen evolution in alkaline electrolyte, angewandte chemie-international edition 55, doi: 10.1002/anie.201607651r2 (2016).

54.

y. j. tang,# m. r. gao,# c. h. li, s. l. li, h. l. jiang, y. q. lan*, m. han, s. h. yu*. porous molybdenum-based hybrid catalysts for highly efficient hydrogen evolution, angewandte chemie-international edition 54, 12928-12932 (2015).

55.

y. f. xu,# m. r. gao,# y. r. zheng, j. jiang, s. h. yu*. nickel/nickel(ii) oxide nanoparticles anchored onto cobalt(iv) diselenide nanobelts for the electrochemical production of hydrogen, angewandte chemie-international edition 52, 8546-8550 (2013).

56.

m. r. gao, q. gao, j. jiang, c. h. cui, w. t. yao, s. h. yu*. a methanol-tolerant pt/cose2 nanobelt cathode catalyst for direct methanol fuel cells, angewandte chemie-international edition 50, 4905-4908 (2011).

57.

m. r. gao, y. f. xu, j. jiang, s. h. yu* nanostructured metal chalcogenides: synthesis, modification, and applications in energy conversion and storage devices, chemical society reviews 42, 2986-3017 (2013). invited review.

58.

m. r. gao, x. cao, y. f. xu, q. gao, y. r. zheng, j. jiang, s. h. yu* nitrogen-doped reduced graphene supported cose2 nanobelt composite catalyst for efficient water oxidation, acs nano, 8(4), 3970-3978 (2014).

59.

m. r. gao, s. r. zhang, y. f. xu, j. jiang, s. h. yu*. self-assembled platinum nanochain networks driven by induced magnetic dipoles, advanced functional materials 24, 916-924 (2014).

60.

m. r. gao, j. jinag, s. h. yu*. solution-based synthesis of late transition metal chalcogenides for oxygen reduction, small 8, 13-27 (2012). invited review.

61.

m. r. gao*, j. y. yuan, m. antonietti*. ionic liquids and poly(ionic liquid)s for morphosynthesis of inorganic materials, chem. eur. j. 22, doi: 10.1002/chem.201604191 (2016). invited review.

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 student awards

1.

xiao-long zhang (张晓隆)
african alumni association zhou zhili scholarship, 2019
national scholarship, 2020
nano research award, 2021
national scholarship, 2021
the prize winner in15th academic forum report, hfnl 2021
lam research, 2022
outstanding graduate, ustc, 2022
中国科学院院长奖, 2022
outstanding doctoral dissertation nomination award, ustc, 2022
nre young star researcher award, 2022
博士后创新人才支持计划(博新计划),2023

2.

fei-yue gao(高飞跃)
national scholarship, 2020
best poster award, fifth china symposium on energy materials chemistry, 2021
nano research award, 2021
african alumni association zhou zhili scholarship, 2021
the prize winner in15th academic forum report, hfnl 2021
de chuang scholarship, hfnl, 2022
outstanding graduate, ustc, 2022
中国科学院院长奖, 2022

3.

peng-peng yang(杨朋朋)
national scholarship, 2020
the prize winner in15th academic forum report, hfnl 2021
de chuang scholarship, hfnl, 2021
the prize winner in the second english academic forum, hfnl 2022
the prize winner in 16th academic forum report, hfnl 2022
outstanding graduate, ustc, 2023
中国科学院院长奖, 2023

4.

zhuang-zhuang niu(牛壮壮)
national scholarship, 2021
de chuang scholarship, hfnl, 2021
the prize winner in15th academic forum report, hfnl 2021
the prize winner in16th academic forum report, hfnl 2022
de chuang scholarship, hfnl, 2022
outstanding graduate, anhui province, 2023
outstanding graduate, ustc, 2023
中国科学院院长奖, 2023

5.

zhi-zheng wu(吴志征)
national scholarship, 2021
national scholarship, 2022
de chuang scholarship, hfnl, 2021
the second prize winner in16th academic forum report, hfnl 2021

6.

li-ping chi(池丽萍)
national scholarship, 2021
the prize winner in 16th academic forum report, hfnl 2022
de chuang scholarship, hfnl, 2022

7.

shuai qin(秦帅)
national scholarship, 2021

8.

yu yang(杨宇)
national scholarship, 2022

9.

ye-hua wang(王业华)
national scholarship, 2023

10.

jing-wen duanmu(端木静雯)
national scholarship, 2023

we welcome graduate students who are interested in electrochemistry, energy materials and technology to join in the group; motivated undergraduates with chemistry, physics and engineering backgrounds are also welcome to participate. please send your wishes to the attention .


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