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日期:2019-01-27

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            刘光,副教授,硕士生导师

            邮箱:liuguang@tyut.edu.cn

            地址:山西省太原市迎泽西大街79号太原理工大学迎西校区博学楼b座707室,030024

            研究方向:氢储能与新能源化工,

个人履历

河北馆陶人,博士,副教授,硕士生导师。入选2018年度山西省“三晋英才”青年优秀人才支持计划。2007年毕业于河北师范大学化学与材料科学学院化学专业,获理学学士学位;2010年毕业于南开大学化学学院无机化学专业,获理学硕士学位(导师:王一菁研究员);2013年毕业于南开大学化学学院材料物理与化学专业,获工学博士学位(导师:袁华堂教授);2013年7月起在太原理工大学工作(2017年8月-2018年5月澳大利亚新南威尔士大学访问学者,合作导师:赵川教授)。近几年来,主要从事氢气制/储及新能源化工方向的基础研究,主持了包括3项国家自然科学基金在内的10余项科研项目,作为科研骨干参与了国家自然科学基金重点项目和煤层气高效开采与利用协同创新中心建设工作。在applied catalysis b: environmental,chemical engineering journal,green energy & environment,nano research,acs applied materials & interfaces,journal of materials chemistry,j power sources,nanoscale,electrochimica acta,acs sustainable chemistry & engineering, 化工进展,无机化学学报等国内外学术期刊发表论文80余篇,论文被引2000余次(其中3篇论文入选esi高被引论文),授权中国发明专利4项,2016年山西省自然科学二等奖(第三完成人),2020年度山西省自然科学二等奖(第一完成人)。

【研究方向】

1) 光、电催化水解制氢

2) 镁基固态储氢技术 

3) 电催化合成氨催化剂

4) 能源和催化材料设计、制备

培养研究生

2022级:冉彪,杨嘉伟,张晓雯,田甜,任丽媛,刘芳(联培),王佳丽(联培),张议洁(博士,第九届全国大学生能源经济学术创意大赛三等奖),张谭 (博士),郭川铭(工程博士)

2021级:张唯怡,陶紫阳,刘木子,胡亚楠,史柯柯,武昀(博士,2022年山西省研究生教育创新计划项目,2022年山西省“互联网 ”大赛银奖

2020级:杜昱洁,范淑慧(2022年国家奖学金获得者),樊萌萌,王进伟,姚瑞(博士),张议洁(2021年国家奖学金获得者,2022年山西省研究生教育创新计划 项目,本校直博),张凯杨(第三届国际电化学能源系统大会“优秀墙报奖”,中国银川,2022.07.29)

2019级:王琪,文晓江,刘乐然

2018级:赵斐(2020年国家奖学金获得者,福州大学读博),武昀(本校直博,2020年山西省研究生教育创新计划项目)

2017级:李娜(2019年国家奖学金获得者,2019年电催化与电合成国际研讨会“优秀墙报奖”,中国西安,2019.03.31),王慕恒

2016级:赵勇(中国海洋大学读博),姚瑞(2019年校级研究生优秀毕业论文,本校读博)

2015级:贺冬莹

2014级:王开放,高旭升

承担项目

13)镁基储氢材料及其固态储氢关键技术开发(课题负责人,100万,2023.01-2025.12,北京化工大学-太原理工大学-青海盐湖工业股份有限公司技术开发项目,nz-h202302118)

12)适应波动性电力的低铱基pem电解水催化材料的基础研究(项目骨干,256万,2023.01-2026.12,国家自然科学基金区域创新发展联合基金项目,u22a20418)

11)氢气制/储关键材料及其系统集成技术开发(项目骨干,600万,2022.05-2025.05,山西美锦氢能开发有限公司技术开发项目,nz-h20220665)

10)低成本、高效pem电解水制氢催化材料(主持,6万,2022.08-2025.08,山西省省筹资金资助回国留学人员科研项目,2022-050)

9)长程催化稳定的钌基纳米团簇的构筑及其酸性电催化水分解性能(主持,63万,2021.01-2024.12,国家自然科学基金面上项目,22075196)

8) 廉价、高效铁系双功能电解水催化材料及器件的优化设计和性能调控(主持,15万,2020.01-2022.12,山西省重点研发计划国际合作项目,201903d421073) 

7) 铁系氧化物电极材料的多尺度调控及其大电流密度析氧催化性能(主持,65万,2019.01-2022.12,国家自然科学基金面上项目,21878204);

6) bivo4光阳极材料的表/界面调控及其光电催化水氧化协同机制(主持,3万,2018.11-2020.11,先进能源材料化学教育部重点实验室2018年度开放基金项目);

5) 强化光生电荷分离的α-fe2o3/ng/mox核壳异质结构光电极材料的可控制备及其水解制氢性能研究(主持,26万,2015.01-2017.12,国家自然科学基金青年基金项目,51402205);

4) 水解制氢用mox/nc多孔核壳结构阳极材料的可控制备及其性能研究(主持,3万,2015.01-2017.12,山西省自然科学基金青年项目,2015021058);

3) 低维过渡金属氧化物的氢化处理及其阳极析氧催化性能调控、优化(主持,3万,2016.01-2018.12,山西省高校科技创新研究项目,stip-2016131);

2) 多孔核壳异质结构金属氧化物/氮掺杂碳复合纳米材料的可控制备及其水解制氢性能(主持,2万,2015.08-2017.08,先进能源材料化学教育部重点实验室2015年度开放基金);

1) 新型金属氧化物微纳电极材料的结构调控与水解制氢性能优化研究(主持,5万,2015.01-2016.12,太原理工大学优秀青年培育项目,2014yq013)。

【科研论文】

2023

50) yun w, yao r, zhao q, li j, liu g. ruo2 nanoparticles anchored on g-c3n4 as an efficient bifunctional electrocatalyst for water splitting in acidic media. dalton transactions. 2023. accepted.

49)张谭, 刘光, 李晋平, 孙予罕. ru基氮还原电催化剂性能调控策略. 化工学报. 2023,已接收.

48)wang j, zhang w, zhang y, zhao q, li j, liu g. integrating cr doped feooh into fese2 nanoparticles for efficient water oxidation at large current densities. fuel. 2023;351:128827.

47)刘木子,史柯柯,赵强,李晋平,刘光. 固体储氢材料的研究进展. 2023,已接收.

46) fan s, wang q, hu y, zhao q, li j, liu g. efficient electrocatalytic conversion of n2 to nh3 using oxygen-rich vacancy lithium niobate cubes. chin j chem eng. 2023. accepted.

45)zhang y, yao r, wu y, zhao q, li j, liu g. in situ rapid and deep self-reconstruction of fe-doped hydrate nimoo4 for stable water oxidation at high current densities. chem eng j. 2023, 461, 142081.

44) 史柯柯,刘木子,赵强,李晋平,刘光. 镁基储氢材料的性能及研究进展. 化工进展. 2023,已接收.

43)张唯怡,  张议洁,  王进伟,  赵强,  刘光,  李晋平. 电解水制氢技术及大电流析氧反应研究与展望. 工程科学学报. 2023, 45(7):1057-1070.

42)fan, m.; tao, z.; zhao, q.; li, j.; liu, g.; zhao, c., molecular copper phthalocyanine and feooh modified bivo4 photoanodes for enhanced photoelectrochemical water oxidation. adv. mater. technol. 2023, 2201835. (invited paper)

41)樊萌萌,文晓江,陶紫阳,赵强,李晋平,刘光. bivo4/znfe2o4 同型异质结光阳极的构筑及其光电催化分解水性能. 无机化学学报. 2023, 39(1):23-31.

40) wang, j.; zhang, y.; zhang, w.; zhao, q.; li, j.; liu, g., constructing sulfide/phosphide heterostructure boosts the activity of iron-manganese bimetallic electrocatalysts for oxygen evolution reaction at large current densities. electrochim. acta 2023, 438, 141563.

39)zhang, k.; du, y.; wu, y.; yao, r.; zhao, q.; li, j.; liu, g., organic ligand-assisted synthesis of ir0.3cr0.7o2 solid solution oxides for efficient oxygen evolution in acidic media. int. j. hydrogen energy 2023, 48 (14), 5402-5412.

2022

38)du, y.; zhang, k.; yao, r.; wu, y.; zhao, q.; li, j.; liu, g., ultra-small ruo2/nhc nanocrystal electrocatalysts with efficient water oxidation activities in acidic media. dalton transactions 2022, 51 (45), 17361-17367.

37) yao r, liu l, wang j, wu y, zhao q, li j, et al. three-dimensional porous nanosheets array fevo4/nf-a catalyst for oxygen evolution reaction at industrially relevant current densities. j alloys compd. 2022;929:167312.

36) fan s, zhao f, wang x, wang q, zhao q, li j, et al. a phosphorus-doped potassium peroxyniobate electrocatalyst with enriched oxygen vacancy boosts electrocatalytic nitrogen reduction to ammonia. dalton transactions. 2022;51:11163-8.

35) liu l, zhang y, wang j, yao r, wu y, zhao q, et al. in situ growth fe and v co-doped ni3s2 for efficient oxygen evolution reaction at large current densities. int j hydrogen energy. 2022;47:14422-31.

34) wang q, fan s, liu l, wen x, wu y, yao r, et al. boosting electrochemical nitrogen reduction to ammonia with high efficiency using a linb3o8 electrocatalyst in neutral media. dalton transactions. 2022;51:1131-6.

33) wu y, yao r, zhao q, li j, liu g. la-ruo2 nanocrystals with efficient electrocatalytic activity for overall water splitting in acidic media: synergistic effect of la doping and oxygen vacancy. chem eng j. 2022;439:135699.

32) yao r, wu y, zhao q, li j, liu g. autogenous growth of highly active bifunctional ni–fe2b nanosheet arrays toward efficient overall water splitting. int j hydrogen energy. 2022;47:8303-13.

31) zhang y, liu l, wang j, yao r, wu y, wang m, et al. rational introduction of s and p in multi-stage electrocatalyst to drive a large-current-density water oxidation reaction and overall water splitting. j power sources. 2022;518:230757.

2021

30) wen x, fan m, zhao q, li j, liu g. boosting the photoactivity of bivo4 photoanodes by a zncofe-ldh thin layer for water oxidation. chemistry-an asian journal. 2021;16:4095-102.

29) zhang y, liu l, wu y, zhao f, liu g, li j. two-step electrodeposition construction of nife/ni3s2/nf hierarchical heterogeneous electrode for enhanced oxygen evolution reaction at large current densities. chinese j inorg chem. 2021;37:499-508.

28) 赵斐, 王琪, 刘光, 李晋平. d区过渡金属基催化剂用于电化学合成氨. 化工进展. 2021;40:1950-67.

27) liu g, wu y, yao r, zhao f, zhao q, li j. amorphous iron-nickel phosphide nanocone arrays as efficient bifunctional electrodes for overall water splitting. green energy & environment. 2021;6:496-505. (back cover, esi高被引论文)

2020

26) zhao, f.; li, n.; wu, y.; wen, x.; zhao, q.; liu, g.; li, j., bivo4 photoanode decorated with cobalt-manganese layered double hydroxides for enhanced photoelectrochemical water oxidation. int. j. hydrogen energy 2020;45:31902-12.

25) wang m, wu y, li n, zhao f, zhao q, li j, liu g. synergistic assembly of a cos@nife/ni foam heterostructure electrocatalyst for efficient water oxidation catalysis at large current densities. chem asian j. 2020;15:1484-92.

24) liu, g.; wang, m.; wu, y.; li, n.; zhao, f.; zhao, q.; li, j., 3d porous network heterostructure nice@nife electrocatalyst for efficient oxygen evolution reaction at large current densities. appl. catal. b: environ. 2020, 260, 118199.(esi高被引论文

2019

23) yao, r.; wu, y.; wang, m.; li, n.; zhao, f.; zhao, q.; li, j.; liu, g., amorphous cofep/nc hybrids as highly efficient electrocatalysts for water oxidation. int j hydrogen energy. 2019;44:30196-207.

22) jia, x.; wang, m.; liu, g.; wang, y.; yang, j.; li, j., mixed-metal mof-derived co-doped ni3c/ni nps embedded in carbon matrix as an efficient electrocatalyst for oxygen evolution reaction. int. j. hydrogen energy 2019, 44, 24572-24579.

21) li, n.; wang, m.; zhao, y.; yao, r.; liu, g.; li, j., promotion of photoelectrochemical performance of bivo4 by binary znco-ldh co-catalyst. chinese j. inorg. chem. 2019, 35, 1773-1780.

20) liu, g.; wu, y.; wang, m.; yao, r.; li, n.; zhao, y.; zhao, f.; li, j., phosphate ions-functionalized and wettability-tuned nickel ferrite for boosted oxygen evolution performance. int. j. hydrogen energy 2019, 44, 26992-27000.

19) liu, g.; li, n.; zhao, y.; wang, m.; yao, r.; zhao, f.; wu, y.; li, j., porous versus compact hematite nanorod photoanode for high performance photoelectrochemical water oxidation. acs sustainable chem. eng. 2019;7:11377-85.

18) liu, g.; zhao, y.; li, n.; yao, r.; wang, m.; wu, y.; zhao, f.; li, j., ti-doped hematite photoanode with surface phosphate ions functionalization for synergistic enhanced photoelectrochemical water oxidation. electrochim. acta 2019, 307, 197-205.

17) liu,   g.; zhao, y.; yao, r.; li, n.; wang, m.; ren, h.; li, j.; zhao, c., realizing   high performance solar water oxidation for ti-doped hematite nanoarrays by   synergistic decoration with ultrathin cobalt-iron phosphate nanolayers. chem.   eng. j. 2019, 355, 49-57.

2018

16) liu,   g.; zhao, y.; wang, k.; he, d.; yao, r.; li, j., ultrasmall nife-phosphate   nanoparticles incorporated α-fe2o3 nanoarrays photoanode realizing high   efficient solar water splitting. acs sustainable chem. eng. 2018, 6,   2353-2361.

15) liu,   g.; yao, r.; zhao, y.; wang, m. h.; li, n.; li, j. p., ni/nife2o4 nanorods   encapsulated in onion-like n-doped carbon nanolayers as efficient oxygen  evolution electrocatalyst. chinese j. inorg. chem. 2018, 34, 1494-1500.

14) liu,   g.; yao, r.; zhao, y.; wang, m.; li, n.; li, y.; bo, x.; li, j.; zhao, c.,   encapsulation of ni/fe3o4 heterostructures inside onion-like n-doped carbon   nanorods enables synergistic electrocatalysis for water oxidation. nanoscale   2018, 10, 3997-4003.

13) liu,   g.; li, n.; zhao, y.; yao, r.; wang, m.; he, d.; li, j., fabrication of   fe-doped co2p nanoparticles as efficient electrocatalyst for electrochemical   and photoelectrochemical water oxidation. electrochim. acta 2018, 283,   1490-1497.

12) liu,   g.; he, d.; yao, r.; zhao, y.; wang, m.; li, n.; li, j., amorphous cofebo   nanoparticles as highly active electrocatalysts for efficient water oxidation   reaction. int. j. hydrogen energy 2018, 43, 6138-6149.

11) liu,   g.; he, d.; yao, r.; zhao, y.; li, j., amorphous nifeb nanoparticles   realizing highly active and stable oxygen evolving reaction for water splitting.   nano res. 2018, 11, 1664-1675.(esi高被引论文

2017及以前

10) liu,   g.; he, d.; yao, r.; zhao, y.; li, j., enhancing the water oxidation activity   of ni2p nanocatalysts by iron-doping and electrochemical activation.   electrochim. acta 2017, 253, 498-505.

9) liu,   g.; gao, x.; wang, k.; he, d.; li, j., mesoporous nickel-iron binary oxide   nanorods for efficient electrocatalytic water oxidation. nano res. 2017, 10,   2096-2105.

8) liu,   g.; wang, k.; li, j.; wang, y.; yuan, h., enhancement of hydrogen desorption   in magnesium hydride catalyzed by graphene nanosheets supported ni-ceox   hybrid nanocatalyst. int. j. hydrogen energy 2016, 41, 10786-10794.

7) liu,   g.; wang, k.; gao, x.; he, d.; li, j., fabrication of mesoporous nife2o4   nanorods as efficient oxygen evolution catalyst for water splitting.   electrochim. acta 2016, 211, 871-878.

6) liu,   g.; gao, x.; wang, k.; he, d.; li, j., uniformly mesoporous nio/nife2o4   biphasic nanorods as efficient oxygen evolving catalyst for water splitting.   int. j. hydrogen energy 2016, 41, 17976-17986.

5) liu,   g.; wang, y.; jiao, l.; yuan, h., understanding the role of few-layer graphene nanosheets in enhancing the hydrogen sorption kinetics of magnesium hydride. acs appl. mater. interfaces 2014, 6, 11038-11046.

4) liu,   g.; wang, y.; jiao, l.; yuan, h., solid-state synthesis of amorphous tib2  nanoparticles on graphene nanosheets with enhanced catalytic dehydrogenation  of mgh2. int. j. hydrogen energy 2014, 39, 3822-3829.

3) liu,   g.; wang, y.; xu, c.; qiu, f.; an, c.; li, l.; jiao, l.; yuan, h., excellent   catalytic effects of highly crumpled graphene nanosheets on   hydrogenation/dehydrogenation of magnesium hydride. nanoscale 2013, 5,   1074-81.

2) liu,   g.; wang, y.; qiu, f.; li, l.; jiao, l.; yuan, h., synthesis of porous ni@rgo   nanocomposite and its synergetic effect on hydrogen sorption properties of   mgh2. j. mater. chem. 2012, 22, 22542-22549.   

1) liu, g.; qiu, f.; li, j.; wang, y.; li, l.; yan, c.; jiao, l.; yuan, h., nib nanoparticles: a new nickel-based catalyst for hydrogen storage properties of mgh2. int. j. hydrogen energy 2012, 37, 17111-17117.

【丛书章节】

1) liu g, dastafkan k, zhao c. electrochemical water splitting. heterogeneous catalysts. 2021, 533-55.(chapter contributed to the book "heterogeneous catalysts: emerging techniques for design, characterization and  applications", editors (wey yang teoh, atsushi urakawa, yun hau ng, patrick h.-l. sit), wiley-vch publishers.)

专利

5)一种用于碱性大电流析氧的镍铁基电催化剂及其制备方法。刘光,张议洁,赵强,李晋平。中国发明专利cn202210845144.1.[已公开]

4) α‑fe2o3多孔纳米棒阵列光阳极材料的制备方法及应用。刘光,李晋平,赵勇,王开放。中国发明专利zl 201710437760.2.[已授权]

3) 金属硼或磷化物修饰的α‑fe2o3光阳极材料的制备方法及应用。刘光,李晋平,赵勇,姚瑞。中国发明专利zl 201710438070.9.[已授权]

2)氮掺杂碳纳米管包覆镍铁的电解水析氧催化材料及应用。刘光,王爽,李晋平,王开放。中国发明专利zl 201510556547.4.[已授权]

1)用于电解水制氢的三维阳极材料及制备方法。刘光,李晋平,王开放,高旭升。中国发明专利zl 201510607936.5.[已授权]

科技奖励

1)基于氢能利用的新型功能材料的调控制备及性能研究,2016年度山西省自然科学奖二等奖(李晋平;赵强;刘光;杜建平;王爽;董晋湘).

2)制氢用高活性催化材料的结构设计及性能调控,2020年度山西省自然科学奖二等奖(刘光;马自在;郝根彦;赵强;王孝广;李晋平).




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