1.学术论文

[1] wang m, wu y, li n, zhao f, zhao q, li j, et al. 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.

[2] 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. 2020.

[3] liu g, wang m, wu y, li n, zhao f, zhao q, et al. 3d porous network heterostructure nice@nife electrocatalyst for efficient oxygen evolution reaction at large current densities. appl catal b: environ. 2020;260:118199.

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

[5] liu g, zhao y, yao r, li n, wang m, ren h, et al. 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.

[6] liu g, zhao y, li n, yao r, wang m, wu y, et al. ti-doped hematite photoanode with surface phosphate ions functionalization for synergistic enhanced photoelectrochemical water oxidation. electrochim acta. 2019;307:197-205.

[7] liu g, wu y, wang m, yao r, li n, zhao y, et al. phosphate ions-functionalized and wettability-tuned nickel ferrite for boosted oxygen evolution performance. int j hydrogen energy. 2019;44:26992-7000.

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

[9] 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;35:1773-80.

[10] 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;6:2353-61.

[11] liu g, yao r, zhao y, wang mh, li n, li jp. ni/nife2o4 nanorods encapsulated in onion-like n-doped carbon nanolayers as efficient oxygen evolution electrocatalyst. chinese j inorg chem. 2018;34:1494-500.

[12] liu g, yao r, zhao y, wang m, li n, li y, et al. 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, et al. fabrication of fe-doped co2p nanoparticles as efficient electrocatalyst for electrochemical and photoelectrochemical water oxidation. electrochim acta. 2018;283:1490-7.

[14] liu g, he d, yao r, zhao y, wang m, li n, et al. amorphous cofebo nanoparticles as highly active electrocatalysts for efficient water oxidation reaction. int j hydrogen energy. 2018;43:6138-49.

[15] 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;11:1664-75.

[16] 王开放, 刘光, 高旭升, 贺冬莹, 李晋平. α-fe2o3光电催化分解水制备氢气研究进展. 化工进展. 2017;36:397-409.

[17] 高旭升, 刘光, 史沁芳, 王开放, 许丽娟, 贺冬莹, et al. 钴铁双金属氧化物多孔纳米棒的制备及其电解水析氧性能. 无机化学学报. 2017;33:623-9.

[18] 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.

[19] liu g, gao x, wang k, he d, li j. mesoporous nickel-iron binary oxide nanorods for efficient electrocatalytic water oxidation. nano res. 2017;10:2096-105.

[20] 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;41:10786-94.

[21] 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;211:871-8.

[22] 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;41:17976-86.

[23] 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;6:11038-46.

[24] 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;39:3822-9.

[25] liu g, wang y, xu c, qiu f, an c, li l, et al. excellent catalytic effects of highly crumpled graphene nanosheets on hydrogenation/dehydrogenation of magnesium hydride. nanoscale. 2013;5:1074-81.

[26] 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;22:22542-9.

[27] liu g, qiu f, li j, wang y, li l, yan c, et al. nib nanoparticles: a new nickel-based catalyst for hydrogen storage properties of mgh2. int j hydrogen energy. 2012;37:17111-7.

2.授权专利

[1]αfe2o3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.

[2]金属硼或磷化物修饰的αfe2o3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.

[3]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.

[4]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.

3.主持科研项目

[1] 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（山西省重点研发计划国际科技合作项目201903d421073）；

[2] 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（国家自然科学基金面上项目21878204）；

[3] 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（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）；

[4] 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（国家自然科学基金青年基金项目51402205）；

[5] 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（山西省自然科学基金青年项目2015021058）；

[6] 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（山西省高校科技创新研究项目stip-2016131）；

[7] 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（先进能源材料化学教育部重点实验室2015年度开放基金项目）；

[8] 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（太原理工大学优秀青年培育项目2014yq013）。

4.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（第三完成人）