科研论文
[1] Wang,Fangqing1;Li,Ying1;Zhang,Rui2;Liu,Hui1;Zhang,Yangyang1;Zheng,Xuerong3;Zhang,Jun1;Chen,Cong1;Zheng,Shijian1;Xin,Huolin L.2;. Activating Single-Atom Ni Site via First-Shell Si Modulation Boosts Oxygen Reduction Reaction. Small, 2023, 19 8, .
[2] 刘辉,高耀辉,刘彩池,梁李敏. 氢氧化镍复合镍钼硫纳米阵列析氢电极的制备方法. , 2023, 河北工业大学, CN116180136A 2023.05.30.
[3] 刘辉,何文君,郝秋艳,刘彩池,李英,梁李敏. 一步原位制备非晶态硫化镍钴铁纳米片阵列析氧电极的方法. , 2023, 河北工业大学, CN116145176A 2023.05.23.
[4] Hao, Qiuyan1;Zhang, Liang1;Gao, Yaohui1;Cao, Da1;Zhao, Jianwei1;Li, Ying1;Liu, Caichi1;Qiao, Zhi2;He, Wenjun1;Liu, Hui1,3. Construction of Fe2O3 Nanosheet Arrays by Sulfur Doping toward Efficient Alkaline Hydrogen Evolution. ACS APPLIED ENERGY MATERIALS, 2022, 5 2, 1793-1800.
[5] Gao,Dazhi12;Zheng,Lekai12;Hu,Lina12;Li,Ying1;Liu,Hui1;Xue,Yanming12;Liu,Fang12;Zhang,Jun12;Tang,Chengchun12;. Nitrogen-doped carbon nanotubes filled with Fe3C nanowires for efficient electrocatalytic oxygen reduction. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2022, 654 , .
[6] Liu,Zhiming12;Gao,Dazhi12;Hu,Lina12;Liu,Hui1;Li,Ying1;Xue,Yanming12;Liu,Fang12;Zhang,Jun12;Tang,Chengchun12;. Boron-doped CoSe2 nanowires as high-efficient electrocatalyst for hydrogen evolution reaction. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2022, 646 , .
[7] Liu,Hui13;Cheng,Jianing1;He,Wenjun1;Li,Ying1;Mao,Jing2;Zheng,Xuerong2;Chen,Cong1;Cui,Chunxiang4;Hao,Qiuyan1;. Interfacial electronic modulation of Ni3S2 nanosheet arrays decorated with Au nanoparticles boosts overall water splitting. Applied Catalysis B: Environmental, 2022, 304 , .
[8] He, Wenjun1;Zhang, Rui2;Zhang, Jingyu1;Wang, Fangqing1;Li, Ying1;Zhao, Jianling1;Chen, Cong1;Liu, Hui1;Xin, Huolin2;. Promoting the water dissociation of nickel sulfide electrocatalyst through introducing cationic vacancies for accelerated hydrogen evolution kinetics in alkaline media. Journal of Catalysis, 2022, 410 , 112-120.
[9] Cao, Da1,2;Shen, Pengcheng1,2;Liu, Hui1,2;Li, Jice1,2;Zhang, Zhizhao1,2;Li, Ying1,2,3. Oxygen reduction activity of sulfur-functionalized Ti3C2S2 supported single-atom catalysts by first-principles calculations. INTERNATIONAL JOURNAL OF QUANTUM CHEMISTRY, 2023, , .
[10] 刘辉,何文君,李英,郝秋艳,刘彩池. 微孔硫化镍复合氢氧化镍纳米阵列析氢电极的制备方法. , 2023, 河北工业大学, CN116043270A 2023.05.02.