侯三英個人簡介
基本信息
姓名:侯三英
出生年月:1989.12
學位:博士
職稱:副教授
研究領域(方向):1)新能源材料的制備及其電化學性能研究;2)燃料電池膜電極材料的制備及其電池性能研究;3)碳材料的制備及其在廢水處理方面的性能研究。
聯系方式:E-mail:tysgying@163.com
個人簡介
侯三英,女,1989年生,博士,碩士生導師,湖南省青年骨幹教師,新加坡南洋理工大學訪問學者。主要從事新能源材料及燃料電池應用方面教學與科研工作。主持主持國家級項目2項,省級項目2項,廳級項目1項。在Applied Catalysis B: Environmental,ACS Catalysis,ACS Applied Materials & Interface,Carbon, Journal of Power Sources,Journal of Environmental Chemical Engineering, Electrochimica Acta, International Journal of Hydrogen Energy等國内外知名學術刊物發表學術論文20餘篇,授權國家發明專利1項。
教育經曆
2012/09-2017/06,華南理工大學,應用化學,博士,導師:廖世軍
2008/09-2012/06,2003网站太阳集团,化學工程與工藝,本科/學士
科研、學術與訪學工作經曆
1.2024/01-至今,2003网站太阳集团,2003网站太阳集团,副教授
2.2022/03-2023/03,Nanyang Technological University (Singapore), 訪問學者
3.2017/07-2023/12,2003网站太阳集团,2003网站太阳集团,講師
主持或參加科研項目(課題)情況
1.國家自然科學基金項目青年科學基金項目,高功率密度穩定性自增濕膜電極的制備及其構效關系研究,2022.1-2024.12,主持,30萬。
2.國家公派訪問學者項目, 2021年國家留學基金面上項目,主持。
3.湖南省自然科學基金項目青年科學基金項目,新型氧化物修飾高性能自增濕膜電極的制備及其自增濕性能研究,2021.1-2023.12,主持,5萬。
4.湖南省教育廳優秀青年項目,Pt//MO2-SiO2/CNTs(M=Ce,Sn,Co)催化劑構築高功率密度膜電極的制備及其自增濕性能研究,2019.1-2021.12,主持,3萬。
5.廣東省燃料電池技術重點實驗室開放課題,Pt/SnO2-MO2/CNTs(M=Sn, Ru, Ir)催化劑構築高性能膜電極的制備及其自增濕性能研究,2018.10-2020.10,主持,3萬。
主要論文
[1]Hou S*, Hu H, Fu Q, et al. Undaria pinnatifida (wakame)-derived Fe, N co-doped graphene-like hierarchical porous carbon as highly efficient catalyst for activation of peroxymonosulfate (PMS) toward degradation of tetracycline (TC)[J]. Separation and Purification Technology, 2024, 333: 125980.(SCI一區,IF=8.6)
[2]Xie J Q*, Tian J, Mao L, Cao H, Zhou B, Shi Lang, Hou S*, et al. A facile and universally applicable additive strategy for fabrication of high-quality copper patterns based on a homogeneous Ag catalyst ink[J]. Chemical Engineering Journal, 2023, 477: 147115.(SCI一區,IF=15.3 )
[3]Wu H, Tan Z, Miao B, Hu H, Hou S*. Hierarchical porous graphite-like carbon nanosheet cooperated with Fe/Fe3C@ Fe-NC nanocomposites toward catalytic oxidation process[J]. Journal of Environmental Chemical Engineering, 2023, 11(1): 109204. (SCI一區,IF=7.9676)
[4] Hou S, Wang H, Ren J, et al. Enhanced low-humidity performance of proton-exchange membrane fuel cell by introducing hydrophilic CNTs in membrane electrode assembly[J]. Progress in Natural Science: Materials International, 2022, 32(2): 150-156. (SCI二區,IF=4.2689)
[5] Hou S, Ye Y, Liao S, et al. Enhanced low-humidity performance in a proton exchange membrane fuel cell by developing a novel hydrophilic gas diffusion layer[J]. International Journal of Hydrogen Energy, 2020, 45(1): 937-944. (SCI二區,IF=7.1389)
[6] Hou S, Chi B, Liu G, et al. Enhanced performance of proton exchange membrane fuel cell by introducing nitrogen-doped CNTs in both catalyst layer and gas diffusion layer[J]. Electrochimica Acta, 2017, 253: 142-150. (SCI一區,IF=7.3364)
[7] Hou S, Chen R, Zou H, et al. High-performance membrane electrode assembly with multi-functional Pt/SnO2–SiO2/C catalyst for proton exchange membrane fuel cell operated under low-humidity conditions[J]. International Journal of Hydrogen Energy, 2016, 41(21): 9197-9203.(SCI二區,IF=7.1389)
[8] Hou S, Liao S, Xiong Z, et al. Improvement of proton exchange membrane fuel cell performance in low-humidity conditions by adding hygroscopic agarose powder to the catalyst layer[J]. Journal of power sources, 2015, 273: 168-173.(SCI一區,IF=9.7935)
[9] Hou S, Su H, Zou H, et al. Enhanced low-humidity performance in a proton exchange membrane fuel cell by the insertion of microcrystalline cellulose between the gas diffusion layer and the anode catalyst layer[J]. International Journal of Hydrogen Energy, 2015, 40(45): 15613-15621.(SCI二區,IF=7.1389)
[10] Hou S, Liao S, Dang D, et al. Self-humidifying membrane electrode assembly prepared by adding microcrystalline cellulose in anode catalyst layer as preserve moisture[J]. International Journal of Hydrogen Energy, 2014, 39(24): 12842-12848.(SCI二區,IF=7.1389)
專利:
侯三英,陽鵬飛,胡海龍,嚴雅珂,譚智龍. 一種含鈾廢水處理裝置及含鈾廢水處理方法,專利号:ZL202110133763.3
