盧章輝,男,江西師範大學化學化工學院教授、碩士生導師、博士生導師、博士後合作導師。曾入選學校首批“青年英才計畫”和“正大學者”(特崗教授),江西省青年科學家培養對象,江西省 “贛鄱英才555工程”領軍人才。
基本介紹
人物履歷,研究方向,研究生培養,科研簡介,發明專利,代表性論文,
人物履歷
1999.09-2003.06,湖南科技大學,本科生
2003.07-2005.08,湖南科技學院,教師
2005.09-2008.06,湘潭大學,碩士生
2008.10-2011.03,日本產業技術綜合研究所,研究助理
2009.04-2011.03,日本神戶大學,博士生
2011.04-2011.09,日本產業技術綜合研究所,訪問學者
2011.04至今,江西師範大學化學化工學院,教授、博士生導師(2014年至今)
研究方向
1、新型催化劑及催化反應,涉及多相催化、光/電催化等
2、氫能與燃料電池,涉及氫氣製取,新型燃料電池等
3、儲能電池材料,涉及新型金屬電池,金屬離子電池等
研究生培養
2013年至2021年指導研究生畢業26人,其中2人作為第2和第3完成人獲得江西省自然科學獎一等獎,11人獲得江西省優秀博士(碩士)學位論文,17人獲得學校優秀博士(碩士)學位論文;15人繼續攻讀博士學位,其他進入高校、中學、企業等單位工作。
科研簡介
研究興趣集中在微納米材料設計合成及其在能源和催化中的套用。主持/完成國家自然科學基金(4項)、省自然科學基金重點(2項)等省級以上課題10餘項。授權國家發明專利9項。在J.Am. Chem. Soc.、Appl.Catal. B.等國際知名期刊發表論文120餘篇,其中13篇入選ESI高被引論文,單篇超過100次引用的論文12篇,總引用6000餘次。入選英國皇家化學會期刊2019年度Top1%高被引作者。擔任Chinese Chemical Letters、Rare Metals、Journal of Chemistry等SCI期刊學術編輯/青年編委/客座編輯。曾獲得江西省自然科學獎一等獎(第一完成人)、國家優秀自費留學生獎學金、日本丸文財團研究交流獎、江西省優秀博士碩士學位論文指導教師、江西師範大學優秀研究生指導教師、熊智明獎教金、共產黨員標兵、三育人先進工作者等榮譽。
發明專利
1、直接肼硼烷燃料電池
2、一種用於肼硼烷完全產氫的非貴金屬催化劑及其製備方法
3、一種用於甲酸分解制氫的PdIr複合納米催化劑及其製備方法
4、一種用於氨硼烷水解制氫的 Ni-CeO2@graphene複合納米催化劑及其製備方法
5、一種用於氨硼烷和肼硼烷水解制氫的 Cu@mSiO2核殼納米催化劑及其製備方法
6、一種用於水合肼產氫的CoPt/Ln(OH)3催化劑及其製備方法
7、一種納米多孔磷化鐵立方體的製備方法
8、一種蛋黃殼結構複合磷化鈷納米多面體的製備方法
9、一種用於肼硼烷產氫的NiPt@RGO複合納米催化劑及其製備方法
10、一種用於肼分解產氫的NiPt-Ni(OH)2/La(OH)3催化劑及其製備方法
代表性論文
1. AnqiZhang, Jianhui Xia, Qilu Yao*, Zhang-HuiLu,* Pd–WOx heterostructures immobilized by MOFs-derived carbon cagesfor formic acid dehydrogenation, Applied Catalysis B: Environmental, 2022, 309, 121278.
2. XiugangLi, Qilu Yao, Zongbao Li, Hongbo Li, Qi-Long Zhu, Zhang-Hui Lu,* Porphyrin Frameworks-derived N-doped PorousCarbon-confined Ru for NH3BH3 Methanolysis: The More Pyridinic-N, the better. Journal of Materials Chemistry A, 2022, 10, 326-336.
3. MingjunSun, Yaohui Qu,* Fanyan Zeng, Yong Yang, Keng Xu, Cailei Yuan, Zhang-Hui Lu,* Hierarchicalporous and sandwich-like sulfur-doped carbon nanosheets as high-performanceanodes for sodium-ion batteries, Industrial & Engineering Chemistry Research, 2022,61, 2126-2135.
4. JinghuiShi, Fen Qiu, Wenbo Yuan, Manman Guo,* Zhang-HuiLu,* Nitrogen-doped carbon-decorated yolk-shell CoP@FeCoPmicro-polyhedra derived from MOF for efficient overall water splitting, Chemical EngineeringJournal, 2021, 403, 126312.
5. Fen Qiu, JinghuiShi, Manman Guo,* Shuai Chen, Jianhui Xia, Zhang-Hui Lu,* Rapid synthesis of large-size Fe2O3 nanoparticles-decorated NiOnanosheets via electrochemical exfoliation for enhanced oxygen evolutionelectrocatalysis, Inorganic Chemistry, 2021, 60, 959–966.
6. YixingLuo, Wendan Nie, Yiyue Ding, Qilu Yao, Gang Feng, Zhang-Hui Lu,* Robust Hydrogen Production from Additive-FreeFormic Acid via Mesoporous Silica-Confined Pd-ZrO2 Nanoparticles atRoom Temperature, ACS Applied Energy Materials, 2021, 4, 4945-4954.
7. WeiWang, Qilu Yao, Zhang-Hui Lu,*Bimetallic Ni−Pt nanoparticles immobilized on mesoporous carbon nitride ashighly efficient catalysts for complete hydrogen evolution from hydrazineborane, Journal of MaterialsChemistry A, 2020, 8, 13694–13701.
8. YixingLuo, Qifeng Yang, Wendan Nie, Qilu Yao, Zhujun Zhang, Zhang-Hui Lu,* Anchoring IrPdAu Nanoparticles on NH2-SBA-15for Fast Hydrogen Production from Formic Acid at Room Temperature, ACS Applied Materials &Interfaces, 2020, 12, 8082-8090.
9. MeilingHuang, Qilu Yao, Gang Feng, Zhang-HuiLu,* Nickel–ceria nanowires embedded in microporous silica:controllable synthesis, formation mechanism, and catalytic applications, Inorganic Chemistry, 2020,59, 5781-5790.
10. KunWang, Qilu Yao, Shaojun Qing, Zhang-HuiLu*, La(OH)3 nanosheet-supported CoPt nanoparticles: A highlyefficient and magnetically recyclable catalyst for hydrogen production fromhydrous hydrazine, Journal ofMaterials Chemistry A, 2019,7, 9903-9911.
11. ZhujunZhang, Yixing Luo, Shiwen Liu, Qilu Yao, Shaojun Qing, Zhang-Hui Lu*, A PdAg-CeO2 NanocompositeAnchored on Mesoporous Carbon: Highly Efficient Catalyst for HydrogenProduction from Formic Acid at Room Temperature, Journal of MaterialsChemistry A, 2019, 7, 21438-21446.
12. JianminChen, Zhang-Hui Lu,* QiluYao, Gang Feng, Yan Luo, Complete Dehydrogenation of N2H4BH3with NiM-Cr2O3 (M = Pt, Rh, Ir) Hybrid Nanoparticles, Journal of Materials Chemistry A, 2018, 6, 20746-20752.
13. Qilu Yao, Zhang-Hui Lu,* Rui Zhang, Shiliang Zhang, Xiangshu Chen,*Hai-Long Jiang, A noble-metal-freenanocatalyst for highly efficient and complete hydrogen evolution from N2H4BH3, Journal of Materials Chemistry A, 2018, 6, 4386-4393.
14. Qilu Yao, Zhang-Hui Lu,* Yuwen Yang, Yu-ZhenChen, Xiangshu Chen*, and Hai-Long Jiang*. Facile synthesis of graphene supported Ni-CeOx nanocompositesfor highly efficient catalysis in hydrolytic dehydrogenation of ammonia borane,Nano Research, 2018, 11, 4412–4422.
15. ZhujunZhang, Shiliang Zhang, Qilu Yao, Xiangshu Chen, Zhang-Hui Lu,* Controlled Synthesis of MOF-Encapsulated NiPtNanoparticles toward Efficient and Complete Hydrogen Evolution from HydrazineBorane and Hydrazine, Inorganic Chemistry, 2017,56, 11938-11945.
16. Qilu Yao, Zhang-Hui Lu,* Wei Huang, Xiangshu Chen,* Jia Zhu, HighlyPt-like activity of Ni-Mo/graphene catalyst for hydrogen evolution fromhydrolysis of ammonia borane, Journal of Material Chemistry A, 2016, 4, 8579-8583.
17. Zhujun Zhang, Zhang-Hui Lu,* Hongliang Tan, Xiangshu Chen,* Qilu Yao,CeOx-modified RhNi nanoparticles grown on rGO as highly efficient catalysts forcomplete hydrogen generation from hydrazine borane and hydrazine, Journal of Material Chemistry A, 2015,3, 23520-23529.
18. ZhujunZhang, Yuqing Wang, Xiangshu Chen, Zhang-HuiLu*, Facile synthesis of NiPt-CeO2 nanocomposite as an efficientcatalyst for hydrogen generation from hydrazine borane, Journal of Power Sources, 2015,291, 14-19.
19. QiluYao, Zhang-Hui Lu,* YuqingWang, Xiangshu Chen,* Gang Feng, Non-noble bimetallic Cu-Co nanoparticlesembedded in SiO2 nanospheres for hydrolytic dehydrogenation of ammonia borane, Journal of Physical Chemistry C, 2015, 119, 14167-14174.
20. ZhujunZhang, Zhang-Hui Lu,*Xiangshu Chen, Ultrafine Ni-Pt alloy nanoparticles grown on graphene for highlyefficient and complete dehydrogenation of hydrazine borane, ACS Sustainable Chemistry &Engineering, 2015, 3, 1255-1261.