顾鑫
性别:男
出生年月:1987.6
导师类别:硕导
职称:副教授
政治面貌:中共党员
邮箱:guxin@upc.edu.cn
职务:
办公地点:逸夫楼219
电话/传真:**
研究方向:
二次电池
地址/邮编:
青岛市黄岛区长江西路66号,266580
1、教育经历
2005/09 - 2009/07,山东大学,化学专业,学士;
2009/09 - 2014/06,山东大学,无机化学专业,博士。
2、工作经历
2017/01 - 至今,中国石油大学(华东),副教授。
2016/09 - 2016/12,中国石油大学(华东),讲师。
2014/07 - 2016/08,中国石油大学(华东),师资博士后。
3、研究领域/招生方向
研究领域:主要从事化学电源中电极材料的合成与组装,包括锂离子电池、钠离子电池及钾离子电池正负极材料的设计、制备与应用基础研究。在Adv. Funct. Mater.、Chem. Mater.、J. Mater. Chem. A、ACS Appl. Mater. Inter.、J. Power Sources、Electrochimica Acta、Chemelectrochem等期刊发表SCI论文三十余篇,总引用次数达到1000余次,H因子14。
招生方向:化学工程
4、主讲课程
5、主持项目
1. 山东省重点研发计划,GG2,过渡金属碳酸盐材料的电化学储钠机制与性能调控研究,2018/01-2019/12。
2. 中央高校基本科研业务费,17CX02039A,膦酸MOF碳化制备磷掺杂多孔碳材料及其钠电负极性能、机制研究,2017/01-2019/12。
3. 山东省优秀中青年科学家科研奖励基金,BS2015CL005,新型钠离子电池负极金属氧化物/有序多孔碳复合材料的制备及性能研究,2015/07-2017/07。
4. 中国博士后科学基金面上资助一等资助,2015M570618,金属氧化物/有序多孔碳复合材料的制备及储钠性能研究,2014/07-2016/07。
5. 青岛市博士后人员应用研究项目资助,**,基于金属有机框架化合物(MOF)的多孔含氮碳材料储锂性能研究,2014/07-2016/07。
6、论著专利
(1). Li, L.; He, J.; Wang, Y.; Lv, X.; Gu, X.; Dai, P.; Liu, D.; Zhao, X.*, Metal–organic frameworks: a promising platform for constructing non-noble electrocatalysts for the oxygen-reduction reaction, Journal of Materials Chemistry A, 2019, 7 (5), 1964-1988.
(2). Yan, L.; Jiang, H.; Wang, Y.; Li, L.; Gu, X.; Dai, P.; Liu, D.; Tang, S.-F.; Zhao, G.; Zhao, X.*, One-step and scalable synthesis of Ni2P nanocrystals encapsulated in N, P-codoped hierarchically porous carbon matrix using a bipyridine and phosphonate linked nickel metal–organic framework as highly efficient electrocatalysts for overall water splitting, Electrochimica Acta, 2019, 297, 755-766.
(3). Zhang, L.; Gu, X.*; Yan, C.; Zhang, S.; Li, L.; Jin, Y.; Zhao, S.; Wang, H.; Zhao, X.*, Titanosilicate Derived SiO2/TiO2@ C Nanosheets with Highly Distributed TiO2 Nanoparticles in SiO2 Matrix as Robust Lithium Ion Battery Anode, ACS applied materials & interfaces, 2018, 10 (51), 44463-44471.
(4). Dai, P.; Xue, Y.; Zhang, S.; Cao, L.; Tang, D.; Gu, X.; Li, L.; Wang, X.; Jiang, X.; Liu, D., Derived Flexible 3D Interconnected Carbon Microfiber Networks with Controllable Pore Sizes for Supercapacitors, ACS applied materials & interfaces, 2018, 10 (43), 37046-37056.
(5). Liu, D.; Zhu, H.; Zhao, J.; Pan, L.; Dai, P.;Gu, X.; Li, L.; Liu, Y.; Zhao, X.*, Synthesis of Mesoporous γ-Al2O3 with Spongy Structure: In-Situ Conversion of Metal-Organic Frameworks and Improved Performance as Catalyst Support in Hydrodesulfurization, Materials, 2018, 11 (7), 1067.
(6). Yan, C; Gu X.*; Zhang L.; Wang, Y.;Yan, L.;Liu, D.;Li, L.;Dai, P.; Zhao, X.*,Highly dispersed Zn nanoparticles confined in nanoporous carbon network: promising anode materials for sodium and potassium ion batteries,Journal of Materials Chemistry A,2018, 6, 17371.
(7). Wang, Y.; Li, L.; Yan, L.; Gu, X.; Dai, P.; Liu, D.; Bell, J. G.; Zhao, G.; Zhao, X.; Thomas, K. M., Bottom-Up Fabrication of Ultrathin 2D Zr Metal–Organic Framework Nanosheets through a Facile Continuous Microdroplet Flow Reaction, Chemistry of Materials,2018, 30 (9), 3048-3059.
(8). Yan, L.; Jiang, H.; Xing, Y.; Wang, Y.; Liu, D.; Gu, X.; Dai, P.; Li, L.; Zhao, X., Nickel metal–organic framework implanted on graphene and incubated to be ultrasmall nickel phosphide nanocrystals acts as a highly efficient water splitting electrocatalyst, Journal of Materials Chemistry A,2018, 6, 1682.
(9). Liu, D.; Yan, L.; Li, L.; Gu, X.; Dai, P.; Yang, L.; Liu, Y.; Liu, C.; Zhao, G.; Zhao, X., Impact of moderative ligand hydrolysis on morphology evolution and the morphology-dependent breathing effect performance of MIL-53 (Al), CrystEngComm,2018, 20 (15), 2102-2111.
(10). Liu, D.; Li, L.; Xu, H.; Dai, P.; Wang, Y.; Gu, X.; Yan, L.; Zhao, G.; Zhao, X., Boosting ORR Catalytic Activity by Integrating Pyridine‐N Dopants, a High Degree of Graphitization, and Hierarchical Pores into a MOF‐Derived N‐Doped Carbon in a Tandem Synthesis, Chemistry–An Asian Journal,2018, 13 (10), 1318-1326.
(11). Gu, X.; Yan, C.; Yan, L.; Cao, L.; Niu, F.; Liu, D.; Dai, P.; Li, L.; Yang, J.; Zhao, X., Carbonates (bicarbonates)/reduced graphene oxide as anode materials for sodium-ion batteries, Journal of Materials Chemistry A,2017, 5 (47), 24645-24650.
(12). Zhao, X.*; Yan, C.; Gu, X.*; Li, L.; Dai, P.; Li, D.; Zhang, H., Ultrafine TiO2Nanoparticles Confined in N-Doped Porous Carbon Networks as Anodes of High-Performance Sodium-Ion Batteries, ChemElectroChem,2017, 4 (6), 1516-1522.
(13). Yan, L.; Cao, L.; Dai, P.; Gu, X.; Liu, D.; Li, L.; Wang, Y.; Zhao, X., Metal‐Organic Frameworks Derived Nanotube of Nickel–Cobalt Bimetal Phosphides as Highly Efficient Electrocatalysts for Overall Water Splitting, Advanced Functional Materials,2017, 27 (40), **.
(14). Yan, L.; Dai, P.; Wang, Y.; Gu, X.; Li, L.; Cao, L.; Zhao, X., In Situ Synthesis Strategy for Hierarchically Porous Ni2P Polyhedrons from MOFs Templates with Enhanced Electrochemical Properties for Hydrogen Evolution, ACS Applied Materials & Interfaces,2017, 9 (13), 11642-11650.
(15). Wang, Y.; Li, L.; Dai, P.; Yan, L.; Cao, L.; Gu, X.; Zhao, X., Missing-node directed synthesis of hierarchical pores on a zirconium metal–organic framework with tunable porosity and enhanced surface acidity via a microdroplet flow reaction, Journal of Materials Chemistry A,2017, 5 (42), 22372-22379.
(16). Li, L.; Dai, P.; Gu, X.; Wang, Y.; Yan, L.; Zhao, X., High oxygen reduction activity on a metal–organic framework derived carbon combined with high degree of graphitization and pyridinic-N dopants, Journal of Materials Chemistry A,2017, 5 (2), 789-795.
(17). Wang, Y.; Li, L.; Yan, L.; Cao, L.; Dai, P.; Gu, X.; Zhao, X., Continuous synthesis for zirconium metal-organic frameworks with high quality and productivity via microdroplet flow reaction, Chinese Chemical Letters,2017, https://doi.org/10.1016/j.cclet.2017.09.057.
(18). Gu, X.; Dai, P.; Li, L.; Li, J.; Li, D.; Zhang, H.; Zhao, X., Porous Carbon Polyhedrons with High‐Level Nitrogen‐Doping for High‐Performance Sodium‐Ion Battery Anodes, ChemistrySelect,2016, 1 (20), 6442-6447.
(19). Gu, X.; Li, L.; Wang, Y.; Dai, P.; Wang, H.; Zhao, X., Hierarchical tubular structures constructed from rutile TiO2nanorods with superior sodium storage properties, Electrochimica Acta,2016, 211, 77-82.
(20). Li, L.; Wang, Y.; Gu, X.; Yang, Q.; Zhao, X., Increasing the CO2/N2Selectivity with a Higher Surface Density of Pyridinic Lewis Basic Sites in Porous Carbon Derived from a Pyridyl‐Ligand‐Based Metal–Organic Framework, Chemistry–An Asian Journal,2016, 11 (13), 1913-1920.
(21). Gu, X.; Wang, Y.; Yan, L.; Li, L.; Dai, P.; Wang, H.; Zhao, X., Metal-organic Frameworks Derived CoS2-Co/N-doped Porous Carbon with Extremely High Electrocatalytic Stability for the Oxygen Reduction Reaction, Int. J. Electrochem. Sci,2016, 11, 9575-9584.
(22). Gu, X.; Yue, J.; Chen, L.; Liu, S.; Xu, H.; Yang, J.; Qian, Y.; Zhao, X., Coaxial MnO/N-doped carbon nanorods for advanced lithium-ion battery anodes, Journal of Materials Chemistry A,2015, 3 (3), 1037-1041.
(23). Gu, X.; Yue, J.; Li, L.; Xue, H.; Yang, J.; Zhao, X., General synthesis of MnOx (MnO2, Mn2O3, Mn3O4, MnO) hierarchical microspheres as lithium-ion battery anodes, Electrochimica Acta,2015, 184, 250-256.
(24). Yue, J.; Gu, X.; Jiang, X.; Chen, L.; Wang, N.; Yang, J.; Ma, X., Coaxial manganese dioxide@N-doped carbon nanotubes as superior anodes for lithium ion batteries, Electrochimica Acta,2015, 182, 676-681.
(25). Chen, L.; Gu, X.; Jiang, X.; Wang, N.; Yue, J.; Xu, H.; Yang, J.; Qian, Y., Hierarchical vanadium pentoxide microflowers with excellent long-term cyclability at high rates for lithium ion batteries, Journal of Power Sources,2014, 272, 991-996.
(26). Gu, X.; Chen, L.; Liu, S.; Xu, H.; Yang, J.; Qian, Y., Hierarchical core–shell α-Fe2O3@C nanotubes as a high-rate and long-life anode for advanced lithium ion batteries, Journal of Materials Chemistry A,2014, 2 (10), 3439-3444.
(27). Yue, J.; Gu, X.; Chen, L.; Wang, N.; Jiang, X.; Xu, H.; Yang, J.; Qian, Y., General synthesis of hollow MnO2, Mn3O4 and MnO nanospheres as superior anode materials for lithium ion batteries, Journal of Materials Chemistry A,2014, 2 (41), 17421-17426.
(28). Wang, N.; Xu, H.; Chen, L.; Gu, X.; Yang, J.; Qian, Y., A general approach for MFe2O4(M = Zn, Co, Ni) nanorods and their high performance as anode materials for lithium ion batteries, Journal of Power Sources,2014, 247, 163-169.
(29). Gu, X.; Chen, L.; Ju, Z.; Xu, H.; Yang, J.; Qian, Y., Controlled Growth of Porous α‐Fe2O3Branches on β‐MnO2 Nanorods for Excellent Performance in Lithium‐Ion Batteries, Advanced Functional Materials,2013, 23 (32), 4049-4056.
(30). Gu, X.; Li, X.; Xu, L.; Xu, H.; Yang, J.; Qian, Y., Synthesis of Spinel LiNixMn2-xO4(x= 0, 0. 1, 0. 16) and Their High Rate Charge-Discharge Performances, Int. J. Electrochem. Sci,2012, 7, 2504-2512.
(31). Wang, L.; Wei, H.; Fan, Y.; Gu, X.; Zhan, J., One-dimensional CdS/α-Fe2O3and CdS/Fe3O4heterostructures: epitaxial and nonepitaxial growth and photocatalytic activity, The Journal of Physical Chemistry C,2009, 113 (32), 14119-14125.
7、获奖荣誉
8、学术兼职
9、个人主页
Gu Xin
Sex:Male
Birth:1987.6
Title:Associate Professor
E-mail:guxin@upc.edu.cn
Office:219 Yifu building
Tel:**
Research area:secondary batteries
address/postcode:No. 66 , West Changjiang Road , Huangdao District , Qingdao , China , 266580
1. Education
Sep. 2005- Jul. 2009,
Bachelor, Chemistry, Shandong University,
Sep. 2009- Jun. 2014,
Ph.D., Inorganic Chemistry, Shandong University,
2.Working Experience
Jan. 2017 – Current, China University of Petroleum (East China), Associate Professor
Sep. 2016 – Dec. 2016, China University of Petroleum (East China), Lecturer
Jul. 2014 – Aug. 2016, China University of Petroleum (East China), Postdoctor
3. Research area
Mainly engaged in the synthesis and assembly of electrode materials in secondary batteries, including the design, preparation and application for lithium ion battery, sodium ion battery and potassium ion battery. More than 30 SCI papers have been published in the journals of Adv. Funct. Mater., Chem. Mater., J. Mater. Chem. A,ACS Appl. Mater. Inter., J. Power Sources, Electrochimica Acta, Chemelectrochem and so on.The total number of references have reached more than 1000 times, and the H factor is 14.
4. Project
(1). The Key research and development plan of Shandong province, Study on electrochemical sodium storage mechanism and performance regulation of transition metal carbonate materials, GG2, 2018/01-2019/12
(2). The Fundamental Research Funds for the Central Universities, Studies of phosphonate-based MOF derived phosphorus-doped porous carbon materials and their sodium storage performance/mechanism, 17CX02039A, 2017/01-2019/12
(3). Natural Science Foundation of Shandong Province, Studies of the preparation and sodium storage properties of metal oxide/ordered porous carbon composites, BS2015CL005, 2015/07-2017/07
(4). China Postdoctoral Science Foundation, Preparation of metal oxide/ordered porous carbon composites and study of their sodium storage properties, 2015M570618, 2014/07-2016/07
(5). Qingdao Postdoctoral applied research foundation, Study on lithium storage properties of porous nitrogen doping carbon materials derived from MOF, **, 2014/07-2016/07
5. Publications
(1). Li, L.; He, J.; Wang, Y.; Lv, X.; Gu, X.; Dai, P.; Liu, D.; Zhao, X.*, Metal–organic frameworks: a promising platform for constructing non-noble electrocatalysts for the oxygen-reduction reaction, Journal of Materials Chemistry A, 2019, 7 (5), 1964-1988.
(2). Yan, L.; Jiang, H.; Wang, Y.; Li, L.; Gu, X.; Dai, P.; Liu, D.; Tang, S.-F.; Zhao, G.; Zhao, X.*, One-step and scalable synthesis of Ni2P nanocrystals encapsulated in N, P-codoped hierarchically porous carbon matrix using a bipyridine and phosphonate linked nickel metal–organic framework as highly efficient electrocatalysts for overall water splitting, Electrochimica Acta, 2019, 297, 755-766.
(3). Zhang, L.; Gu, X.*; Yan, C.; Zhang, S.; Li, L.; Jin, Y.; Zhao, S.; Wang, H.; Zhao, X.*, Titanosilicate Derived SiO2/TiO2@ C Nanosheets with Highly Distributed TiO2 Nanoparticles in SiO2 Matrix as Robust Lithium Ion Battery Anode, ACS applied materials & interfaces, 2018, 10 (51), 44463-44471.
(4). Dai, P.; Xue, Y.; Zhang, S.; Cao, L.; Tang, D.; Gu, X.; Li, L.; Wang, X.; Jiang, X.; Liu, D., Derived Flexible 3D Interconnected Carbon Microfiber Networks with Controllable Pore Sizes for Supercapacitors, ACS applied materials & interfaces, 2018, 10 (43), 37046-37056.
(5). Liu, D.; Zhu, H.; Zhao, J.; Pan, L.; Dai, P.;Gu, X.; Li, L.; Liu, Y.; Zhao, X.*, Synthesis of Mesoporous γ-Al2O3 with Spongy Structure: In-Situ Conversion of Metal-Organic Frameworks and Improved Performance as Catalyst Support in Hydrodesulfurization, Materials, 2018, 11 (7), 1067.
(6). Yan, C; Gu X.*; Zhang L.; Wang, Y.;Yan, L.;Liu, D.;Li, L.;Dai, P.; Zhao, X.*,Highly dispersed Zn nanoparticles confined in nanoporous carbon network: promising anode materials for sodium and potassium ion batteries,Journal of Materials Chemistry A,2018, 6, 17371.
(7). Wang, Y.; Li, L.; Yan, L.; Gu, X.; Dai, P.; Liu, D.; Bell, J. G.; Zhao, G.; Zhao, X.; Thomas, K. M., Bottom-Up Fabrication of Ultrathin 2D Zr Metal–Organic Framework Nanosheets through a Facile Continuous Microdroplet Flow Reaction, Chemistry of Materials,2018, 30 (9), 3048-3059.
(8). Yan, L.; Jiang, H.; Xing, Y.; Wang, Y.; Liu, D.; Gu, X.; Dai, P.; Li, L.; Zhao, X., Nickel metal–organic framework implanted on graphene and incubated to be ultrasmall nickel phosphide nanocrystals acts as a highly efficient water splitting electrocatalyst, Journal of Materials Chemistry A,2018, 6, 1682.
(9). Liu, D.; Yan, L.; Li, L.; Gu, X.; Dai, P.; Yang, L.; Liu, Y.; Liu, C.; Zhao, G.; Zhao, X., Impact of moderative ligand hydrolysis on morphology evolution and the morphology-dependent breathing effect performance of MIL-53 (Al), CrystEngComm,2018, 20 (15), 2102-2111.
(10). Liu, D.; Li, L.; Xu, H.; Dai, P.; Wang, Y.; Gu, X.; Yan, L.; Zhao, G.; Zhao, X., Boosting ORR Catalytic Activity by Integrating Pyridine‐N Dopants, a High Degree of Graphitization, and Hierarchical Pores into a MOF‐Derived N‐Doped Carbon in a Tandem Synthesis, Chemistry–An Asian Journal,2018, 13 (10), 1318-1326.
(11). Gu, X.; Yan, C.; Yan, L.; Cao, L.; Niu, F.; Liu, D.; Dai, P.; Li, L.; Yang, J.; Zhao, X., Carbonates (bicarbonates)/reduced graphene oxide as anode materials for sodium-ion batteries, Journal of Materials Chemistry A,2017, 5 (47), 24645-24650.
(12). Zhao, X.*; Yan, C.; Gu, X.*; Li, L.; Dai, P.; Li, D.; Zhang, H., Ultrafine TiO2Nanoparticles Confined in N-Doped Porous Carbon Networks as Anodes of High-Performance Sodium-Ion Batteries, ChemElectroChem,2017, 4 (6), 1516-1522.
(13). Yan, L.; Cao, L.; Dai, P.; Gu, X.; Liu, D.; Li, L.; Wang, Y.; Zhao, X., Metal‐Organic Frameworks Derived Nanotube of Nickel–Cobalt Bimetal Phosphides as Highly Efficient Electrocatalysts for Overall Water Splitting, Advanced Functional Materials,2017, 27 (40), **.
(14). Yan, L.; Dai, P.; Wang, Y.; Gu, X.; Li, L.; Cao, L.; Zhao, X., In Situ Synthesis Strategy for Hierarchically Porous Ni2P Polyhedrons from MOFs Templates with Enhanced Electrochemical Properties for Hydrogen Evolution, ACS Applied Materials & Interfaces,2017, 9 (13), 11642-11650.
(15). Wang, Y.; Li, L.; Dai, P.; Yan, L.; Cao, L.; Gu, X.; Zhao, X., Missing-node directed synthesis of hierarchical pores on a zirconium metal–organic framework with tunable porosity and enhanced surface acidity via a microdroplet flow reaction, Journal of Materials Chemistry A,2017, 5 (42), 22372-22379.
(16). Li, L.; Dai, P.; Gu, X.; Wang, Y.; Yan, L.; Zhao, X., High oxygen reduction activity on a metal–organic framework derived carbon combined with high degree of graphitization and pyridinic-N dopants, Journal of Materials Chemistry A,2017, 5 (2), 789-795.
(17). Wang, Y.; Li, L.; Yan, L.; Cao, L.; Dai, P.; Gu, X.; Zhao, X., Continuous synthesis for zirconium metal-organic frameworks with high quality and productivity via microdroplet flow reaction, Chinese Chemical Letters,2017, https://doi.org/10.1016/j.cclet.2017.09.057.
(18). Gu, X.; Dai, P.; Li, L.; Li, J.; Li, D.; Zhang, H.; Zhao, X., Porous Carbon Polyhedrons with High‐Level Nitrogen‐Doping for High‐Performance Sodium‐Ion Battery Anodes, ChemistrySelect,2016, 1 (20), 6442-6447.
(19). Gu, X.; Li, L.; Wang, Y.; Dai, P.; Wang, H.; Zhao, X., Hierarchical tubular structures constructed from rutile TiO2nanorods with superior sodium storage properties, Electrochimica Acta,2016, 211, 77-82.
(20). Li, L.; Wang, Y.; Gu, X.; Yang, Q.; Zhao, X., Increasing the CO2/N2Selectivity with a Higher Surface Density of Pyridinic Lewis Basic Sites in Porous Carbon Derived from a Pyridyl‐Ligand‐Based Metal–Organic Framework, Chemistry–An Asian Journal,2016, 11 (13), 1913-1920.
(21). Gu, X.; Wang, Y.; Yan, L.; Li, L.; Dai, P.; Wang, H.; Zhao, X., Metal-organic Frameworks Derived CoS2-Co/N-doped Porous Carbon with Extremely High Electrocatalytic Stability for the Oxygen Reduction Reaction, Int. J. Electrochem. Sci,2016, 11, 9575-9584.
(22). Gu, X.; Yue, J.; Chen, L.; Liu, S.; Xu, H.; Yang, J.; Qian, Y.; Zhao, X., Coaxial MnO/N-doped carbon nanorods for advanced lithium-ion battery anodes, Journal of Materials Chemistry A,2015, 3 (3), 1037-1041.
(23). Gu, X.; Yue, J.; Li, L.; Xue, H.; Yang, J.; Zhao, X., General synthesis of MnOx (MnO2, Mn2O3, Mn3O4, MnO) hierarchical microspheres as lithium-ion battery anodes, Electrochimica Acta,2015, 184, 250-256.
(24). Yue, J.; Gu, X.; Jiang, X.; Chen, L.; Wang, N.; Yang, J.; Ma, X., Coaxial manganese dioxide@N-doped carbon nanotubes as superior anodes for lithium ion batteries, Electrochimica Acta,2015, 182, 676-681.
(25). Chen, L.; Gu, X.; Jiang, X.; Wang, N.; Yue, J.; Xu, H.; Yang, J.; Qian, Y., Hierarchical vanadium pentoxide microflowers with excellent long-term cyclability at high rates for lithium ion batteries, Journal of Power Sources,2014, 272, 991-996.
(26). Gu, X.; Chen, L.; Liu, S.; Xu, H.; Yang, J.; Qian, Y., Hierarchical core–shell α-Fe2O3@C nanotubes as a high-rate and long-life anode for advanced lithium ion batteries, Journal of Materials Chemistry A,2014, 2 (10), 3439-3444.
(27). Yue, J.; Gu, X.; Chen, L.; Wang, N.; Jiang, X.; Xu, H.; Yang, J.; Qian, Y., General synthesis of hollow MnO2, Mn3O4 and MnO nanospheres as superior anode materials for lithium ion batteries, Journal of Materials Chemistry A,2014, 2 (41), 17421-17426.
(28). Wang, N.; Xu, H.; Chen, L.; Gu, X.; Yang, J.; Qian, Y., A general approach for MFe2O4(M = Zn, Co, Ni) nanorods and their high performance as anode materials for lithium ion batteries, Journal of Power Sources,2014, 247, 163-169.
(29). Gu, X.; Chen, L.; Ju, Z.; Xu, H.; Yang, J.; Qian, Y., Controlled Growth of Porous α‐Fe2O3Branches on β‐MnO2 Nanorods for Excellent Performance in Lithium‐Ion Batteries, Advanced Functional Materials,2013, 23 (32), 4049-4056.
(30). Gu, X.; Li, X.; Xu, L.; Xu, H.; Yang, J.; Qian, Y., Synthesis of Spinel LiNixMn2-xO4(x= 0, 0. 1, 0. 16) and Their High Rate Charge-Discharge Performances, Int. J. Electrochem. Sci,2012, 7, 2504-2512.
(31). Wang, L.; Wei, H.; Fan, Y.; Gu, X.; Zhan, J., One-dimensional CdS/α-Fe2O3and CdS/Fe3O4heterostructures: epitaxial and nonepitaxial growth and photocatalytic activity, The Journal of Physical Chemistry C,2009, 113 (32), 14119-14125.
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中国石油大学华东新能源学院导师教师师资介绍简介-【副教授】顾鑫
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姓名:张梦迪系属:新能源研究院学位:博士职称:专业:新能源科学与工程导师类别:电子邮箱:mdzhang@upc.edu.cn通讯地址:山东省青岛市黄岛区长江西路66号个人主页:※教育经历2012年–2019年,大连理工大学,化学工艺,博士2008年–2012年,大连理工大学,化学工程,学士※工作经历 ...中国石油大学华东师资导师 本站小编 Free考研考试 2020-11-25中国石油大学华东新能源学院导师教师师资介绍简介-教师简介-刘和元
姓名:刘和元系属:学位:博士职称:讲师专业:化学导师类别:硕导电子邮箱:liuheyuan123@upc.edu.cn通讯地址:山东省青岛市黄岛区长江西路66号个人主页:※研究方向1.单线态裂分材料的设计与研究单线态材料可以实现光子的下转化,将其应用在有机太阳能电池中可以有效地克服SQ限制,提升电池 ...中国石油大学华东师资导师 本站小编 Free考研考试 2020-11-25中国石油大学华东新能源学院导师教师师资介绍简介-钟振芳
姓名:钟振芳系属:电气工程系学位:硕士职称:实验师专业:控制工程导师类别:博导电子邮箱:zhenfang@upc.edu.cn通讯地址:山东省青岛市黄岛区长江西路66号个人主页:※个人概况山东莒县人,参与多个科技或教改项目,指导大学生创新创业训练项目,获中国石油大学优秀青年工作者等称号。※研究方向1 ...中国石油大学华东师资导师 本站小编 Free考研考试 2020-11-25中国石油大学华东新能源学院导师教师师资介绍简介-王新伟
姓名:王新伟系属:能源与动力工程系学位:博士职称:实验师专业:工程热物理导师类别:无电子邮箱:wangxw@upc.edu.cn通讯地址:山东省青岛市黄岛区长江西路66号个人主页:※个人概况山东莱州人,主持承担了中央高校自主创新项目1项,油田横向课题5项,并参与“十二五”、“十三五”国家科技重大专项 ...中国石油大学华东师资导师 本站小编 Free考研考试 2020-11-25中国石油大学华东新能源学院导师教师师资介绍简介-郭龙江
姓名:郭龙江系属:能动系学位:硕士职称:助理实验师专业:动力工程导师类别:电子邮箱:guolongjiang@upc.edu.cn通讯地址:山东省青岛市黄岛区长江西路66号个人主页:※个人概况………………※研究方向从事热能工程的理论和应用研究※教育经历2013年-2016年,中国石油大学(华东),能 ...中国石油大学华东师资导师 本站小编 Free考研考试 2020-11-25中国石油大学华东新能源学院导师教师师资介绍简介-何金奎
姓名:何金奎系属:电气工程系学位:硕士职称:实验师专业:电气工程导师类别:无电子邮箱:hejk@upc.edu.cn通讯地址:山东省青岛市黄岛区长江西路66号个人主页:※个人概况辽宁盘锦人,电气工程系实验师,主要负责电力电子技术、太阳能发电技术、风力发电技术等多门专业课程的实验教学及实验室管理工作。 ...中国石油大学华东师资导师 本站小编 Free考研考试 2020-11-25中国石油大学华东新能源学院导师教师师资介绍简介-付越
姓名:付越系属:能源与动力工程系学位:硕士职称:实验师专业:机械设计及理论导师类别:电子邮箱:fuyuefy@126.com通讯地址:山东省青岛市黄岛区长江西路66号个人主页:※研究方向1.天然气预处理及储存2.气体吸附技术3.低温压力容器关键技术4.热工实验技术※教育经历2004年-2007年,辽 ...中国石油大学华东师资导师 本站小编 Free考研考试 2020-11-25
