基本介紹
- 中文名:計亞軍
- 畢業院校:南京大學
- 學位/學歷:博士
- 職業:教師
- 專業方向:能源存儲與轉換材料的製備與性能研究等
- 任職院校:上海理工大學
人物經歷,研究方向,學術成果,科研項目,發表論文,
人物經歷
2004-2007 碩士, 南京航空航天大學套用化學專業
2007-2011 博士, 南京大學分析化學專業
2008-2010 聯合培養博士, 美國凱斯西儲大學
2016-2017 訪問學者, 美國天普大學科學與藝術學院
2012-至今 上海理工大學理學院 套用化學教研室
研究方向
1.能源存儲與轉換材料的製備與性能研究
2.光催化、電催化與光電轉化納米材料
3.生物質衍生碳材料
4.金屬氧化物材料的可控合成
學術成果
科研項目
1.國家自然科學基金 青年基金
多組分量子點共敏化太陽能電池的製備與光電性能(已結題)
2.上海市自然科學基金
高轉換效率量子點敏化太陽能電池的製備與光電性能(已結題)
3.上海市教育委員會
高比表面積二氧化鈦納米管陣列的合成與光電性能研究(已結題)
4.生命分析化學國家重點實驗室2013年度批准開放課題
量子點敏化電極材料的製備與光電性能(已結題)
5.綠色催化四川省高校重點實驗室2017年度開放基金
發表論文
- Solar-Light Photoamperometric and Photocatalytic Properties of Quasi-transparent TiO2Nanoporous Thin Films.2010
- Fabrication of double-walled TiO2 nanotubes with bamboo morphology via one-step alternating voltage anodization.2011
- The Effect of Optical Properties on Photovoltaic Performance in Dye-Sensitized TiO2Nanocrystalline Solar Cells.2013
- Highly-ordered TiO2nanotube arrays with double-walled and bamboo-typestructures in dye-sensitized solar cells.2012
- Facile route for synthesis of TiO2nanorod arrays by high-temperature calcinations 2013
- Growth mechanism and photocatalytic performance of double-walled and bamboo-type TiO2nanotube arrays.2014
- Sonochemical synthesis of Titania nanoparticles and Their Application for Photovoltaic Devices.2014
- One-step method for growing of large scale ZnO nanowires on zinc foil.2015
- Comparison of photovoltaic performance of TiO2nanoparticles based thin films via different routes.2015
- Controlled Synthesis of Ag/TiO2Nanotube Arrays Composites with Different Ag Loading and Their Enhanced Photoelectrochemical and Photocatalytic Performance.2017
- Preparation and photoelectric performance of CdTe/CdS Co-sensitized TiO2electrode materials.2018
- Preparation and Stored Energy Performance of Spherical Carbon Aerogels with Uniform Size. 2017
- Superior Capacitive Performance Enabled by Edge-oriented and Interlayer-expanded MoS2Nanosheets Anchored on Reduced Graphene Oxide Sheets.2018
- Nanoporous alumina thin films with interpenetrated structure via alternating voltage anodization.2018
- High mass loading and high-density flower-like NiCo2O4 nanosheets on Ni foam for superiorcapacitance.2019
- Enhanced electrochemical performance and high voltage window for supercapacitor based on multi-heteroatom modified porous carbon materials.2019
- In situ preparation of P, O co-doped carbon spheres for high-energy density supercapacitor.2019
- CdS Sensitized Chestnut-like TiO2 Based Thin Films for Improved PhotoelectrochemicalPerformance2
- Ultrathin Co3O4nanosheets anchored on multi-heteroatom dopedporous carbon derived from biowaste for high performance solid-statesupercapacitor.2010
