个人简历
个人简介Personal Profile李林,极端条件热物理与能源系统团队成员,太阳能先进制水制氢创新研究小组(SAHI)负责人。曾获省级优秀博士学位论文,中国工程热物理学会吴仲华奖。2016年8月入职大连理工大学,2018年评为副教授(破格),2017年获国家自然科学基金青年项目,2018年获中国博士后基金特别资助项目,入选大连理工大学“星海骨干”人才计划,2020年评为博士生导师(破格)。近几年,在ACS Applied Materials & Interface, Lab on a Chip, Journal of Catalysis, Chemical Engineering Journal, Energy 等国际学术期刊上发表SCI论文30余篇(其中第一或通讯作者20篇,IF>8.0的SCI 8篇)。太阳能和海水是地球上最丰富的两种资源,通过太阳能光热/光催化转换的方式,从海水中制取净水和氢气是一种极具前景的前沿科学技术,可以有效解决当前所面临的净水短缺、能源危机等严峻问题。因此,太阳能制氢被Science、NASA、DOE等评为最有前景的未来能源技术之一。太阳能界面蒸发被科睿唯安和中科院评为2019十大前沿科技。另外,以上技术与我国当前的一带一路、南海开发、氢能与可再生能源开发等重大战略紧密相关。SAHI(Solar Advanced Utilization to H2O-H2 & Interfaces)创新研究小组隶属于极端条件热物理与能源系统团队(团队负责人:唐大伟 教授)。SAHI围绕太阳能先进制水、制氢及界面问题开展研究,主要方向包括:太阳能界面蒸发海水淡化、太阳能界面催化储氢-制氢、太阳能重整制氢等。SAHI成员目前包括博士后1人、博士生4人、硕士生7人。教育经历2013.9 2016.6 重庆大学 动力工程及工程热物理 博士2011.9 2013.6 重庆大学 动力工程及工程热物理 硕士2007.9 2011.6 重庆大学 热能与动力工程 学士2004.9 2007.6 西北师大附属中学工作经历2016.7 至今 大连理工大学能源与动力学院 讲师科研项目 电容性阳极光催化燃料电池的能质传输和转化及储电特性, 国家自然科学基金项目, 2017/08/17, 进行 光催化脱盐燃料电池中能质传递及转化特性研究, 国务院其他部门, 2018/06/12, 进行 基于光微流体技术的氢电联产光催化燃料电池研究, 国务院其他部门, 2017/05/08, 进行 电容性阳极光催化燃料电池的传质及产电特性研究, 其他课题, 2018/05/16, 进行 超高压力条件热输运机理研究, 国家自然科学基金项目, 2019/03/25-2019/03/25, 进行, 重点国际合作研究项目 高碳燃料简化化学反应动力学机理的构建及不确定性定量化研究, 国家自然科学基金项目, 2017/08/17, 进行
研究领域
太阳能界面蒸发海水淡化太阳能界面催化储氢-制氢太阳能重整制氢""
近期论文
[1]Zhang, Haotian,Li, Lin,Jiang, Bo,Zhang, Qian,Ma, Jing,Tang, Dawei,Song, Yongchen.Highly Thermally Insulated and Superhydrophilic Corn Straw for Efficient Solar Vapor Generation[J],ACS APPLIED MATERIALS & INTERFACES,2020,12(14):16503-16511 [2]Lin Li.Dual-film optofluidic microreactor with enhanced light-harvesting for photocatalytic applications,Chemical Engineering Journal,2018,339:71-74 [3]Yuan, Kunpeng,Zhang, Xiaoliang,Li, Lin,Tang, Dawei.Effects of tensile strain and finite size on thermal conductivity in monolayer WSe2[J],PHYSICAL CHEMISTRY CHEMICAL PHYSICS,2019,21(1):468-477 [4]Lin Li.Hydrogen production from ethanol steam reforming on Ni-Ce/MMT catalysts,Energy,2018,149:937-943 [5]Li, Lin,Jiang, Bo,Tang, Dawei,Zhang, Qian,Zheng, Zhouwei.Hydrogen generation by acetic acid steam reforming over Ni-based catalysts derived from La1-xCexNiO3 perovskite[J],INTERNATIONAL JOURNAL OF HYDROGEN ENERGY,2018,43(14):6795-6803 [6]Jiang, Bo,Goula, Maria A.,Li, Lin,Bian, Zhoufeng,Li, Ziwei,Sun, Yang,Sun, Zhehao,Tang, Dawei,Kawi, Sibudjing,Dou, Binlin.Chemical looping glycerol reforming for hydrogen production by Ni@ZrO2 nanocomposite oxygen carriers[J],INTERNATIONAL JOURNAL OF HYDROGEN ENERGY,2018,43(29):13200-13211 [7]Li, Lin,Jiang, Bo,Tang, Dawei,Zhang, Xiaoliang,Yuan, Kunpeng,Zhang, Qian.Alkaline treatment of used carbon-brush anodes for restoring power generation of microbial fuel cells[J],RSC ADVANCES,2018,8(64):36754-36760 [8]Li, Lin,Jiang, Bo,Tang, Dawei,Zheng, Zhouwei,Zhao, Cong.Hydrogen Production from Chemical Looping Reforming of Ethanol Using Ni/CeO2 Nanorod Oxygen Carrier[J],CATALYSTS,2018,8(7) [9]Li, Lin,Jiang, Bo,Sun, Zhehao,Zhang, Qian,Li, Duyu,Tang, Dawei.Hydrogen Production from Chemical Looping Steam Reforming of Ethanol over Perovskite-Type Oxygen Carriers with Bimetallic Co and Ni B-Site Substitution[J],CATALYSTS,2018,8(9) [10]Jiang, Bo,Li, Lin,Bian, Zhoufeng,Li, Ziwei,Othman, Mazen,Sun, Zhehao,Tang, Dawei,Kawi, Sibudjing,Dou, Binlin.Hydrogen generation from chemical looping reforming of glycerol by Ce-doped nickel phyllosilicate nanotube oxygen carriers[J],FUEL,2018,222:185-192 [11]Zhang, Qian,Li, Lin,Jiang, Bo,Wang, Kaiqiang,Tang, Dawei,Dou, Binlin.An intelligent oxygen carrier of La2-xSrxNiO4-lambda for hydrogen production by chemical looping reforming of ethanol[J],INTERNATIONAL JOURNAL OF HYDROGEN ENERGY,2017,42(27):17102-17111 [12]Li, Lin,Song, Yongchen,Jiang, Bo,Wang, Kaiqiang,Zhang, Qian.A novel oxygen carrier for chemical looping reforming: LaNiO3 perovskite supported on montmorillonite[J],ENERGY,2017,131:58-66 [13]Zhang, Qian,Li, Lin,Jiang, Bo,Tang, Dawei,Dou, Binlin.Hydrogen by chemical looping reforming of ethanol: The effect of promoters on La2-xMxNiO(4-lambda) (M = Ca, Sr and Ce) oxygen carriers[J],CHEMICAL ENGINEERING SCIENCE,2017,174:259-267 [14]Lin Li.A cascading gradient pore microstructured photoanode with enhanced photoelectrochemical and photocatalytic activities,Journal of Catalysis,2016,344:411-419 [15]Lin Li.Performance characteristics of a membraneless solar responsive photocatalytic fuel cell with an air-breathing cathode under different fuels and electrolytes and air conditions,Electrochimica Acta,2015,182:280-288 [16]Lin Li.Optofluidics based micro-photocatalytic fuel cell for efficient wastewater treatment and electricity generation,Lab on a Chip,2014,14(17):3368-3375 [17]Lin Li.High surface area optofluidic microreactor for redox mediated photocatalytic water splitting,International Journal of Hydrogen Energy,2014,39(33):19270-19276 [18]Lin Li.Optofluidic microreactors with TiO2-coated fiberglass,ACS Applied Materials & Interfaces,2013,5(23):12548-12553
