一、个人基本资料
姓名:饶华商
性别:男
出生年月:1989年7月
籍贯:江西
二、亚博平台下载的联系方式
邮箱:raohsh@scau.edu.cn
通讯地址:华南农业大学材料与能源学院
邮编:510642
三、个人简述
饶华商,博士,硕士生导师。2017年在中山大学获得工学博士学位,目前主要从事新型(钙钛矿/量子点)太阳电池相关的材料开发与器件研制工作。2019年,荣获广东省自然科学一等奖(7/9);近年来,在adv. mater.、adv. funct. mater.、nano energy等国际著名期刊上发表60余篇论文,其中有8篇论文入选“esi高被引论文”,论文总引用4000余次;申请、授权10项发明专利;参与《染料敏化太阳能电池——从理论基础到技术应用》一书的编撰工作。主持国家自然科学基金面上项目、青年基金项目各一项、华南农业大学青年科技人才培育专项基金一项,并参与多项国家与地方自然科学基金项目;获广州市科协青年人才托举工程项目资助。主要承担《无机及分析化学》《太阳能工程》理论课与实验课的教学工作,在2018年度材料与能源学院第三届青年教师教学观摩竞赛中获得第一名。
四、教育背景
2012.08-2017.06 工学博士 中山大学 材料物理与化学
2008.09-2012.06 理学学士 中山大学 化学
五、工作经历
2017.07-2021.01 华南农业大学,材料与能源学院,首聘副教授
2021.01-至今 华南农业大学,材料与能源学院,副教授
六、科研方向
钙钛矿太阳电池
无机钙钛矿
无机纳米材料设计与制备
七、期刊论文(一作/通迅)
2023年
[1] liao, y.; zhang, j.; wang, w.; yang, z.; huang, r.; lin, j.; che, l.; yang, g.; pan, z.; rao, h.; zhong, x., anti-dissociation passivation via bidentate anchoring for efficient carbon-based cspbi2.6br0.4 solar cells. adv. funct. mater. 2023, 2214784.
[2] zhang, j.; zhang, g.; liao, y.; pan, z.; rao, h.; zhong, x., interfacial energy-level alignment via poly-3-hexylthiophene-cspbi3 quantum dots hybrid hole conductor for efficient carbon-based cspbi2br solar cells. chem. eng. j. 2023,453, 139842.
[3] zhang, g.; zhang, j.; pan, z.; rao, h.; zhong, x., enhancing hole extraction via carbon nanotubes/poly(3-hexylthiophene) composite for carbon-based cspbi2br solar cells with a new record efficiency. sci. china mater. 2023, doi: 10.1007/s40843-022-2343-7.
2022年
[4] zhang, g.; zhang, j.; yang, z.; pan, z.; rao, h.; zhong, x., role of moisture and oxygen in defect management and orderly oxidation boosting carbon-based cspbi2br solar cells to a new record efficiency. adv. mater. 2022,34 (40), 2206222.
[5] zhang, g.; zhang, j.; liao, y.; pan, z.; rao, h.; zhong, x., cs2sni6 nanocrystals enhancing hole extraction for efficient carbon-based cspbi2br perovskite solar cells. chem. eng. j. 2022,440, 135710.
[6] yang, z.; zhang, g.; zhang, j.; pan, z.; yang, s.; liu, b.; rao, h.; zhong, x., synergistic passivation by alkali metal and halogenoid ions for high efficiency htm-free carbon-based cspbi2br solar cells. chem. eng. j. 2022,430, 133083.
[7] xu, s.; kang, c.; huang, z.; zhang, z.; rao, h.; pan, z.; zhong, x., dual functional quantum dot seeding growth of high-quality air-processed cspbi2br film for carbon-based perovskite solar cells. solar rrl 2022,6 (1), 2100989.
[8] qi, c.; pan, z.; rao, h.; zhong, x., free-standing 3d nitrogen-doped graphene/co4n aerogels with ultrahigh sulfur loading for high volumetric energy density li-s batteries. j. alloy. compd. 2022,901, 163625.
2021年
[9] zhang, g.; xie, p.; huang, z.; yang, z.; pan, z.; fang, y.; rao, h.; zhong, x., modification of energy level alignment for boosting carbon-based cspbi2br solar cells with 14% certified efficiency. adv. funct. mater. 2021,31 (19), 2011187.
[10] wang, w.; lin, y.; zhang, g.; kang, c.; pan, z.; zhong, x.; rao, h., modification of compact tio2 layer by ticl4-ticl3 mixture treatment and construction of high-efficiency carbon-based cspbi2br perovskite solar cells. j. energy chem. 2021,63, 442.
[11] qi, c.; zhouhong, y.; pan, z.; zhong, x.; rao, h., lightweight free-standing 3d nitrogen-doped graphene/tin aerogels with ultrahigh sulfur loading for high energy density li–s batteries. acs appl. energy mater. 2021,4 (8), 7599.
2018-2020年
[12] rao, h.; zhou, m.; pan, z.; zhong, x., quantum dot materials engineering boosting the quantum dot sensitized solar cell efficiency over 13%. j. mater. chem. a 2020,8 (20), 10233.
[13] song, h.; rao, h.; zhong, x., recent advances of electrolyte in quantum dot-sensitized solar cells. j. mater. chem. a 2018,6 (12), 4895.
[14] huang, d.; xie, p.; pan, z.; rao, h.; zhong, x., one-step solution deposition of cspbbr3 based on precursor engineering for efficient all-inorganic perovskite solar cells. j. mater. chem. a 2019,7 (39), 22420.
[15] cheng, q.; yin, z.; pan, s.; zhang, g.; pan, z.; yu, x.; fang, y.; rao, h.; zhong, x., enhancing adsorption and reaction kinetics of polysulfides by cop coated n-doped mesoporous carbon for high-energy-density lithium-sulfur batteries. acs appl. mater. interfaces 2020,12 (39), 43844.
[16] xie, p.; zhang, g.; yang, z.; pan, z.; fang, y.; rao, h.; zhong, x., perovskite-compatible carbon electrode improving the efficiency and stability of cspbi2br solar cells. solar rrl 2020,4 (9), 2000431.
[17] yin, z.; pan, s.; cheng, q.; zhang, g.; yu, x.; pan, z.; rao, h.; zhong, x., mild-method synthesised rgo–tio2 as an effective polysulphide–barrier for lithium–sulphur batteries. j. alloy. compd. 2020,836, 155341.
[18] pan, s.; yin, z.; cheng, q.; zhang, g.; yu, x.; pan, z.; rao, h.; zhong, x., bifunctional tis2/cnt as efficient polysulfide barrier to improve the performance of lithium–sulfur battery. j. alloy. compd. 2020,832, 154947.
[19] song, h.; pan, z.; rao, h.; zhong, x., tio2 hierarchical nanowire-p25 particulate composite photoanodes in combination with n-doped mesoporous carbon/ti counter electrodes for high performance quantum dot-sensitized solar cells. sol. energy 2019,191, 459.
2014-2017年
[20] rao, h.-s.; li, w.-g.; chen, b.-x.; kuang, d.-b.; su, c.-y., in situ growth of 120 cm2 ch3nh3pbbr3 perovskite crystal film on fto glass for narrowband-photodetectors. adv. mater. 2017,29 (16), 1602639.
[21] rao, h.-s.; chen, b.-x.; wang, x.-d.; kuang, d.-b.; su, c.-y., a micron-scale laminar mapbbr3 single crystal for an efficient and stable perovskite solar cell. chem. commun. 2017,53 (37), 5163.
[22] rao, h.-s.; chen, b.-x.; li, w.-g.; xu, y.-f.; chen, h.-y.; kuang, d.-b.; su, c.-y., improving the extraction of photogenerated electrons with sno2 nanocolloids for efficient planar perovskite solar cells. adv. funct. mater. 2015,25 (46), 7200.
[23] rao, h.-s.; wu, w.-q.; liu, y.; xu, y.-f.; chen, b.-x.; chen, h.-y.; kuang, d.-b.; su, c.-y., cds/cdse co-sensitized vertically aligned anatase tio2 nanowire arrays for efficient solar cells. nano energy 2014,8 (0), 1.
八、主持科研项目
[1] 国家自然科学基金面上项目,2023/01-2026/12,在研,主持;
[2] 广州市基础研究计划基础与应用基础研究项目, 2013/04-2025/03,在研,主持;
[3] 国家自然科学基金青年基金项目,2019/01-2021/12,结题,主持;
[4] 广州市科协青年人才托举工程,2021.03-2023.03,在研,主持
[5] 华南农业大学青年科技人才培育专项基金,2018/01-2019/12,结题,主持;
[6] 华南农业大学高层次引进人才科研启动项目,2017/07-,在研,主持;
