刘思思
更新时间:2023-09-21一、个人基本情况
姓 名:刘思思
性 别:女
学 位:博士
职 称:特设副教授
所在系:物理系
电子邮件:liusisi0109@whut.edu.cn
联系电话:13006126758
二、教育背景与工作经历
2024/02‐至今, 武汉理工大学, 特设副教授
2021/09‐2024/02, 武汉理工大学, 讲师
2018/09‐2021/07, 华中科技大学, 博士后
2013/09‐2018/06, 华中科技大学, 光学工程, 博士
2011/09‐2013/06, 华中科技大学, 软件工程, 硕士
2007/09‐2011/06, 武汉科技大学, 材料成型及控制工程, 学士
三、研究方向
低维光电材料、太阳能电池、光电探测器
四、教学研究
主要讲授“大学物理”、“光电半导体材料与器件” 、“新型光电材料与半导体器件”、“光电传感器原理与应用”等课程。
五、科学研究
主要从事各类半导体纳米材料及其复合材料的制备、物化特性调控;紫外高性能光电探测器结构设计与性能研究;量子点红外光电子器件性能研究与结构计。所得成果在advanced functional materials,acs nano,nano-micro letters等国际一流期刊发表学术论文30余篇,其中作为第一作者或通讯作者发表15篇。中国发明专利2 项。近五年来先后主持国家自然科学基金青年项目1项及博士后面上项目1项。
六、部分代表性论文
(1)s. liu, m.-y. li, k. xiong, j. gao, x. lan, d. zhang, l. gao, j. zhang & j. tang, efficient quantum dot infrared solar cells with enhanced low-energy photon conversion via optical engineering, nano research, 2023, 16: 2392-2398.
(2)y. wang, m.-y. li *, s. liu, y. ma, b. sun, l. wang, h. lu , x. wen, s. liu* and x. ding, a novel strategy for the synthesis of high stability of luminescent zero dimensional–two dimensional cspbbr3 quantum dot/1,4-bis(4-methylstyryl)benzene nanoplate heterostructures at an atmospheric condition, nanomaterials 2023, 13, 2723
(3)s. liu, h. li, h. lu, y. wang, x. wen, s. deng, m-y li* , s. liu*, c. wang* and x. li, high performance 0d zno quantum dot/2d (pea)2pbi4 nanosheet hybrid photodetectors fabricated via a facile antisolvent method, nanomaterials 2022, 12, 4217
(4)s. liu, k. xiong, k. wang, g. liang, m.-y. li, h. tang, x. yang, z. huang, l. lian, m. tan*, k. wang, l. gao, h. song, d. zhang, j. gao, x. lan, j. tang and j. zhang*, efficiently passivated pbse quantum dot solids for infrared photovoltaics, acs nano 2021, 15(2): 3376-3386.
(5)s. liu, c. zhang, s. li, y. xia, k. wang, k. xiong, h. tang, l. lian, x. liu, m.-y. li, m. tan, l. gao, g. niu, h. liu, h. song, d. zhang, j. gao, x. lan, k. wang, x. w. sun, y. yang, j. tang and j. zhang*, efficient infrared solar cells employing quantum dot solids with strong inter-dot coupling and efficient passivation, advanced functional materials 2020, 2006864.
(6)s. liu, m.-y. li*, j. zhang, d. su, z. huang, s. kunwar, j. lee, self-assembled al nanostructure/zno quantum dot heterostructures for high responsivity and fast uv photodetector, nano-micro letters 2020, 12: 114.
(7)m.-y. li, s. liu*, z. huang, y. ai, k. shen, h. lu, m. li, j. wu*. facile fabrication of ultrasensitive honeycomb nano-mesh ultraviolet photodetectors based on self-assembled plasmonic architectures. acs applied materials & interfaces, 2021,13, 35972 - 35980.
(8)m.-y. li, k. shen, h. xu*, a. ren, j. lee, s. kunwar, s. liu* and j. wu*, enhanced spatial light confinement of all inorganic perovskite photodetectors based on hybrid plasmonic nanostructures, small 2020, 2004234.
(9)m.-y. li, m. yu, d. su, j. zhang, s. jiang, j. wu, q. wang, s. liu*, ultrahigh responsivity uv photodetector based on cu nanostructure/zno qd hybrid architectures, small 2019, 15: 1901606.
(10)s. liu, m.-y. li*, d. su, m. yu, h. kan, h. liu, x. wang, s. jiang*, broad-band high-sensitivity zno colloidal quantum dots/self-assembled au nanoantennas heterostructures photodetectors, acs applied materials & interfaces 2018, 10(38): 32516~32525.
(11)s. liu, b. li, h. kan, m.-y. li, b. xie, s. jiang, x. zhu, enhanced sensitivity and response speed of graphene oxide/zno nanorods photodetector fabricated by introducing graphene oxide in seed layer, journal of materials science: materials in electronic 2017, 28: 15891-15898.
(12)s. liu, b. li, h. kan, h. liu, b. xie, x. zhu, y. hu, s. jiang, low temperature in-situ preparation of reduced graphene oxide/zno nanocomposites for highly sensitive photodetectors, journal of materials science: materials in electronic 2017, 28: 9403-9409.
七 主要科研项目
(1)国家自然科学基金青年项目,62204180,2023.01-2025.12,30 万元,在研,主持
(2)中国博士后科学基金面上资助,2019m662594,2019.09-2021.8,8 万元,结题,主持
(3)国家自然科学基金面上项目,61974052,2020.01-2023.12,63万元,在研,参与