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姓名:曹媛媛             

职称:副研究员

电子邮箱:caoyy@szu.edu.cn 

QQ:346295721             

联系电话:+86-755-26656730                                 

研究领域:高灵敏生物分子传感器研究;

                 新型纳米材料传感器研究;

                 纳米表面结构生长机制研究.

学位:2013年6月获得中山大学凝聚态物理专业理学博士


主持项目:

(1)广东省自然科学基金面上项目,基于氧化石墨烯边缘嵌入式纳米表面的核酸碱基分子传感系统研究,No.2021A1515011077,2021年1月~2023年12月,项目负责人。

(2)国家自然科学基金青年项目,半导体核-壳异质结纳米线生长的热力学理论,No.11404217,2015年1月~2017年12月,项目负责人。
(3)国家自然科学基金面上项目,高密度石墨烯边缘嵌入式纳米表面的低摩擦高效率发电原理研究,No.51575359,2016年1月~2019年12月,参与人。
(4)国家自然科学基金青年项目,诱导纳晶石墨烯生长的电子能量分布与碳基团密度在线诊断研究,No.11605115,2016年1月~2018年12月,参与人。
(5)深圳市基础研究学科布局项目,低能电子照射下二维材料边缘嵌入式纳米表面的设计制造及应用研究,JCYJ20160427105015701,2016年7月~2019年6月,子课题负责人。

(6)深圳大学青年教师科研启动项目,晶格失配及组分掺杂调控核-壳纳米线异质结构表面粗化的热力学理论,No.201440,2014年6月~2016年5月,项目负责人。


代表性论著:

SCI论文:

   (1)Kaikai Sun, Haohua Zhong, Yuanyuan Cao*,The O-doped layer under electron irradiation induced high sensitivity simultaneous electrochemical determination of colorants in the graphene intercalated carbon film, Diamond & Related Materials, accepted.

    (2) Ruiqi Ming, Senyu Yang,  Ye Jiang,  Chunchun An,  Yuhua Yang, Dongfeng Diao, Yuanyuan Cao,*  Tongsheng Chen,  Xinlei Li*, Applied Physics Letters, 2022,120:063702.

    (3) Yuanyuan Cao, Liangliang Huang and Dongfeng Diao*, High electrochemical activity induced by doping oxygen in graphene sheets embedded carbon film,Advanced Materials interfaces, 2020,2000694.    

    (4) Liangliang Huang, Yuanyuan Cao*, Dongfeng Diao*, Surface N-doped graphene sheets induced high electrocatalytic activity for selective ascorbic acid sensing, Sensors & Actuators: B. Chemical, 2019, 283, 556–562.

    (5) Yuanyuan Cao, Dongfeng Diao*, Physical mechanism of surface roughening on the radial core-shell nanowire heterostructure with alloy shell, AIP Advances, 2017, 7: 055006.

    (6) Yuanyuan Cao, Guowei. Yang*, A nanoscale temperature-dependent heterogeneous nucleation theory, Journal of Applied Physics, 2015, 117 (22), 224303.

    (7) Yuanyuan Cao, Gang Ouyang, Chenxin Wang, Guowei. Yang*,Physical Mechanism of Surface Roughening of the Radial Ge-Core/Si-Shell Nanowire Heterostructure and Thermodynamic Prediction of Surface Stability of the InAs-Core/GaAs-Shell Nanowire Structure, Nano Letters, 2013, 13 (2), 436-443.

    (8) Yuanyuan Cao, Guowei. Yang*, Temperature-dependent preferential formation of quantum structures upon the droplet epitaxy, Applied Physics Letters, 2012, 100 (15), 151909.

    (9) Yuanyuan Cao, Guowei. Yang*, Vertical or Horizontal: Understanding Nanowire Orientation and Growth from Substrates, The Journal of Physical Chemistry C, 2012, 116 (10), 6233-6238.

    (10) Yuanyuan Cao, Guowei. Yang*, Thermal stability of wetting layer in quantum dot self-assembly, Journal of Applied Physics, 2012, 111 (9), 093526.

    (11) Yuanyuan Cao, Xinlei Li, Guowei. Yang*, Physical mechanism of quantum dot to quantum ring transformation upon capping process, Journal of Applied Physics, 2011, 109 (8), 083542.

    (12) Yuanyuan Cao, Xinlei Li, Guowei. Yang*, Wetting layer evolution upon quantum dots self-assembly, Applied Physics Letters, 2009, 95 (23), 231902.

    (13) Liangliang Huang, Yuanyuan Cao, Dongfeng Diao*, Nanosized graphene sheets induced high electrochemical activity in pure carbon film, Electrochimica Acta,   2018, 262 (1), 173-181.

    (14) Liangliang Huang, Yuanyuan Cao, Dongfeng Diao*, N-doped graphene sheets induced high electrochemical activity in carbon film, Applied Surface Science, 2019, 470, 205–211.


会议论文:

(1) YuanyuanCao, Kaikai Sun, Haohua Zhong, and Dongfeng Diao, High Electrochemical Activity of Oxygen-Doped Graphene Sheets Embedded Carbon Film, Weihai, China, 2021.12.3-5, oral.

(2) YuanyuanCao, Haohua Zhong, Kaikai Sun, Dongfeng Diao*, Fabrication of multi-element bonded graphene edges on carbon film surface and its biosensor application, The 1st “Carbon2”Tribology Forum, Shenzhen-Nagoya, 2021.11.04, oral.

(3)YuanyuanCao*, Kaikai Sun, Haohua Zhong, and Dongfeng Diao*, High Electrochemical Activity of Oxygen-Doped Graphene Sheets Embedded Carbon Film, 中国微米纳米技术学会第二十三届学术年会暨第十二届国际会议, 2021.12.05-13, 线上,口头报告。

(4)YuanyuanCao*Fabrication of carbon nanosurface with low energy electron and its biosensor application, 先进传感与智能制造国际青年学者论坛, 2021.10.29-31, Nanjing, China,oral.

(5)YuanyuanCao*, 边缘嵌入式纳米表面的生物传感研究, 海峡两岸暨港澳青年科学家智能可穿戴技术创新论坛,

2020.12.11-14, 深圳,中国,口头报告。

(6) YuanyuanCao,DongfengDiao*,Thermodynamic Theory on Surface Roughness during the Epitaxial growth of SixGe1-x Coating On SiNanowire Substrate,The 6th World Tribology Congress, Beijing, China, 2017.9.17-22(The Best Poster Award).


获得荣誉:


2019.07 全国高等学校教师图学与机械课程示范教学与创新教学法观摩竞赛 三等奖

2018.06 深圳市后备级人才

2017.09 第六届世界摩擦学大会(WTC)最佳墙报奖

2016.02 功能纳米材料与低维物理的应用基础研究,广东省自然科学一等奖