电子科学与技术系
电子科学与技术系
李翠平(副教授)
2023-03-01 16:44      审核人:

 

基本情况:

姓名:李翠平

学历学位:博士

职称:副教授

研究方向:(1)微纳光电子器件(2)光纤光子器件

邮箱:licp226@126.com

办公地点:29-204

所在团队名称:射频声表面波器件

团队负责人:李翠平

可招收硕博专业:电科学硕,集成电路科学与工程学硕、集成电路工程专硕,新一代信息技术专硕

 

项目:

1、高频ZnO/IDT/SiO2/金刚SAW乳腺癌抗原免疫传感器研究(61504096),国家自然科学基金,2016-01到2018-12,主持

2、基于双延迟线结构SAW器件的Love波生物传感器(16JCYBJC16300),天津科委自然基金面上项目,2017-04到2019-04,主持

3、"AlN/金刚石/硅"多层膜结构高频SAW滤波器的设计与制备(16JCTPJC50800),天津科委科技计划项目(科技特派员项目),2016-09到2017-06,主持

4、基于金刚石多层膜结构的Love模式SAW生物传感器研究(2018KJ131),天津市教委科研计划项目,2018年10月-2021年9月,主持

5、稀土元素扩散技术的研究和开发,安徽瀚海新材料有限公司,横向,2014-12到2016-12,主持

6、门座式起重机高清视频无限回传,天津艾特维科技有限公司,横向,2015-04到2016-04,主持

7、自动化集装箱码头摄像机自动跟焦控制,天津艾特维科技有限公司,横向,2018-07到2019-07,主持

8、基于纳米强织构薄膜及纳米压印关键技术的层状声表面波滤波器研发,广东省重点领域研发计划项目子课题,2020.6~2023.6,参与

9、超高频、宽带、高性能声表面波滤波器设计,天津科委科技特派员项目,2019.10-2020.9,参与

10、高世代声表面波滤波器关键制作技术(2016YFB0402703),国家重点研发计划,2016年7月到2020 年12月,参与

11、基于AlxB1-xN复合薄膜微波段SAW滤波器的构建及压电互补机理,自然科学基金,2015-01到2017-12,参与

12、手机前段用射频高性能生表面波滤波器技术(2013AA030801),国家863目标导向类项目子课题,2012-10到2015-09,参与

 

论文:

[1] Su Y, Li C. P.*, Li M, Li H, Xu S, Qian L, et al. Surface acoustic wave humidity sensor based on three-dimensional architecture graphene/PVA/SiO2 and its application for respiration monitoring. Sensors and Actuators B-Chemical 308 (2020).

[2] Yan X, Li C. P.*, Zhao L, Tian S, Zhang Z, Li M, et al. Surface acoustic wave relative humidity sensor based on sputtering SiO2 film. Surface and Interface Analysis 53 (2021) 867-75.

[3] Wang Y-Y, Li C-P*, Ma J, Yan X-P, Qian L-R, Yang B-H, et al. Theorectical optimazation of surface acoustic waves resonator based on 30Y-Cut Linbo3/SIO2/SI multilayered structure.  15th Symposium on Piezoelectricity, Acoustic Waves and Device Applications, SPAWDA , 2021. p. 555-9.

[4] Huang X, Li C. P.*, Qian L, Li M, Li H, Niu X, et al. Improved ethanol vapor sensing properties of sputtered ZnO films by doping Ta. Materials Today Communications 21 (2019).

[5] Qian J, Li C. P.*, Qian L, Li M, Li H, Yang B. Three-dimensional finite element simulation of Love mode surface acoustic wave in layered structures including ZnO piezoelectric film and diamond substrate. Diamond and Related Materials 88 (2018) 123-8.

[6] Cao F, Li C. P.*, Li M, Li H, Yang B. ZnO nanorod/multi-walled carbon nanotube nanocomposite for ethanol vapour detection. Micro & Nano Letters 13 (2018) 779-83.

[7] Cao F, Li C. P.*, Li M, Li H, Huang X, Yang B. Direct growth of Al-doped ZnO ultrathin nanosheets on electrode for ethanol gas sensor application. Applied Surface Science 447 (2018) 173-81.

[8] Wu Y, Li C. P.*, Li M, Li H, Xu S, Wu X, et al. Microstructural and optical properties of Ta-doped ZnO films prepared by radio frequency magnetron sputtering. Ceramics International 42 (2016) 10847-53.

[9] Shi C, Li C. P.*, Li M, Li H, Dai W, Wu Y, et al. Fabrication of porous boron-doped diamond electrodes by catalytic etching under hydrogen–argon plasma. Applied Surface Science 360, Part A (2016) 315-22.

[10] Li C. P., Dai W, Li M, Li H, Xu S, Wu X, et al. Effect of sputtered titanium interlayers on the properties of nanocrystalline diamond films. Journal of Applied Physics 119 (2016) 135306.

[11] Shi C, Li H, Li C. P.*, Li M, Qu C, Yang B. Preparation of TiO2/boron-doped diamond/Ta multilayer films and use as electrode materials for supercapacitors. Applied Surface Science 357, Part B (2015) 1380-7.

[12] Li C. P., Dai W, Xu S, Li X, Gao C, Chen X, et al. Local Piezoelectric Properties and Polarity Distribution of ZnO Films Deposited at Different Substrate Temperatures. Journal of Electronic Materials 44 (2015) 1095-9.

[13] Qian L, Li C. P.*, Li M, Wang F, Yang B. Theoretical investigation of surface acoustic wave propagation characteristics in periodic (AlN/ZnO)(N)/diamond multilayer structures. Applied Physics Letters 105 (2014).

[14] Li C. P., Dai W, Qian L, Li M, Sun D, Gao C, et al. Effect of metallic seed layers on the properties of nanocrystalline diamond films. Diamond and Related Materials 49 (2014) 48-54.

[15] Li C. P., Yang BH, Wang XC, Wang F, Li MJ, Su L, et al. Influence of sputter-etching of substrate on the microstructural and optical properties of ZnO films deposited by RF magnetron sputtering. Applied Surface Science 257 (2011) 5998-6003.

[16] Li C. P., Yang B. Local Piezoelectricity and Polarity Distribution of Preferred c-Axis-Oriented ZnO Film Investigated by Piezoresponse Force Microscopy. Journal of Electronic Materials 40 (2011) 253-8.

著作

1、《金刚石膜制备与应用》,科学出版社,ISBN:978-7-03-041822-7,参与写作

发明专利

 

专利:

1.一种低表面粗糙度纳米金刚石膜的制备方法(ZL201610191161.2),授权时间2018.06.01