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彭英 正高级 (pengying@guet.edu.cn)    

beat365体育亚洲入口    

硅基薄膜与器件;能源材料与器件;锂电;

个人简介
received a Ph.D. degree from Nagoya University, Japan. He is currently working as a teacher in Guilin University of Electronic Technology. His research interests include the performance enhancement of silicon and germanium film materials at low temperatures and the design, fabrication, and modeling of thin film energy devices.
教育背景
2000.09 ~ 2004.07   机械设计制造及其自动化专业,桂林电子工业学院,本科   
2005.08 ~ 2008.08   测试计量技术与仪器专业,beat365体育亚洲入口,工学硕士
2016.09 ~ 2017.03   研究学者,日本名古屋工业大学
2017.04 ~ 2020.03   物质科学专业,日本名古屋大学,工学博士
博士论文题目Investigation on Thermoelectric Properties Improvement of  Group IV Alloy 
Thin Films  (IV 族混晶薄膜の熱電特性改善に関する研究)
2019.09 ~ 2019.12   访问学者,南方科技大学
2020.04 ~ 2021.01   博士后,日本丰田工业大学  

工作经历

2004.08 ~ 2012.7 辅导员/团委书记,电子工程学院, beat365体育亚洲入口 

2012.07 ~ 2016.07 办公室主任,材料科学与工程学院,beat365体育亚洲入口 

2016.08 ~ 2021.07 教师,材料科学与工程学院,beat365体育亚洲入口 

2021.07 ~ 今 教师,信息与通信学院,beat365体育亚洲入口

主要荣誉
教育教学获奖:
1. 学科引领四方协同的材料类高素质创新人才培养的探索与实践,广西高等教育教学成果二等奖,排名10/32,获奖时间:2019年。
2. 基于成果导向的材料科学与工程专业人才培养模式研究与实践,广西高等教育教学成果二等奖,排名15/19,获奖时间:2019年。
3. 基于卓越人才培养的高校产学合作教育运行机制研究, beat365体育亚洲入口教学成果奖三等奖,排名3/9,获奖时间:2017年。

学术活动

国际会议学术报告 

1.Ying Peng, Masashi Kurosawa, Osamu Nakatsuka, Lei Miao,Takahiro Ishizaki, “Enhance thermoelectric performance in p-type Si1-x-yGexSny thin films at ambient temperature by Sn modulation doping”, INTERFINISH 2020, September 6-8, 2021, Nagoya, Japan. 

2.Ying Peng, Osamu Nakatsuka, Masashi Kurosawa, “Improvement of thermoelectric properties of Si1-x-yGexSny thin films by ion implantation and rapid thermal annealing”, International Conference on Materials and Systems for Sustainability 2019,1-3 Nov. 2019, Nagoya, Japan. 

3.Ying Peng, Lei Miao, JieGao, Osamu Nakatsuka, Masashi Kurosawa, Shigeaki Zaima, “Tin-incorporation effect on thermoelectric properties of p-type polycrystalline Si1-xGex layers grown on SiO2”, The Eleventh International Conference on High-performance Ceramics (CICC-11), 25-29 May 2019 Kunming China. 

4.Ying Peng, Lei Miao, JieGao, Osamu Nakatsuka, Masashi Kurosawa, Shigeaki Zaima, “Realizing High Thermoelectric Performance at Ambient Temperature by Ternary Alloying in Polycrystalline Si1-x-yGexSny Thin Films with Boron Ion Implantation”, International Seminar on Thermoelectric Materials and Devices Program schedule, 23-25 May 2019, GuiLin, China.

5.Ying Peng, Masashi Kurosawa, Osamu Nakatsuka, Jie Gao, Lei Miao, and Shigeaki Zaima, “Thermoelectric Performance of Polycrystalline Si1-x-yGexSny Ternary Alloy Layer Prepared with Ion Implantation”,14th International Conference on Atomically Controlled Surfaces, Interfaces and Nanostructures (ACSIN-14),25-28 Oct. 2018, Sendai, Japan. 

6.Ying Peng, Lei Miao, Chao Li, Rong Huang, Daisuki Urushihara, Toru Asaka, Masashi Kurosawa, Osamu Nakatsuka, and Shigeaki Zaima, “Fabrication and Thermoelectric Mechanism Study of Flexible Si1-xGex Superlattice Films”, International Seminar on Thermoelectric Materials and Devices Program schedule, Set 29-Oct1,2017, Nagoya, Japan. 

7.Ying Peng, Lei Miao, Chao Li, Osamu Nakatsuka, “Thermoelectric Property of Si/Ge Multilayered Quantum Dot Films Prepared By RF Magnetron Sputtering Using B Buffer Layer”, ISPlasama 2017/IC-PLANTS 2017, March 1-5, 2017 Kasugai, Japan. 

8.Ying Peng, “Silicon quantum dots fabricated by magnetron sputtering and advantaged rapid thermal annealing process”, Nano-structure and self assembling, July 3-8,2016, Naxos, Italy.

教学信息
《半导体功能材料与器件》双语课程;《新能源材料与器件》,《数字逻辑》。
主要论文

1.Y. Peng, L.Miao*, C.Y. Liu, H.Song, M.Kurosawa, O. Nakatsuka, S.Y. Back, J. S. Rhyee, M.Murata, S. Tanemura, T. Baba, T. Baba, T. Ishizaki, T. Mori*. Constructed Ge quantum dots and Sn precipitate SiGeSn hybrid film with high thermoelectric performance at low temperature region. Advanced Energy materials,2021, 2103191. (国际顶级期刊,中科院一区top,JCR1区top, IF 29.4)

2.J. Nong, Y. Peng*, C. Liu, J. B. Shen, Q. Liao, Y.L . Chiew, Y. Oshima, F. C. Li, Z. W. Zhang, and L. Miao*, Ultra-low thermal conductivity in B2O3 composited SiGe bulk with enhanced thermoelectric performance at medium temperature region. J. Mater. Chem. A. (2022, Accepted IF12.7)

3. S. Zhu#, Y. Peng#, J. Gao, L. Miao*, H. Lai, C. Liu, J. Zhang, Y. Zhang, S. Zhou, K. Koumoto, T. Zhu*, Simultaneous Realization of Flexibility and Ultrahigh Normalized Power Density in a Heatsink-Free Thermoelectric Generator via Fine Thermal Regulation. ACS Appl.Mater. Interfaces (2021), doi:10.1021/acsami.1c20367.(IF 9.3)

4.H.J.Lai,# Y. Peng,# J. Gao, H. Song, M. Kurosawa, O.Nakatsuka, T. Takeuchi, and L. Miao*.Reinforcement of power factor in N-type multiphase thin film of Si1-x-yGexSny by mitigating the opposing behavior of Seebeck coefficient and electrical conductivity. Applied Physics Letters, 119, 113903 (2021). (共同一作,JCR 2区,IF 3.8) 

5.Y. Peng, S. Zhu, H.J.Lai, J. Gao, M. K, O. Nakatsuka, S. Tanemura, B.L. Peng and L. Miao*. No external load measurement strategy for micro thermoelectric generator based on high-performance Si1−x−yGexSny film. Journal of Materiomics,7 (2021) 665e671.(JCR 1区,IF 6.4) 

6.Peng, Y., Lai, H., Liu, C., Gao, J., Kurosawa, M., Nakatsuka, O., Takeuchi, T., Zaima, S., Tanemura, S., and Miao, L*. Realizing high thermoelectric performance in p-type Si1-x-yGexSny thin films at ambient temperature by Sn modulation doping. Applied Physics Letters, 117, 053903. (2020). (JCR 2区,IF 3.8) 

7.Y. Peng, L. Miao, J. Gao, C. Liu, M. Kurosawa*, O. Nakatsuka*, S. Zaima, Realizing High Thermoelectric Performance at Ambient Temperature by Ternary Alloying in Polycrystalline Si1-x-yGexSny Thin Films with Boron Ion Implantation. Scientific Reports. 9 (2019), doi:10.1038/s41598-019-50754-4. (JCR 1区,IF 4.4) 

8.Y. Peng, L. Miao*, C. Li, R. Huang, D. Urushihara, T. Asaka, O. Nakatsuka, S. Tanemura, Improved thermoelectric property of B-doped Si/Ge multilayered quantum dot films prepared by RF magnetron sputtering. Japanese Journal of Applied Physics. 57, 01AF03 (2018). (JCR 4区,IF 1.7) 

9.Y. Peng, Research of thermal analysis collaboratively using ANSYS Workbench and SolidWorks, Applied Mechanics and Materials, 2012,(Volume 127),262-266.(EI) 

10. W.X. XU, Z.W. ZHANG, C.Y. LIU,*, J. GAO, Z.Y. YE,C.G. CHEN, Y.PENG, X.b. BAI, L.MIAO,Substantial thermoelectric enhancement achieved by manipulating the band structure and dislocations in Ag and La co-doped SnTe,Journal of Advanced Ceramics 2021, 10(4): 860–870 (IF 7.1)


11.P.F. Wang, J.H. Zhang, P. Ying, X.L. Hu, L. Miao*,T.H. Ishizaki*,Recent progress of carbon-based electrocatalytic materials in Lithium-based,Sustainable Materials and Technologies batteries,2021,https://doi.org/10.1016/j.susmat.2021.e00384.(IF 7.05)


12.D. Wangyang, X. Zhouhong, L. Jiayu, L.Mingyang, B. Liang; Z. Qi, Z. Xin; P. Ying*,Miao, Lei*,The excited state properties of layered two-dimensional MSi2N4 (M = Mo, Cr and W)  materials from first-principles calculations,2022,( Accepted,IF 2.02).

13. Z. Zhang, W. Xu, C. Liu*, F. Li, H. Yang, X. Wang, J. Gao, C. Chen, Q. Zhang, J. Liu, X. Bai, Y. Peng, L. Miao*, Manipulating the Solubility of SnSe in SnTe by Br Doping for Improving the Thermoelectric Performance. ACS Appl. Energy Mater. 4, 13027–13035 (2021).(IF 4.5)

14.L. Miao, * Y. Peng, D.H. Wang, J.H. Liang, C.H.o Hu, Eiji Nishibori, L.X. Sun,Craig A. J. Fisher and S. Tanemura *. Characterisation of the temperature-dependent M1 to R phase transition in W-doped VO 2 nanorod aggregates by Rietveld refinement and theoretical modelling. Physical Chemistry Chemical Physics 22, 7984-7994. (JCR 2区,IF 3.7) 

15.H.J. Lai, Y. Peng, J. Gao, M. Kurosawa, O. Nakatsuka, T. Takeuchi, and L.Miao. Silicon-based low-dimensional materials for thermal conductivity suppression: recent advances and new strategies to high thermoelectric efficiency. Japanese Journal of Applied Physics 60, SA0803. (JCR 4区,IF 1.7) 

16.Z.W Zhang, W.J. Xu, C.Y. Liu,* F.C. Li, H.Q. Yang, X.Y. Wang, J. GaO, C. Chen, Q. Zhang, J. Liu, X.B. Bai, Y. Peng, and L.Miao*.Manipulating the Solubility of SnSe in SnTe by Br Doping for Improving the Thermoelectric Performance. ACS Applied Energy Materials, https://doi.org/10.1021/acsaem.1c02442. (JCR 2区,IF 4.5) 

17.W.J. Xu, Z.W Zhang , C.Y. Liu,* J. GaO, Z.Y. Ye, C.G. Chen, Y. Peng, X.B. Bai, L.Miao*. Substantial thermoelectric enhancement achieved by manipulating the band structure and dislocations in Ag and La co-doped SnTe. Journal of Advanced Ceramics, 2021, 10(4): 860–870.( JCR 3区,IF 6.7) 

18.J. Gao, L.Miao*, H. Lai, S. Zhu, Y. Peng, X.Wang, K. Koumoto, Thermoelectric Flexible Silver Selenide Films:Compositional and Length Optimization, iScience 23, 100753, January 24, 2020. (JCR 1区,IF 5.4) 

19.J. Gao, L. Miao*, C. Liu, X. Wang, Y. Peng, X. Wei, J. Zhou, Y. Chen, R. Hashimoto, T. Asaka, K. Koumoto, A novel glass-fiber-aided cold-press method for fabrication of n-type Ag2Te nanowires thermoelectric film on flexible copy-paper substrate. Journal of Materials Chemistry A. 5, 24740-24748 (2017). (JCR1区,IF 12.7) 

20.Z. Deng, P.-F. Liu, J. Zhou, L. Miao*, Y. Peng, H. Su, P. Wang, X. Wang, W. Cao, F. Jiang, L. Sun, S. Tanemura, A Novel Ink-Stained Paper for Solar Heavy Metal Treatment and Desalination. Solar RRL. 2, 1800073 (2018). (JCR1区,IF 7.5) 

21.Z. Deng, J. Zhou, L. Miao*, C. Liu, Y. Peng, L. Sun, S. Tanemura, The emergence of solar thermal utilization: solar-driven steam generation. Journal of Materials Chemistry A. 5, 7691-7709 (2017). (JCR 1区,IF 12.7) 

22.L. Miao*, R. Chen, J. Zhou, C. Liu, Y. Peng, J. Gao, L. Sun, S. Tanemura, Depressed haze and enhanced solar modulation capability for VO2-based composite films with distinct size effects. RSC Advances. 6, 90813–90823 (2016). (JCR 2区,IF 4.0) 

23.J. Gao, C. Liu, L. Miao*, X. Wang, Y. Peng, Y. Chen, Enhanced power factor in flexible reduced graphene oxide/nanowires hybrid films for thermoelectrics. RSC Advances. 6, 31580–31587 (2016). (JCR 2区,IF 4.0) 

24.H. Q. Yang, L. Miao*, C. Y. Liu, X. Y. Wang, Y. Peng, A. J. Zhang, X. Y. Zhou, G. Y. Wang, C. Li, R. Huang, Solvothermal synthesis of wire-like SnxSb2Te3+x with an enhanced thermoelectric performance. Dalton Transactions. 45, 7483–7491 (2016). (JCR 1区,IF 4.3) 

25.Zhu, J.M., Wang*, Z.M., Tao, S., and Peng, Y. (2015). Effect of Surfactants on Morphology and Luminescent Properties of YAG:Ce Phosphors. Materials Science Forum 815, 313–317. (EI) .

中文期刊

26.彭英, 魏银霞, 长尾理论在高校大学生就业工作中的应用[J],教育与职业,24,96-97,2014.(中文核心) 

27.彭英,孙腾,魏银霞.产业联盟—企业—高校产学研合作生态体系研究[J].教育教学论坛,2014(23):90-91. 

28.魏银霞,彭英.英德美高校的应用型人才培养模式[J].教育评论,2011(06):151-153. 


会议论文 

29.Ying Peng, Yinxia Wei, Promote the Development of University Charter for Construction of Academic Power First Subordinate College Management System, 2015 5TH INTERNATIONAL CONFERENCE ON APPLIED SOCIAL SCIENCE (ICASS 2015), PT 3,Volume 82 Page 324-327,2015 

30.Ying Peng,Yinxia Wei, Employment of College Students Research Based on Long Tail Theory, Engineering Education and Management, LNEE 111, pp. 523–529.(EI收录) 

31.PENG Ying,WANG Zhongmin ,Academic Power Regression Problems And Countermeasures Of Local University,2014 International Symposium on Reform and Innovation of Higher Engineering Education,16-19,2014. 

32.Yinxia W. and Ying P, The Problems of Talent Training in Higher Engineering Education and Strategies to Reform, In Proceedings of the 2015 3d International Conference on Advanced Information and Communication Technology for Education (Atlantis Press, Gangzhou, China, 2015).

学术著作

1.  《新能源材料与器件》, 建设工业出版社,编委, 编写第八章, 2019.

科研项目


1.   主持 金属锡锗掺杂对柔性硅基多晶薄膜的室温热电性能提升研究国家自然科学基金,项目批准号:52061009,直接经费35万元, 项目起止年月:2021.01 2024.12

2.   主持 掺杂锗、锡的硅基柔性薄膜室温热电性能的控制及机理研究 ,广西自然科学基金面上项目,经费20万元,项目批准号:2019GXNSFAA245039,项目起止年月:2020.01 2021.12

3.   主持 功函数匹配金属及三族氧化物复合掺杂提升硅锗材料热电性能研究,广西科技基地和人才专项,经费20万元,编号:2021AC19206,项目起止年月:2021.06 2024.06

4.   主持 锡掺杂硅锗柔性热电薄膜及器件研究, 广西有色金属及特色材料加工重点实验室开放课题,经费4万元,项目批准号:2020GXYSOF11,项目起止年月:2020.01 2021.12

5.   主持 硅基薄膜热电材料及器件,广西信息材料重点实验室开放基金,经费2万元,项目批准号:191015-Z, 项目起止时间:2019.9-2021.9

6.   主持 锡、锡掺杂室温高性能硅锗基热电器件研究,电子信息材料与器件教育部工程研究中心自主研究基金,经费2万元,项目批准号:EIMD-AB202001,项目起止时间:2020.10-2022.9

7.   参与日本New Group-IV Thermoelectric Materials for Self-powered Multifunctional Sensors, 日本科技部 JST-PRESTO项目,经费180万元, 2015年至2018年。

8.   主要参与 可穿戴式柔性热电材料及智能器件的研究,广西信息材料重点实验室开放基金, 合同编号:191001-Z,经费15万元,项目起止时间:2019.9-2022.9

9.   主要参与 LNG 冷能及燃气余热能高效回收热电发电器的研发, 政府间国际科技创新合作重点专项, 270万元, 项目编号: 2017YFE0198000,项目起止时间:2019.08 2022.07

10. 主要参与 氧化硅外包金属的核壳纳米结构制备与太阳能整齐的机理研究, 国家自然科学基金, 项目批号51572049, 经费76.8万元,项目起止时间2016.12019.12

11. 主要参与 柔性硅锗超晶格量子点薄膜材料的制备及热电机理研究,国家自然科学基金, 项目批号51772056,经费60万元,项目起止时间:2018.12021.12



知识产权
发明专利: 
1.  发明专利: 彭英,苗蕾,王潇漾,刘呈燕, 一种柔性硅基纳米薄膜器件,专利号 ZL 201610263449.6.
2.  发明专利: 彭英,苗蕾,一种基于深硅刻蚀的柔型硅片及其制备方法, 申请号201910995909.8.
3.  发明专利: 苗蕾,高杰, 刘呈燕, 王潇漾, 彭英,一种柔性N性碲化银纳米线热电薄膜的制备方法,专利号ZL 201610831800.7.
4.  实用新型专利: 吴云松,彭英, 一种智能衣柜, ZL 201520462243.7

联系信息

pengying@guet.edu.cn

281649246@qq.com

常用链接
Baidu
sogou