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闫昇

博士,研究员

shengyan#szu.edu.cn

致知楼429室

ResearchGate:https://www.researchgate.net/profile/Sheng_Yan4

Google Scholar:https://scholar.google.co.jp/citations?user=1jjvS4gAAAAJ&hl=en

Personal website:https://www.x-mol.com/groups/yan_sheng


教育背景:

2017.7 澳大利亚伍伦贡大学,机械工程,博士;导师:Prof. Weihua Li

2012.6 中国矿业大学,机械工程及其自动化专业,本科


工作经历:

2020.1-, 深圳大学高等研究院,研究员

2018.8-2020.1, 日本东京大学,JSPS博士后

2018.2-2018.8, 香港科技大学,博士后

2017.1-2017.12, 澳大利亚伍伦贡大学,博士后


研究兴趣:

闫昇博士的研究领域主要涵盖基于微流控芯片的细胞筛选、3D微流道制备技术、手持设备、拉曼传感器、可穿戴设备,主要项目包括:(1)微流控芯片用于细胞分选;(2)基于液态金属的新型3D微流道加工技术;(3)基于液态金属的柔性传感器。

截止2022年1月,闫昇博士在Nature Communications, Advanced Functional Materials, Small, Lab on a Chip, Analytical Chemistry, Sensors and Actuators B: Chemical, Scientific Reports, Applied Physics Letters等高水平期刊上发表60余篇文章。引用2500余次,H-index为26。


获奖情况:

2018年日本振兴工业会 Fellowship

2018 年澳大利亚奋进 Fellowship

2017 卧龙岗大学最佳博士论文奖

2013 卧龙岗大学Tuition Scholarship

2013 澳大利亚联邦科学院 Postgraduate Scholarship

2012 中国矿业大学优秀毕业生

2010、2011 国家奖学金


学术兼职:

SPIE and JSAP会员

Anal. Chem., Lab Chip, Nat. Commun., Sens. Actuators B 等审稿人


代表性论文:

1. Danyang Liu, Chuanyu Liu, Yuan Yuan, Xin Zhang, Yingzhou Huang,Sheng Yan*, Microfluidic Transport of Hybrid Optoplasmonic Particles for Repeatable SERS Detection, Analytical Chemistry, 93, 10672-10678, 2021. JCR: Q1; IF:6.98

2. Dan Yuan,Sheng Yan*, Jun Zhang, Rosanne Guijt, and Weihua Li, Sheathless Separation of Cyanobacterial Anabaena by Shape Using Viscoelastic Microfluidics, Analytical Chemistry, 93, 12648-12654, 2021. JCR: Q1; IF:6.98

3. Weiping Hu, Yuxing Li, Shi-Yang Tang, Ling Li, Q. Jason Niu,Sheng Yan*, Amalgamation‐Assisted Control of Profile of Liquid Metal for the Fabrication of Microfluidic Mixer and Wearable Pressure Sensor, Advanced Materials Interfaces, 2100038, 2021. JCR: Q1; IF:6.1

4.Sheng Yan, Dan Yuan, Continuous microfluidic 3D focusing enabling microflow cytometry for single-cell analysis, Talanta, 121401, 2020. JCR: Q1; IF:5.3

5. Haochen Yan, Yunzhao Wu, Yuqi Zhou, Muzhen Xu, Petra Paiè, Cheng Lei,Sheng Yan*, and Keisuke Goda, Virtual optofluidic time-stretch quantitative phase imaging, APL Photonics, 5, 046103, 2020 (*Corresponding author). JCR: Q1; IF:4. 38

6.Sheng Yan, Fangjia Chu, Haiyan Zhang, Yingzhou Huang, Shuxia Wang, Weihua Li, Shunbo Li, and Weijia Wen, Rapid, one-step preparation of SERS substrate in microfluidic channel via electroless galvanic replacement reaction, Spectrochimica Acta Part A, 220, 117113, 2019. JCR: Q1; IF: 2.88;

7. Tingting Ge†,Sheng Yan†, Lingjun Zhang, Hong He, Li Wang, Shunbo Li, Guo Chen, Yuan Yuan, and Yingzhou Huang, Nanowire Assisted Repeatable DEP-SERS Detection in Microfluidics, Nanotechnology, 30, 475202, 2019. (†contribute equally). JCR: Q1; IF: 3.63;

8. Haiyan Zhang, Yuan Yuan,Sheng Yan*, Kai Lou, Yibo Gao, Shuxia Wang, Yingzhou Huang, On-chip 3D SERS Materials Produced by Self-assemble of Copper Microparticle and Galvanic Replacement Reaction, Applied optics, 58, 4720-4725, 2019. (*Corresponding author). JCR: Q3; IF: 1.79;

9.Sheng Yan, Yuxing Li, Yuanqing Zhu, Minsu Liu, Qianbin Zhao, Dan Yuan, Guolin Yun, Shiwu Zhang, Weijia Wen, Shi-Yang Tang, and Weihua Li, Simple, low-cost fabrication of semi-circular channel using the surface tension of solder paste and its application to microfluidic valves, Electrophoresis, 39, 1460-1465, 2018. JCR: Q2; IF: 2.57;

10. Fangjia Chu†,Sheng Yan†, Jiangen Zheng, Lingjun Zhang, Haiyan Zhang, Keke Yu, Xiaonan Sun, Anping Liu and Yingzhou Huang, A Simple Laser Ablation-Assisted Method for Fabrication of Superhydrophobic SERS Substrate on Teflon Film, Nanoscale Research Letters, 13, 244, 2018. (†contribute equally). JCR: Q1; IF: 3.13;

11.Sheng Yan, Yuxing Li, Qianbin Zhao, Dan Yuan, Guolin Yun, Shi-Yang Tang, and Weihua Li, Enhanced particle self-ordering in a double-layer channel, Biomedical Microdevices, 20, 23, 2018. JCR: Q2; IF: 2.08;

12.Sheng Yan, Yuxing Li, Qianbin Zhao, Dan Yuan, Guolin Yun, Jun Zhang, Weijia Wen, Shi-Yang Tang, and Weihua Li, A Liquid metal based amalgamation-assisted lithography for fabrication of complex channels with diverse structures and configurations, Lab on a Chip, 18, 785-792, 2018. JCR: Q1; IF: 6.91;

13.Sheng Yan, Yuanqing Zhu, Shi-Yang Tang, Yuxing Li, Qianbin Zhao, Dan Yuan, Guolin Yun, Jun Zhang, Shiwu Zhang, and Weihua Li, A rapid, maskless 3D prototyping for fabricating capillary circuits: towards urinary protein detection, Electrophoresis, 39, 957-964, 2018. JCR: Q2; IF: 2.57;

14.Sheng Yan, Say Hwa Tan, Yuxing Li, Shiyang Tang, Adrian J.T. Teo, Jun Zhang, Qianbin Zhao, Dan Yuan, Ronald Sluyter, N. T. Nguyen, and Weihua Li, A portable, hand-powered microfluidic device for sorting of biological particles, Microfluidics and Nanofluidics, 2018, 22, 8. JCR: Q2; IF: 2.38;

15.Sheng Yan, Dan Yuan, Qianbin Zhao, Jun Zhang, and Weihua Li, The Continuous Concentration of Particles and Cancer Cell Line Using Cell Margination in a Groove-Based Channel, Micromachines, 8, 315, 2017. JCR: Q2; IF: 2.22;

16.Sheng Yan, Jun Zhang, Weihua Li, Hybrid microfluidics combined with active and passive approaches for continuous cell separation, Electrophoresis, 38, 238-249, 2017. JCR: Q2; IF: 2.57;

17.Sheng Yan, Jun Zhang, Dan Yuan, Qianbin Zhao, Junqi Ma, Weihua Li, High-throughput, sheathless, magnetophoretic separation of magnetic and non-magnetic particles with a groove-based channel, Applied Physics Letters, 109, 214101, 2016. JCR: Q1; IF: 3.50;

18.Sheng Yan, Jun Zhang, Huaying Chen, Dan Yuan, Gursel Alici, Haiping Du, Yonggang Zhu, Weihua Li, Development of a novel magnetophoresis-assisted hydrophoresis microdevice for rapid particle ordering. Biomedical Microdevices, 18, 1-9, 2016. JCR: Q2; IF: 2.08;

19. Tiantian Jin†,Sheng Yan†, Jun Zhang†, Dan Yuan, Xu-Feng Huang, Weihua Li, A label-free and high-throughput separation of neuron and glial cells using an inertial microfluidic platform. Biomicrofluidics, 10, 034104, 2016 (†contribute equally). JCR: Q2; IF: 2.57;

20.Sheng Yan, Jun Zhang, Chao Pan, Dan Yuan, Gursel Alici, Haiping Du, Yonggang Zhu, Weihua Li, An integrated dielectrophoresis-active hydrophoretic microchip for continuous particle filtration and separation. Journal of Micromechanics and Microengineering, 25, 084010, 2015. JCR: Q2; IF: 1.88;

21.Sheng Yan, Jun Zhang, Yuan Yuan, George Lovrecz, Gursel Alici, Haiping Du, Yonggang Zhu, Weihua Li, A hybrid dielectrophoretic and hydrophoretic microchip for particle sorting using integrated prefocusing and sorting steps. Electrophoresis, 36, 284-291, 2015. JCR: Q2; IF: 2.57;

22.Sheng Yan, Jun Zhang, Huaying Chen, Gursel Alici, Haiping Du, Yonggang Zhu, Weihua Li, Making a hydrophoretic focuser tunable using a diaphragm. Biomicrofluidics, 8, 064115, 2014. JCR: Q2; IF: 2.57;

23.Sheng Yan, Jun Zhang, Gursel Alici, Haiping Du, Yonggang Zhu, Weihua Li, Isolating plasma from blood using a dielectrophoresis-active hydrophoretic device. Lab on a Chip, 14, 2993-3003, 2014. JCR: Q1; IF: 6.91;

24.Sheng Yan, Jun Zhang, Ming Li, Gursel Alici, Haiping Du, Ronald Sluyter, Weihua Li, On-chip high-throughput manipulation of particles in a dielectrophoresis-active hydrophoretic focuser. Scientific Reports, 4, 5060, 2014. JCR: Q1; IF: 4.12;


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