宋恩名

发布时间:2021-10-25浏览次数:312






私人邮箱:enmingsong1988@gmail.com

个人主页:https://scholar.google.com/citations?hl=en&user=yjjm11cAAAAJ


教育与学术经历

20217月:青年研究员,光电研究院,复旦大学,中国

20182月至202010博士后(Postdoctoral Research Fellow, 导师John A. Rogers院士),生物集成电子中心,西北大学(Northwestern University),美国

202010月至20216月:研究员, 生物医学工程院, 香港城市大学,中国香港

20183月至20191研究助理教授(Adjunct Research Assistant Professor),材料科学与工程院系,伊利诺伊大学香槟分校,美国

20159月至20179月:联合培养博士研究生 (导师John A. Rogers院士),材料科学与工程院系,伊利诺伊大学香槟分校美国

20119月至201712月:博士(导师梅永丰教授),材料科学系,复旦大学

2007920117月:本科学士,材料科学系,复旦大学

研究兴趣与领域

1. 新型生物工程集成传感

2. 植入式脑机接口工程

3. 仿生电子与智能皮肤技术

4. 电子器件封装技术

5. 超薄半导体材料与器件工艺

近年代表论文(5年内)

迄今在高影响力国际学术期刊以第一/共同第一/通讯作者发表论文16(排序第一10篇,通讯作者2篇),包括1篇高被引论文Nature Materials1Cell1Nature Biomedical Engineering3篇美国国家科学院院刊PNAS1Advanced Materials,1ACS Nano2Advanced Functional Materials2Advanced Electronic Materials1ACS Applied Materials & Interfaces1APL Materials1Nanotechnology1Materials Today Energy通讯作者2020年获美国专利一项已公示。获《麻省理工科技评论》2021年度35岁以下科技创新35人亚太区入选上海脑科学与类脑研究中心求索杰出青年计划-研究组长。

#为共同第一作者,*为通讯作者):

1.Song, E.,#Li, J.,#Won, S. M.,#Bai, W.,# Rogers, J. A.*(2020) Materials for Flexible Bioelectronic Systems as Chronic Neural Interfaces. Nature Materials, vol. 19, pp. 590-603.

2.Won, S. M.,#Song, E.,#Reeder, J.,# Rogers, J. A.* (2020) “Emerging Modalities and Implantable Technologies for Neuromodulation.” Cell, vol. 181, pp. 115-135 (共同一作).

3.Song, E.,#Xie, Z. #Bai, W.,#Luan, H.,# Ji, B., Ning, X., Xia, Y., Baek J. M., Lee, Y., Avila R., Chen, H.-Y., Kim, J.-H., Madhvapathy S., Yao, K., Li, D., Zhou, J.,Han, M., Won, S. M., Zhang, X, Myers, D., Mei, Y., Guo, X., Xu, S., Chang, J.-K.,* Yu, X.,* Huang, Y.,* Rogers, J. A.* (2021) Miniaturized electromechanical devices for the characterization of the biomechanics of deep tissue. Nature Biomedical Engineering, vol. 5, pp. 759–771.

4.Song, E.,Chiang, C.-H., Li, R., Jin, X., Zhao, J., Hill, M., Xia, Y., Li, L., Huang, Y., Won, S.M., Yu, K.J., Sheng, X., Fang, H., Alam, M.A., Huang, Y., Viventi, J., Chang, J.-K.,* Rogers, J. A.* (2019) Flexible electronic/optoelectronic microsystems with scalable designs for chronic bio-integration. Proceedings of the National Academy of Sciences of the United States of America(PNAS), vol. 116, pp. 15398-15406.

5.Li, J.,#Song, E.,# Chiang, C.-H., Yu, K. J., Koo, J., Du, H., Zhong, Y., Hill, M., Wang, C., Zhang, J., Chen, Y., Tian, L., Zhong, Y., Fang, G., Viventi, J., Rogers, J. A.* (2018) Conductively coupled flexible silicon electronic systems for chronic neural electrophysiology. PNAS, vol. 115, pp. E9542-E9549 (共同一作,期刊封面).

6.Fang, H.,# Zhao, J.,#Yu, K. J.,#Song, E.,# Farimanic, A. B., Chiang, C.-H., Jin, X., Xue, Y., Xu, D., Du, W., Seo, K.J., Y. Zhong, Yang,Z., Won, S. M., Fang, G., Choi, S.W., Chaudhuri, S., Huang, Y., Alam, M.A., Viventi, J., Aluru, N.R., Rogers, J. A.* (2016) Ultra-thin, transferred layers of thermally grown silicon dioxide as biofluid barriers for bio-integrated flexible electronic systems.PNAS, vol.113,pp. 11682-11687 (共同一作).

7.Won, S. M.,#Song E.,# Zhao, J., Li, J., Rivnay, J., Rogers, J. A.* (2018) Recent advances in materials, devices, and systems for neural interfaces. Advanced Materials, vol. 30, p. 1800534 (共同一作).

8.Song, E.,#Li, R.,# Jin, X., Du, H., Huang, Y., Zhang, J., Xia, Y., Fang, H., Lee, Y. K., Yu, K.J., Chang, J.-K., Mei, Y., Alam, M.A., Huang, Y., Rogers, J. A.* (2018) Ultrathin trilayer assemblies as long-lived barriers against water and ion penetration in flexible bioelectronic systems. ACS Nano, vol. 12, pp. 10317-10326.

9.Song, E.,#Lee, Y. K.,#Li, R.,#Li, J.,# Jin, X., Yu, K. J., Xie, Z., Fang, H., Zhong, Y., Du, H., Zhang, J., Fang, G., Kim, Y., Yoon, Y., Alam, M. A., Mei, Y., Huang, Y., Rogers, J. A.*(2018) Transferred, ultra-thin oxide bilayers as biofluid barriers for flexible electronic implants. Advanced Functional Materials, vol. 28, p. 1702284.

10.Li, G.,#Song, E.,# Huang, G., Guo, Q., Ma, F., Zhou, B., Mei, Y.*(2018) High temperature triggered thermal degradable electronics based on flexible silicon nanomembranes.Advanced Functional Materials, vol. 28, p. 1801448 共同一作,期刊封面.

11.Song, E.,#Guo, Z.,# Li, G., Liao, F., Li, G., Du, H., Schmidt, O. G., Kim, M., Yi, Y., Bao, W.*, Mei, Y.* (2019) Thickness-dependent electronic transport in ultrathin single crystalline silicon nanomembranes. Advanced Electronic Materials, vol. 5, p. 1900232.

12.Song, E.,#Fang, H.,# Jin, X., Zhao, J., Jiang, C., Yu, K. J., Zhong, Y., Xu, D., Li, J., Fang, G., Du, H., Zhang, J., Park, J. M., Huang, Y., Alam, M. A., Mei, Y., Rogers, J. A.* (2017) Thin, transferred layers of silicon dioxide and silicon nitride as water and ion barriers for implantable flexible electronic systems. Advanced Electronic Materials, vol. 3, p. 1700077.

13.Song, E., Guo, Q., Huang, G., Jia, B., Mei, Y.* (2017) Bendable photodetector on fibers wrapped with flexible ultra-thin single crystalline silicon nanomembranes.ACS Applied Materials & Interfaces, vol. 9, pp. 12171-12175.

14.Song, E.,#Li, J.,# Rogers, J. A.*(2019): Barrier materials for fexible bioelectronic implants with chronic stability-current approaches and future directions.APL Materials, vol. 7, p. 050902 (主编推荐,Editor’s Pick.

15.Song, E., Si, W., Cao, R., Feng, P., Mönch, I., Huang, G.,* Di, Z., Schmidt, O. G., Mei, Y.* (2014) Schottky contact on ultra-thin silicon nanomembranes under light illumination.Nanotechnology, vol. 25, p. 485201.

16.Wu, M.,# Yao, K.,# Li, D., Huang, X., Liu, Y., Wang, L., Song, E.,*Yu, J.,*Yu, X.* (2021) Self-powered skin electronics for energy harvesting and healthcare monitoring.Materials Today Energy, vol. 21, p. 100786(通讯作者).

17.Chang, J.-K.,#Fang, H.,# Bower, C., Song, E., Yu, X., Rogers, J. A.* (2017): Materials and processing approaches for foundry-compatible transient electronics. PNAS, vol. 114, pp. E5522–E5529.

18.Fang, H.,# Yu, K.J.,# Gloschat, C.,# Yang, Z., Song, E., Chiang, C.-H., Zhao, J., Won, S. M., Xu, S., Trumpis, M., Zhong, Y., Han, S. W., Xue, Y., Xu, D., Choi, S.W., Cauwenberghs, G., Kay, M., Huang, Y., Viventi, J., Efimov, I. R.,* Rogers, J. A.* (2017) Capacitively coupled arrays of multiplexed flexible silicon transistors for long-term cardiac electrophysiology. Nature Biomedical Engineering, vol.1, p. 0038.

19.Li, G.,#Ma, Z.,#You, C.,# Huang, G., Song, E., Pan, R., Zhu, H., Xin, J., Xu, B., Lee, T. Y., An, Z., Mei, Y.* (2020) Silicon Nanomembrane Phototransistors Flipped with Multifunctional Sensors towards Smart Digital Dust. Science Advances, vol. 6, eaaz65112020.

20.Han, M.,# Chen, L.,# Aras, K.,# Liang, C., Chen, X., Zhao, H., Li, K., Faye, N.R., Sun, B., Kim, J.-H., Bai, W., Yang, Q., Ma, Y., Lu, W., Song, E., Baek, J.M., Lee, Y., Liu, C., Model, J.B., Yang, G., Ghaffari, R., Huang, Y.*, Efimov, I. R.*, Rogers, J. A.* (2020) Catheter-integrated Soft Multilayer Electronic Arrays for Multiplexed Sensing and Actuation During Cardiac Surgery, Nature Biomedical Engineering vol. 4, pp. 997-1009.

21.Lee, Y. K.,# Yu, K. J.,#Song, E., Farimani, A. B., Vitale, F., Xie, Z., Yoon, Y., Kim, Y., Richardson, A., Luan, H., Wu, Y., Xie, X., Lucas, T. H., Crawford, K., Mei, Y., Feng, X., Huang, Y., Litt, B., Aluru, N.R., Yin, L.,* Rogers, J. A.* (2017): Dissolution of monocrystalline silicon nanomembranes and their use as encapsulation layers and electrical interfaces in water-soluble electronics. ACS Nano, vol. 11, pp. 12562-12572.

22.Li, G.,Song,E., Huang, G., Pan, R., Guo, Q., Ma, F., Zhou, B., Di, Z., Mei, Y.*(2018): Flexible transient phototransistors by use of wafer-compatible transferred silicon nanomembranes. Small,vol. 14, p. 1802985.

23.Phan, H.-P.,*Zhong, Y., Nguyen, T.-K., Park, Y., Dinh, T., Song, E., Vadivelu, R. K., Masud, M. K., Li, J., Shiddiky, M. J.A., Dao, D., Yamauchi, Y., Rogers, J. A.,*Nguyen, N.-T.* (2019): Long-lived, transferred crystalline silicon carbide nanomembranes for implantable flexible electronics. ACS Nano, vol. 13, pp. 11572-11581.

24.Li, J., Li, R., Chiang, C.-H., Zhong, Y., Shen, H., Song, E., Hill, M., Won, S. M., Yu, K. J., Baek, J. M., Lee, Y., Viventi, J., Huang, Y., Rogers, J. A.*(2020): Ultrathin, high capacitance capping layers for silicon electronics with conductive interconnects in flexible, long-lived bioimplants. Advanced Materials Technologies, vol. 5, p. 1900800.

25.Bai, W., Irie, M., Liu, Z., Luan, H., Franklin, D., Nandoliya, K., Guo, H., Zang, H., Weng, Y., Lu, D., Wu, D., Wu, Y., Song, J., Han, M., Song, E., Yang, Y., Chen, X., Zhao, H., Lu, W., Monti, G., Stepien, I., Kandela, I., Haney, C.R., Wu, C., Won, S.M., Ryu, H., Rwei, A., Shen, H., Kim, J., Yoon, H.-J., Ouyang, W., Liu, Y., Suen, E., Chen, H.-Y., Okina, J., Liang, J., Huang, Y., Ameer, G.A., Zhou, W., Rogers, J. A.* (2021) Bioresorbable Multilayer Photonic Cavities as Temporary Implants for Tether-Free Measurements of Regional Tissue Temperatures. BME Frontiers, p. 8653218.

26.Li, G., Guo, Q., Song, E., Huang, G., Mei, Y.*(2019): (Invited) Silicon Nanomembrane-Based Flexible Photodetector and Sensors.ECS Meeting Abstracts, vol. 28, p.1368 (website: http://ma.ecsdl.org/content/MA2019-01/28/1368.abstract).

27.Pan, R.,# Guo, Q.,#* Li, G., Song, E., Huang, G., An, Z., Di, Z., Mei, Y.*(2018): Schottky barrier modulation in surface nano-roughened silicon nanomembranes for high-performance optoelectronics. ACS Applied Materials & Interfaces, vol.10, pp. 41497-41503.

28.Li, G., Song, E., Guo, Q., Huang, G., Mei Y.*(2018): Transfer techniques for single-crystal silicon/germanium nanomembranes and their application in flexible electronics.SCIENTIA SINICA Informationis, vol.48, pp. 670-687.

29.Jin, X.,Song,E., Rogers, J.A., Alam, M.A.* (2018) Principles of multi-layer encapsulant design for wearable and implantable systems. Conference Poster: MRS Fall Meeting(最佳海报提名奖).

30.Lee, Y. K.,# Yu, K. J.,# Kim, Y., Yoon, Y., Xie, Z., Song, E., Luan, H., Feng, X., Huang, Y., Rogers, J. A.*(2017): Kinetics and chemistry of hydrolysis of ultrathin, thermally grown layers of silicon oxide as biofluid barriers in flexible electronic systems. ACS Applied Materials and Interfaces, vol. 9, pp. 42633-42638.

31.Jin, X., Jiang, C., Song, E., Fang, H., Rogers, J. A., Alam, M. A.*(2017): Stability of MOSFET-based electronic components in wearable and implantable systems. IEEE Transactions on Electron Devices, vol. 64, pp. 3443-3451.

32.Wang J., Song, E., Yang,C., Zheng, L., Mei, Y.*(2017): Fabrication and whispering gallery resonance of self-rolled up gallium nitride microcavities. Thin Solid Films,vol. 627, pp. 77-81.

33.Lee, Y. K., Yu, K. J., Kim, Y., Yoon, Y., Xie, Z., Song, E., Luan, H., Feng, X., Huang, Y., Rogers, J. A.*(2017) Dissolution kinetics of ultrathin thermally grown silicon oxide: PH, Ions, silicic acid dependence. Nanoscale Science and Engineering Forum 2017-Core Programming Area of 2017 AIChE Annual Meeting.https://yonsei.pure.elsevier.com/en/publications/dissolution-kinetics-of-ultrathin-thermally-grown-silicon-oxide-p

国际专利

Rogers, J. A., Fang, H., Zhao, J., Song, E., Lee, Y. K.: Encapsulated flexible electronics for long-term implantation序列号20200022601,申请号:16/162,613,发表日期:January 23, 2020,美国政府已授权。

所获奖项

1.个人荣获2021年度《麻省理工科技评论》亚太区35岁以下科技创新35人;

2.第二批上海脑科学与类脑研究中心“求索杰出青年”计划-研究组长(共入选14人),2021-2023;

3.“面向智能数字灰尘的柔性硅薄膜多功能集成传感器”获中国半导体十大研究进展提名奖(排序第五),Journal of Semiconductors,中国,2020;

4.Principles of Multi-Layer Encapsulant Design for Wearable and Implantable Systems获最佳Poster奖提名奖(排序第二)Materials Research Society,美国,2018;

5.“High-Temperature Triggered Transient Form of Flexible Silicon Nanomembrane Electronics”获最佳海报奖(排序第二), International Conference on Flexible Electronics (ICFE 2018),中国,2018;

6.优秀博士研究生毕业论文,复旦大学,2018;

7.复旦大学洛德有限公司冠名奖学金,排名第一,2014