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王舒禹

发布时间:2019-07-24    点击量:


姓名:王舒禹, 性别:男 ,出生年月:1991.06 学位:博士, 职称:副教授 导师类型:硕士导师,项目博士导师, 海外引进人才。

 

联系方式

联系电话:

电子邮件:wangshuyu@neuq.edu.cnvincentwang622@126.com

 

研究方向

软体机器人多模态传感、柔性智能感知、科学智能、微纳热传感

 

教育背景

2009.09-2013.06 华中科技大学

2013.08-2017.08 纽约州立大学石溪分校(SUNY Stony Brook University,师从Prof. Lei Zuo

 

工作履历

2017.09-2018.12 Gloabalfoundries(芯片制造公司)高级工程师

 

学术兼职

EEIS 2024 电气电子与信息科学国际学术会议程序委员会主席

RICAI 2022机器人、智能控制与人工智能国际学术会议委员会成员

American Journal of Artificial Intelligence 编委成员

Micromachines 专题顾问委员会成员

JoVE客座编辑并举办专栏

Advanced Science, Information fusionSCI期刊审稿人,审稿七十余次。

中国微米纳米技术学会会员、中国仪器仪表学会会员、国际仿生协会会员、IEEE会员

 

科研情况

【在研项目】

1.    国自然青年项目,基于超低热导微腔体的高精密单细胞热传感方法研究,主持

2.    中央引导地方项目,用于凝胶压感、热感模态解耦的深度算子网络研究,主持

 

 

【结题项目】

1.河北省绿色通道项目,为加快药物研发的微纳量热计研究,主持

2.中央高校基本业务费,高通量高精度微纳量热计研究,主持

3.中央高校基本业务费,超低热导的高精密细胞热传感方法研究研究,主持

 

 

奖励与荣誉

2022年,Wiley Open Science Excellent Author Program Award(论文下载量位居期刊全国前五)

2023年,东北大学秦皇岛分校年度潜力新星奖

2022年,RICAI学术会议最佳口头汇报奖

2022  东北大学优秀毕业设计指导教师

2021 互联网+创新创业大赛省银奖指导老师

2021 河北省大中学生科技创新能力项目指导教师

2020 创新创业大赛指导老师获校级第二名

2019 双语教学竞赛校第一名

2014 ASME travel award

2013 Stony Brook University scholarship award

 

学术成果

在国外知名期刊发表论文三十余篇。总引用500余次,h-index 16,论文被Nature communications, PNAS等顶刊正面引用。出版机械工业出版社教材一部。成果被高分子科学科学前沿、高分子科技、科匠文化、AdvancedScienceNews等国内知名科研公众号约稿报道发表的前沿科研成果。多次受国际学术会议邀请作演讲嘉宾。开发的基于图神经网络的蛋白稳定性预测网络APP,上线三个月被使用8000余次,具有科学影响力与落地价值。

 

【代表性学术论文】

1.        S. Wang*, T. Yang, D. Zhang, Q. Hua, and Y. Zhao, “Unveiling Gating Behavior in Piezoionic Effect: toward Neuromimetic Tactile Sensing,” Advanced Materials, p. 2405391, Jul. 2024, doi: 10.1002/adma.202405391. (IF 27.4, 中科院1区顶刊)

2.        S. Wang*, H. Yue, and X. Yuan, “Accelerating Polymer Discovery with Uncertainty-Guided PGCNN: Explainable AI for Predicting Properties and Mechanistic Insights,” J. Chem. Inf. Model., vol. 64, no. 14, pp. 5500–5509, Jul. 2024, doi: 10.1021/acs.jcim.4c00555. (IF 5.6, 中科院2Top, JCR Q1)

3.       S. Wang*, H. Tang, Y. Zhao, and L. Zuo, "BayeStab: Predicting effects of mutations on protein stability with uncertainty quantification," Protein Sci., 31, p. e4467, (2022).(IF 8.0)

4.      S. Wang*, S. Duan, T. Yang, Z. He, Z. Xia, and Y. Zhao, “A self-powered strain sensor utilizing hydrogel-nanosheet composites, Zn foil, and silver-coated nylon,” Sensors and Actuators A: Physical, vol. 364, p. 114824, Dec. 2023, doi: 10.1016/j.sna.2023.114824.

5.        S. Wang*, H. Tang, P. Shan, Z. Wu, and L. Zuo, "ProS-GNN: Predicting effects of mutations on protein stability using graph neural networks," Comput. Biol. Chem., 107, p. 107952, (2023).

6.       S. Wang* and Z. Sun, "Hydrogel and Machine Learning for Soft RobotsSensing and Signal Processing: A Review," J. Bionic Eng., (2022).

7.        Sun, Z.; Wang, S*.; etal: Discriminating soft actuatorsthermal stimuli and mechanical deformation by hydrogel sensors and machine learning. Advanced Intelligent Systems 2022;n/a:2200089. (IF 7.4)

8.        Lv, X.; Wang, S*.; Shan, P.; Zhao, Y.; Zuo, L., A machine learning based method for automatic differential scanning calorimetry signal analysis. Measurement 2022, 187, 110218. (IF 5.6中科院2Top)

9.        Lv, X.; Wang, S*.; Zhao, Y.; Shan, P., A reinforcement learning based method for proteins differential scanning calorimetry signal separation. Measurement 2022, 188, 110391.(IF 5.6中科院2Top)

10.     S. Wang*, Z. Sun, Y. Zhao and L. Zuo, A highly stretchable hydrogel sensor for soft robot multi-modal perception, Sensors and Actuators A: Physical (2021) 113006. (IF4.6)

11.     S., W*.; Z., Z.; Y., Z.; L., Z., A Variational Autoencoder Enhanced Deep Learning Model for Wafer Defect Imbalanced Classification. IEEE Transactions on Components, Packaging and Manufacturing Technology 2021, 1-1.

12.     Wang, S*.; Shan, P.; Zhao, Y.; Zuo, L., GanDTI: A multi-task neural network for drug-target interaction prediction. Comput Biol Chem 2021, 92, 107476.

13.     Wang, S.; Sha, X.; Yu, S.; Zhao, Y., Nanocalorimeters for biomolecular analysis and cell metabolism monitoring. Biomicrofluidics 2020, 14, (1), 011503.

14.     Yu, S.; Wu, Y.; Wang, S.; Lu, M.; Zuo, L., Thermodynamic analysis of a MEMS based differential scanning calorimeter model. Sensors and Actuators A: Physical 2019, 291, 150-155.

15.     Wang, S.; Yu, S.; Siedler, M.; Ihnat, P.M.; Filoti, D.I.; Lu, M.; Zuo, L., A power compensated differential scanning calorimeter for protein stability characterization. Sensors and Actuators B: Chemical 2018, 256, 946-952. (中科院1区顶刊,IF 8.4)

16.     Yu, S.; Wang, S.; Lu, M.; Zuo, L., A novel polyimide based micro heater with high temperature uniformity. Sensors and Actuators A: Physical 2017, 257, 58-64.

17.     Wang, S.; Yu, S.; Lu, M.; Zuo, L., Microfabrication of plastic-PDMS microfluidic devices using polyimide release layer and selective adhesive bonding. J Micromech Microeng 2017, 27, (5), 055015.

18.     Yu, S.; Wang, S.; Lu, M.; Zuo, L., Review of MEMS differential scanning calorimetry for biomolecular study. Frontiers of Mechanical Engineering 2017, 12, (4), 526-538. (IF 4.528)

19.     Wang, S.; Yu, S.; Lu, M.; Liu, M.; Zuo, L., Atomic Layer-Deposited Titanium-Doped Vanadium Oxide Thin Films and Their Thermistor Applications. J Electron Mater 2017, 46, (4), 2153-2157.

20.     Yu, S.; Wang, S.; Lu, M.; Zuo, L., A metal-insulator transition study of VO2 thin films grown on sapphire substrates. J Appl Phys 2017, 122, (23), 235102.

21.     Wang, S.; Yu, S.; Siedler, M.S.; Ihnat, P.M.; Filoti, D.I.; Lu, M.; Zuo, L., Micro-differential scanning calorimeter for liquid biological samples. Rev Sci Instrum 2016, 87, (10), 105005.  

 

【专利与软著】

1.一种用于细胞代谢热检测的开放式微纳量热计系统[P]: 中国.202110746385.6

2.面向超大规模集成电路生产线的自动化晶圆缺陷模式识别系统:中国. 2021SR08329632021-06-04

 

讲授课程情况

深度学习及其应用

Python编程与机器学习基础

 

指导研究生情况

每年招收3名研究生,欢迎愿意参与国际前沿科学研究的同学加入 ~^o^~

 

学术研究网站

https://www.researchgate.net/profile/Shuyu-Wang-10