交叉学科教学实践——可用于低温环境的可穿戴“电子皮肤”

引用本文: 魏玉萍, 王佚婷, 姜佳良, 邓锦轩, 张宏, 马骁飞, 李俊杰. 交叉学科教学实践——可用于低温环境的可穿戴“电子皮肤”[J]. 大学化学, 2024, 39(10): 261-270. doi: 10.12461/PKU.DXHX202404007 shu

Citation: Yuping Wei, Yiting Wang, Jialiang Jiang, Jinxuan Deng, Hong Zhang, Xiaofei Ma, Junjie Li. Interdisciplinary Teaching Practice——Flexible Wearable Electronic Skin for Low-Temperature Environments[J]. University Chemistry, 2024, 39(10): 261-270. doi: 10.12461/PKU.DXHX202404007 shu

交叉学科教学实践——可用于低温环境的可穿戴“电子皮肤”

魏玉萍 ^1, ,
王佚婷 ^1, ,
姜佳良 ^1, ,
邓锦轩 ^1, ,
张宏 ^2, ,
马骁飞 ^1, ,
李俊杰 ^2,

1.
天津大学理学院, 天津 300354;
2.
天津大学化工学院, 天津 300354
基金项目:
天津大学2022年本科教育教学重点建设项目；天津大学化工学院本科教改项目(KS2405)

摘要: 让数字化走进生活一直是人类追求的目标。可穿戴“电子皮肤”横空出世，已被广泛应用于人体运动监测、健康医疗、人工智能等各个领域。为了探索化学化工与生物医学学科的交叉融合人才培养模式，本实验设计并制备了结冷胶/聚丙烯酰胺双网络导电水凝胶，阐明了双网络水凝胶的构建原理，并将其应用于可穿戴式柔性传感器监测人体运动和生理信号。该教学实验将课题组已发表的相关科研成果与本科教学实验有机结合，由浅入深地向学生介绍这种新兴电子产物的制备及应用，激发了学生的学习兴趣和创新意识。

关键词:

English

Interdisciplinary Teaching Practice——Flexible Wearable Electronic Skin for Low-Temperature Environments

1.
School of Science, Tianjin University, Tianjin 300354, China;
2.
School of Chemical Engineering, Tianjin University, Tianjin 300354, China
Received Date: 02 April 2024
Revised Date: 03 June 2024
Available Online: 09 July 2024

Abstract: The integration of digital technology into everyday life has been a long-standing human pursuit. Currently, wearable electronic skins emerged as a transformative innovation have been widely used in human motion monitoring, healthcare, and artificial intelligence. To explore an interdisciplinary talent cultivation model that merges chemistry, chemical engineering, and biomedical sciences, gellan gum/polyacrylamide dual network hydrogel was fabricated and applied as flexible sensor to monitor human movement and physiological signals. The experiment combines the published research work in our group with undergraduate teaching experiments, and introduces the E-skin to students from preparation method to its practical application, stimulating students’ interests in learning and innovation.

Key words:

1. [1]
  Jian, Y. K.; Handschuh-Wang, S.; Zhang, J. W.; Lu, W.; Zhou, X. C.; Chen, T. Mater. Horiz. 2021, 8 (2), 351.Jian, Y. K.; Handschuh-Wang, S.; Zhang, J. W.; Lu, W.; Zhou, X. C.; Chen, T. Mater. Horiz. 2021, 8 (2), 351.
2. [2]
  Zhang, W.; Feng, P.; Chen, J.; Sun, Z. M.; Zhao, B. X. Prog. Polym. Sci. 2019, 88, 220.Zhang, W.; Feng, P.; Chen, J.; Sun, Z. M.; Zhao, B. X. Prog. Polym. Sci. 2019, 88, 220.
3. [3]
  Niu, Y.; Liu, H.; He, R. Y.; Li, Z. D.; Ren, H.; Gao, B.; Guo, H.; Genin, G. M.; Xu, F. Mater. Today 2020, 41, 219.Niu, Y.; Liu, H.; He, R. Y.; Li, Z. D.; Ren, H.; Gao, B.; Guo, H.; Genin, G. M.; Xu, F. Mater. Today 2020, 41, 219.
4. [4]
  Liu, H. Y.; Wang, X.; Cao, Y. X.; Yang, Y. Y.; Yang, Y. T.; Gao, Y. F.; Ma, Z. S.; Wang, J. F.; Wang, W. J.; Wu, D. C. ACS Appl. Mater. Inter. 2020, 12 (22), 25334.Liu, H. Y.; Wang, X.; Cao, Y. X.; Yang, Y. Y.; Yang, Y. T.; Gao, Y. F.; Ma, Z. S.; Wang, J. F.; Wang, W. J.; Wu, D. C. ACS Appl. Mater. Inter. 2020, 12 (22), 25334.
5. [5]
  Lowe, A. B.; McCormick, C. L. Chem. Rev. 2002, 102 (11), 4177.Lowe, A. B.; McCormick, C. L. Chem. Rev. 2002, 102 (11), 4177.
6. [6]
  Laschewsky, A.; Rosenhahn, A. Langmuir 2019, 35 (5), 1056.Laschewsky, A.; Rosenhahn, A. Langmuir 2019, 35 (5), 1056.
7. [7]
  Sui, X. J.; Guo, H. S.; Chen, P. G.; Zhu, Y. N.; Wen, C. Y.; Gao, Y. H.; Yang, J.; Zhang, X. Y.; Zhang, L. Adv. Funct. Mater. 2019, 30 (7), 1907986.Sui, X. J.; Guo, H. S.; Chen, P. G.; Zhu, Y. N.; Wen, C. Y.; Gao, Y. H.; Yang, J.; Zhang, X. Y.; Zhang, L. Adv. Funct. Mater. 2019, 30 (7), 1907986.
8. [8]
  Yang, J.; Pan, C.; Zhang, J. M.; Sui, X. J.; Zhu, Y. N.; Wen, C. Y.; Zhang, L. ACS Appl. Mater. Inter. 2017, 9 (49), 42516.Yang, J.; Pan, C.; Zhang, J. M.; Sui, X. J.; Zhu, Y. N.; Wen, C. Y.; Zhang, L. ACS Appl. Mater. Inter. 2017, 9 (49), 42516.
9. [9]
  Diehl, R. C.; Guinn, E. J.; Capp, M. W.; Tsodikov, O. V.; Record, M. T. Biochemistry 2013, 52 (35), 5997.Diehl, R. C.; Guinn, E. J.; Capp, M. W.; Tsodikov, O. V.; Record, M. T. Biochemistry 2013, 52 (35), 5997.
10. [10]
  Jiao, Q.; Cao, L. L.; Zhao, Z. J.; Zhang, H.; Li, J. J.; Wei, Y. P. Biomacromolecules 2021, 22, 1220.Jiao, Q.; Cao, L. L.; Zhao, Z. J.; Zhang, H.; Li, J. J.; Wei, Y. P. Biomacromolecules 2021, 22, 1220.
11. [11]
  Qin, Z. H.; Sun, X.; Zhang, H. T.; Yu, Q. Y.; Wang, X. Y.; He, S. S.; Yao, F. L.; Li, J. J. J. Mater. Chem. A 2020, 8, 4447.Qin, Z. H.; Sun, X.; Zhang, H. T.; Yu, Q. Y.; Wang, X. Y.; He, S. S.; Yao, F. L.; Li, J. J. J. Mater. Chem. A 2020, 8, 4447.
12. [12]
  Sun, X.; Yao, F. L.; Wang, C. Y.; Qin, Z. H.; Zhang, H. T.; Yu, Q. Y.; Zhang, H.; Dong, X. R.; Wei, Y. P.; Li, J. J. Macromol. Rapid Commun. 2020, 41 (13), 2000185.Sun, X.; Yao, F. L.; Wang, C. Y.; Qin, Z. H.; Zhang, H. T.; Yu, Q. Y.; Zhang, H.; Dong, X. R.; Wei, Y. P.; Li, J. J. Macromol. Rapid Commun. 2020, 41 (13), 2000185.

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1.
沈阳化工大学材料科学与工程学院沈阳 110142

交叉学科教学实践——可用于低温环境的可穿戴“电子皮肤”

English

Interdisciplinary Teaching Practice——Flexible Wearable Electronic Skin for Low-Temperature Environments

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通讯作者: 陈斌, bchen63@163.com

中国化学会秘书处

交叉学科教学实践——可用于低温环境的可穿戴“电子皮肤”

English

Interdisciplinary Teaching Practice——Flexible Wearable Electronic Skin for Low-Temperature Environments

CCS Chemistry：嵌段共聚物自组装成 “三明治”二维有机材料，实现纳米级压力传感功能

CCS Chemistry：颜徐州、鲍哲南： 你的皮肤可能是一片SPMs

CCS Chemistry：工作高效不疲劳，只须让催化剂动起来

CCS Chemistry：静电组装导向聚合- 聚电解质纳米凝胶量化制备新策略

CCS Chemistry：金黄色葡萄球菌醛基脱氢酶是如何识别特异性底物的？

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