Liu Wang
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[22] Y. Zhang#, J. Yang#, X. Hou#, G. Li, L. Wang, N. Bai, M. Cai, L. Zhao, Y. Wang, J. Zhang, K. Chen, X. Wu, C. Yang, Y. Dai, Z. Zhang, C. F. Guo*, Highly stable flexible pressure sensors with a quasi-homogeneous composition and interlinked interfaces,Nature Communications, 13: 1217, 2022
[21] N. Bai, L. Wang, Y. Xue, Y. Wang, X. Hou, G. Li, Y. Zhang, M. Cai, L. Zhao, F. Guan, X. Wei*, C. F. Guo*, Graded Interlocks for Iontronic Pressure Sensors with High Sensitivity and High Linearity over a Broad Range, ACS Nano, 16(3),4338-4347, 2022
[20] X. Liang, G. Chen, S. Lin, J. Zhang, L. Wang, P. Zhang, Z. Wang, Z. Wang, Y. Lan, Q. Ge, J. Liu*, Anisotropically Fatigue‐Resistant Hydrogels, Advanced Materials, 33(30), 21022011, 2021 (Inside Back Cover)
[19] K. Ha, W. Zhang, H. Jang, S. Kang, L. Wang, P. Tan, H. Hwang, N. Lu*,Highly Sensitive Capacitive Pressure Sensors over a Wide Pressure Range Enabled by the Hybrid Responses of a Highly Porous Nanocomposite, Advanced Materials, 33(48), 2103320, 2021 (Back Cover)
[18] P. Zhu#, H. Du#, X. Hou#, P. Lu, L. Wang, J. Huang, N. Bai, Z. Wu, N. X Fang*, C. F. Guo*, Skin-electrode iontronic interface for mechanosensing, Nature Communications, 12: 4731, 2021
[17] P. Lu, L. Wang, P. Zhu, J. Huang, Y. Wang, N. Bai, Y. Wang, G. Li, J. Yang, K. Xie, J. Zhang, B. Yu, Y. Dai, C. F. Guo*, Iontronic pressure sensor with high sensitivity and linear response over a wide pressure range based on soft micropillared electrodes, Science Bulletin, 66(11), 1091-1100, 2021
[16] J. Shi, W. Zeng, Z. Dai, L. Wang, Q. Wang, S. Lin, Y, Xiong, S. Yang, S. Shang, W. Chen, L. Zhao, X. Ding, X. Tao, Y. Chai, Piezocatalytic Foam for Highly Efficient Degradation of Aqueous Organics, Small Science, 1(2), 2000011,2020
[15] Y. Wang, Y. Lang, Y. Bai, S. Liu, L. Wang, Y. Zhou, C. Hou, Z. Yang, H. Wu, J. Ma, Y. Shen, P. Deng, S. Zhang, T. Duan, Z. Li, J. Ren, L.Xiao, Z. Yin, N. Lu*, Y. Huang*, Electrically compensated, tattoo-like electrodes for epidermal electrophysiology at scale, Science Advances, 6(43), 2020
[14] J. Huang, L. Wang, Y. Jin, P. Lu, L. Wang, N. Bai, G. Li, P. Zhu, Y. Wang, J. Zhang, Z. Wu, C. F. Guo*, Tuning the Rigidity of Silk Fibroin for the Transfer of Highly Stretchable Electronics, Advanced Functional Materials, 33(23), 2001518, 2020
[13] Y. Wang#, T Hong#, L. Wang, L. Gang, N. Bai, G. Li, P. Lu, M. Cai, Z. Wu, N. Lu, B. Yu, J. Zhang, C. F. Guo*, Epidermal electrodes with enhanced breathability and high sensing performance. Materials Today Physics, 12, 1001911, 2020
[12] K. Cho#, S. Kim#, J. Kim#, S. Song#, W. Lee, L. Wang, M Soh, N. Lu, T. Hyeon, B. Kim*, D. Kim*, Large scale and integrated platform for digital mass culture of anchorage dependent cells, Nature Communications, 10:4824, 2019
[11] J. Shi, S. Lv, L. Wang, Z. Dai, S. Yang, L. Zhao, H. Tian, M. Du, H. Li, Y. Fang*, Crack Control in Biotemplated Gold Films for Wide‐Range, Highly Sensitive Strain Sensing, Advanced Materials Interfaces, 6(20), 201901223, 2019
[10] H. Jeong, L. Wang, T. Ha, R. Mitbander, X. Yang, Z. Dai, S. Qiao, L. Shen, N. Sun, N. Lu*, Modular and Reconfigurable Wireless E‐Tattoos for Personalized Sensing, Advanced Materials Technology, 4(8), 2019
[9] J. Shi, L. Wang, Z. Dai, L. Zhao, M. Du, H. Li*, Y. Fang*, Multiscale Hierarchical Design of a Flexible Piezoresistive Pressure Sensor with High Sensitivity and Wide Linearity Range, Small, 14(27), 2018
[8] S. Qiao, L. Wang, H. Jeong, G. J. Rodin*, N. Lu*, Suction Effects of Surface Craters, Journal of the Royal Society Interface, 14(135), 2017
[7] S. K. Ameri, R. Ho, H. Jang, L. Tao, Y. Wang, L. Wang, D. M. Schnyer, D. Akinwande*, N. Lu*, Graphene Electronic Tattoo Sensors, ACS Nano, 11(8), 2017
[6] J. Song, D. Son, J. Kim, Y. Yoo, G. Lee, L. Wang, M. Choi, J. Yang, M. Lee, K. Do, J. Koo, N. Lu, J. Kim, T. Hyeon, Y. Song, D. Kim*, Wearable Force Touch Sensor Array Using a Flexible and Transparent Electrode, Advanced Functional Materials, 27(6), 2016
[5] S. Kim, K. Cho, H. Cho, L. Wang, S. Park, S. Lee, T. Hyeon, N. Lu, S. Choi* and D. Kim*, Stretchable and Transparent Biointerface Using Cell-Sheet Graphene Hybrid for Electrophysiology and Therapy of Skeletal Muscle, Advanced Functional Materials, 26(19), 2016 (Front Cover)
[4] H. Lee, T. Choi, Y. Lee, H. Cho, R. Ghaffari, L. Wang, H. Choi, T. Chung, N. Lu, T. Hyeon, S. Choi, and D. Kim*, A Graphene-based Electrochemical Device with Thermo-responsive Microneedles for Diabetes Monitoring and Therapy, Nature Nanotechnology, 11(6), 2016
[3] S. Qiao, J. Gratadour, L. Wang, N. Lu*, Conformability of A Thin Elastic Membrane Laminated on A Rigid Substrate with Corrugated Surface , IEEE Transactions on Components, Packaging and Manufacturing Technology 5(9), 2015 (Invited paper)
[2] X. Wang, L. Wang, J. Liu, L. Peng*, Camel-back band-induced power factor enhancement of thermoelectric lead-tellurium from Boltzmann transport calculations. Applied Physics Letters, 104(13), 2014
[1] J. Liu, X. Wang, L. Wang, L. Peng*, Coupled hydrothermal synthesis/hot pressing of PbSe/C@ PbTe heterogonous composites with enhanced thermoelectric performance. Materials Letters, 117, 49-52, 2014