2024年发表论文

1. Fringing-effect-based capacitive proximity sensors, H. Niu, H. Li, N. Li, H. Niu, Y. Li*, S. Gao*, G. Shen*, Advanced Functional Materials, 2024, 2409820.

2. Micropyramid array bimodal electronic skin for intelligent material and surface shape perception based on capacitive sensing, H. Niu, X. Wei, H. Li, F. Yin, W. Wang, R.-S. Seong, Y. K. Shin, Z. Yao, Y. Li*, E.-S. Kim, N.-Y. Kim*, Advanced Science, 2024, 11, 2305528.

3. Advances in advanced solution-synthesis-based structural materials for tactile sensors and their intelligent applications, H. Niu, N. Li, N.-Y. Kim*, G. Shen*, Y. Li*, InfoMat, 2024, 6, e12500. 

4. Intuition-and-tactile bimodal sensing based on artificial-intelligence-motivated all-fabric bionic electronic skin for intelligent material perception, H. Niu, H. Li, Q. Zhang*, E.-S. Kim, N.-Y. Kim*, Y. Li*, Small, 2024, 20, 2308127.5. 

5. Morphological-engineering-based capacitive tactile sensors, H. Niu, H. Li, N. Li, H. Niu, S. Gao*, W. Yue, Y. Li*, submitted.

2023年发表论文

1. Advances in flexible sensors for intelligent perception system enhanced by artificial intelligence, H. Niu, F. Yin, E.-S. Kim, W. Wang, D.-Y. Yoon, C. Wang, J. Liang, Y. Li*, N.-Y. Kim*, InfoMat, 2023, 5, e12412.

2. Advanced polymer materials-based electronic skins for tactile and non-contact sensing applications, F. Yin¹, H. Niu¹, E.-S. Kim, Y. K. Shin, Y. Li*, N.-Y. Kim*, InfoMat, 2023, e12424. 

3. Cocklebur-inspired “branch-seed-spininess” 3D hierarchical structure bionic electronic skin for intelligent perception, H. Niu, H. Li, Y. Li*, W. Yue, S. Gao, X. Wei, G. Shen*, Nano Energy, 2023, 107, 108144.

4. A wearable device based on the ionic liquid decorated sponge-like ultraviolet-curable resin for recognizing human mental health conditions, F. Yin¹, H. Niu¹, Y. K. Shin, Y. Li*, E.-S. Kim, N.-Y. Kim*, Nano Energy, 2023, 118, 109039.

2023年发表论文

1. Perception-to-cognition tactile sensing based on artificial-intelligence-motivated human full-skin bionic electronic skin, H. Niu, H. Li, S. Gao, Y. Li*, X. Wei, Y. Chen, W. Yue, W. Zhou*, G. Shen*, Advanced Materials, 2022, 34, 2202622. 

2. Ultrasensitive capacitive tactile sensor with heterostructured active layers for tiny signal perception, H. Niu, Y. Chen, E.-S. Kim, W. Zhou, Y. Li*, N.-Y. Kim*, Chemical Engineering Journal, 2022, 450, 138258.

2020-2022年发表论文

1. Highly morphology-controllable and highly sensitive capacitive tactile sensor based on epidermis-dermis-inspired interlocked asymmetric-nanocone arrays for detection of tiny pressure, H. Niu, S. Gao, W. Yue, Y. Li*, W. Zhou*, H. Liu*, Small, 2020, 16, 1904774.

2. Micro-nano processing of active layers in flexible tactile sensors via template methods: a review, H. Niu, H. Zhang, W. Yue, S. Gao, H. Kan, C. Zhang, C. Zhang, J. Pang, Z. Lou, L. Wang, Y. Li*, H. Liu*, G. Shen*, Small, 2021, 17, 2100804.

3. Ultrafast-response/recovery capacitive humidity sensor based on arc-shaped hollow structure with nanocone arrays for human physiological signals monitoring, H. Niu, W. Yue, Y. Li*, F. Yin, S. Gao, C. Zhang, H. Kan, Z. Yao, C. Jiang, C. Wang, Sensors and Actuators B: Chemical, 2021, 334, 129637.