2025年度

1. Zejun Sun†, Zhenyu Hu†, Xu Liu, Xiao Yang, Linlin Lu, Zhiying Deng, Puzhong Gu, Yuhang Song, Xing Liang, Yang Xu*, Guoqing Zu*, Jia Huang*. Oriented nanochannel aerogels for high-transconductance organic transistors and ultrasensitive biosensors. Advanced Materials 2025, 37, e09290.

2. Linlin Lu, Xu Liu, Puzhong Gu, Zhenyu Hu, Xing Liang, Zhiying Deng, Zejun Sun, Xiaoyu Zhang, Xiao Yang, Jie Yang*, Guoqing Zu*, Jia Huang*. Stretchable all-gel organic electrochemical transistors. Nature Communications, 2025, 16, 3831. （Highlighed by editors)

3. Zhiying Deng, Xu Liu, Liqiong Zhang, Zejun Sun, Linlin Lu, Zhenyu Hu, Puzhong Gu, Xiao Yang, Guoqing Zu,* Jia Huang*. Recyclable semiconductor aerogel electrochemical transistors for ultrasensitive biosensors. Nano Letters, 2025,25, 14928-14937.

4. Puzhong Gu, Xu Liu, Zhenyu Hu, Zejun Sun, Linlin Lu, Xiao Yang, Guoqing Zu* & Jia Huang*. Stretchable and recyclable nanoporous semiconducting polymer aerogels for highly sensitive biosensors, electronic skins, and artificial synapses. Advanced Functional Materials 2025, e19376.

5. Xiao Yang, Xu Chen, Puzhong Gu, Zhenyu Hu, Xiaoyu Zhang, Zejun Sun, Linlin Lu, Guoqing Zu*, Jia Huang*. Stretchable semiconducting polymer aerogel transistors for high-performance biosensors and artificial synapses. Biomaterials 2025, 322, 123416. 

2024年度

1. Xiaoyu Zhang, Qi Sun, Xing Liang, Puzhong Gu, Zhenyu Hu, Xiao Yang, Muxiang Liu, Zejun Sun, Jia Huang, Guangming Wu, Guoqing Zu*. Stretchable and negative-Poisson-ratio porous metamaterials. Nature Communications, 2024, 15, 392. (ESI高被引论文)

2. Xiaoyu Zhang, Shirui Wang, Xing Liang, Muxiang Liu, Zenghai Zhang*, Guoqing Zu*, Highly stretchable supercapacitor-type multifunctional self-powered porous electronic skins. Advanced Functional Materials, 2024, 35, 2415640. 

3. Zhenyu Hu, Puzhong Gu, Xiao Yang, Zejun Sun, Linlin Lu, Xing Liang, Xiaoyu Zhang, Zhiying Deng, Muxiang Liu, Guoqing Zu*, Jia Huang*. Nanoporous conjugated polymer aerogel films for high-performance electrochemical transistors. Advanced Functional Materials, 2024, 34, 2410788.

4. Xing Liang, Qi Sun, Xiaoyu Zhang, Zhenyu Hu, Muxiang Liu, Puzhong Gu, Xiao Yang, Guoqing Zu*. Advanced stretchable aerogels and foams for flexible electronics and beyond. Advanced Functional Materials, 2024, 34, 2408707.

5. Puzhong Gu, Linlin Lu, Xiao Yang, Zhenyu Hu, Xiaoyu Zhang, Zejun Sun, Xing Liang, Muxiang Liu, Qi Sun, Jia Huang, Guoqing Zu*. Highly stretchable semiconducting aerogel films for high-performance flexible electronics. Advanced Functional Materials, 2024, 34, 2400589.

6. Qi Sun, Xiaoyu Zhang, Puzhong Gu, Xing Liang, Zhenyu Hu, Xiao Yang, Muxiang Liu, Jia Huang, Guoqing Zu*. Highly stretchable MXene-based meta-aerogels with near-zero and negative Poisson’s ratios. Advanced Functional Materials, 2024, 34, 2308537.

7. Zhenyu Hu, Xiaoyu Zhang, Qi Sun, Puzhong Gu, Xing Liang, Xiao Yang, Muxiang Liu, Jia Huang, Guangming Wu, and Guoqing Zu*. Biomimetic transparent layered tough aerogels for thermal superinsulation and triboelectric nanogenerator. Small 2024, 20, 2307602.

8. Xing Liang, Xiaoyu Zhang, Zhenyu Hu, Qi Sun, Muxiang Liu, Puzhong Gu, Xiao Yang, Jia Huang, and Guoqing Zu*. Broad-range-response battery-type all-in-one self-powered stretchable pressure-sensitive electronic skin. Small 2024, 20, 2305925. 

9. Muxiang Liu, Xiang Liang, Xiaoyu Zhang, Zhenyu Hu, Puzhong Gu, Xiao Yang, Guoqing Zu*, Jia Huang*. Superelastic MXene/polymer aerogels for high-performance battery-type self-powered electronic skins. Chemical Engineering Journal, 2024, 502, 157865.

2023年度

1. Xiaoyu Zhang, Zhenyu Hu, Qi Sun, Xing Liang, Puzhong Gu, Jia Huang, and Guoqing Zu*. Bioinspired gradient stretchable aerogels for ultrabroad-range-response pressure-sensitive wearable electronics and high-efficient separators. Angewandte Chemie International Edition,  2023, 62, e202213952.

2022年度

1. Xiaoyu Zhang, Sheng Zeng, Zhenyu Hu, Xing Liang, Qi Sun, Jia Huang,* and Guoqing Zu*. Bioinspired gradient poly(ionic liquid) ionogels for ionic skins with an ultrawide pressure detection range. ACS Materials Letters, 2022, 4, 2459−2468.