结合刺激响应形变材料（如功能纳米材料、水凝胶、弹性体等）与微纳制造技术（如光刻、微流控、3D/4D打印等）设计多功能形变系统（如软体机器人、可穿戴/植入柔性设备等），并将其用于仿生与生物医学领域（如具有形状自适应能力的手术辅助器件、智能释药装置、健康监测装置等）。

代表论文：

[8]. Y Pan, Z Yang, C Li, SU Hassan, HC Shum*. Plant-inspired TransfOrigami microfluidics. Science Advances, 2022, 8, eabo1719. (封面文章，IF=14.980, 中科院1区，JCR 1区)

[7]. Y Pan, C Li, X Hou, Z Yang, M Li*, HC Shum*. Pixelating responsive structural color via a bioinspired morphable concavity array (MoCA) composed of 2D photonic crystal elastomer actuators. Advanced Science，2023, 10, 2300347. (IF=17.521，中科院1区，JCR 1区)

[6]. Y Pan, LH Lee, Z Yang, SU Hassan, HC Shum*. Co-doping optimized hydrogel-elastomer micro-actuator for versatile biomimetic motions. Nanoscale, 2021, 18967. (封面文章，IF=8.307，中科院2区，JCR 1区)

[5]. Y Pan†, W Chen†, J Yang†, J Zheng, M Yang, C Yi*. Facile synthesis of gadolinium chelate-conjugated polymer nanoparticles for fluorescence/magnetic resonance dual-modal imaging. Analytical Chemistry, 2018, 90, 1992. (IF=8.008，中科院1区，JCR 1区)

[4]. Y Pan†, J Yang†, Y Fang†, J Zheng, R Song, C Yi*. One-pot synthesis of gadolinium-doped carbon quantum dots for high-performance multimodal bioimaging. Journal of Materials Chemistry B, 2016, 5, 92. (IF=7.571，中科院2区，JCR 1区)

[3]. Y Pan, Y Shi, Z Chen, J Chen, M Hou, Z Chen, CW Li, C Yi*. Design of multiple logic gates based on chemically triggered fluorescence switching of functionalized polyethylenimine. ACS Applied Materials & Interfaces, 2016, 8, 9472. (IF=10.383，中科院1区，JCR 1区)

[2]. Y Pan†, Y Shi†, J Chen, CM Wong, H Zhang, MJ Li*, CW Li*, C Yi*. Grafting polyethylenimine with quinoline derivatives for targeted imaging of intracellular Zn2+ and logic gate operations. Materials Science & Engineering C, 2016, 69, 561. (IF=8.457，中科院2区，JCR 1区)

[1]. Y Shi†, Y Pan†, J Zhong, J Zhong, J Yang, J Zheng, J Cheng, R Song, C Yi*. Facile synthesis of gadolinium(III) chelates functionalized carbon quantum dots for fluorescence and magnetic resonance dual-modal bioimaging. Carbon, 2015, 93, 742. (IF=11.307，中科院1区，JCR 1区)

论文汇总：

2024年

[26]. S Zhu, H Cui, Y Pan, D Popple, G Xi, Z Fink, J Han, A Zettl, HC Shum*, TP Russell*. Responsive-hydrogel aquabots. Advanced Science, 2024, 2401215. (IF=17.521，中科院1区，JCR 1区)

[25]. Y Yu, Y Pan, Y Shen, J Tian, R Zhang, W Guo, C Li, HC Shum*. Vascular network-inspired fluidic system (VasFluidics) with spatially functionalizable membranous walls. Nature Communications, 2024, 15, 1437. (IF=17.694，中科院1区，JCR 1区)

2023年

[24]. C Li, Y Yu, H Li*, H Lin, H Cui, Y Pan, R Zhang, Y Song*, HC Shum*. Heterogeneous self-assembly of a single-type of nanoparticles modulated by skin formation. ACS Nano, 2023, 17, 12, 11645. (IF=18.027，中科院1区，JCR 1区)

[23]. W Guo, D Ji, A Kinghorn, F Chen, Y Pan, X Li, Q Li, W Huck, C Kwok*, HC Shum*. Tuning material states and functionalities of G-quadruplex modulated RNA-peptide condensates. Journal of the American Chemical Society, 2023, 145, 4, 2375. (IF=15.419，中科院1区，JCR 1区)

[22]. Y Pan, C Li, X Hou, Z Yang, M Li*, HC Shum*. Pixelating responsive structural color via a bioinspired morphable concavity array (MoCA) composed of 2D photonic crystal elastomer actuators. Advanced Science，2023, 10, 2300347. (IF=17.521，中科院1区，JCR 1区)

2022年

[21]. Y Xiao, NM Ribe*, Y Zhang, Y Pan, Y Cao, HC Shum*. Generation of Fermat's spiral patterns by solutal Marangoni-driven coiling in an aqueous two-phase system. Nature Communications, 2022, 13, 7206. (IF=17.694，中科院1区，JCR 1区)

[20]. R Zhang, H Lin, Y Pan, C Li, Z Yang, J Tian, HC Shum*. Liquid-liquid triboelectric nanogenerator for harvesting distributed energy. Advanced Functional Materials, 2022, 2208393. (封面文章，IF=19.924，中科院1区，JCR 1区)

[19]. S Zhu, G Xie, H Cui, Q Li, J Forth, S Yuan, J Tian, Y Pan, W Guo, Y Chai, Y Zhang, Z Yang, RWH Yu, Y Yu, S Liu, Y Chao, Y Shen, S Zhao, TP Russell*, HC Shum*. Aquabots. ACS Nano, 2022, 16, 13761. (封面文章，IF=18.027，中科院1区，JCR 1区)

[18]. C Li, Y Yu, H Li*, J Tian, W Guo, Y Shen, H Cui, Y Pan, Y Song*, HC Shum*. One-pot self-assembly of dual-color domes using mono-sized silica nanoparticles. Nano Letters, 2022, 22, 13, 5236. (IF=12.262，中科院1区，JCR 1区)

[17]. Y Pan, Z Yang, C Li, SU Hassan, HC Shum*. Plant-inspired TransfOrigami microfluidics. Science Advances, 2022, 8, eabo1719. (封面文章，IF=14.980, 中科院1区，JCR 1区)

2021年

[16]. J Zhang, R Zhang, Y Zhang, Y Pan, HC Shum, Z Jiang*. Alginate-gelatin emulsion droplets for encapsulation of vitamin A by 3D printed microfluidics. Particuology, 2021, 64, 164. (IF=3.251，中科院2区，JCR 3区)

[15]. Y Pan, LH Lee, Z Yang, SU Hassan, HC Shum*. Co-doping optimized hydrogel-elastomer micro-actuator for versatile biomimetic motions. Nanoscale, 2021, 18967. (封面文章，IF=8.307，中科院2区，JCR 1区)

2020年

[14]. Y Chao, LT Hung, J Feng, H Yuan, Y Pan, W Guo, Y Zhang, HC Shum*. Flower-like droplets by self-emulsification of a phase-separating (SEPS) aqueous film. Soft Matter, 2020, 16, 6050. (封面文章，IF=4.046，中科院3区，JCR 2区)

2019年

[13]. H Yuan, Y Pan, J Tian, Y Chao, J Li, HC Shum*. Electricity-free picoinjection assisted droplet microfluidics. Sensors and Actuators B: Chemical, 2019, 298, 126766. (IF=9.221，中科院1区，JCR 1区)

2018年

[12]. Y Pan†, W Chen†, J Yang†, J Zheng, M Yang, C Yi*. Facile synthesis of gadolinium chelate-conjugated polymer nanoparticles for fluorescence/magnetic resonance dual-modal imaging. Analytical Chemistry, 2018, 90, 1992. (IF=8.008，中科院1区，JCR 1区)

2017年

[11]. X Su, C Chan, J Shi, MK Tsang, Y Pan, C Cheng, O Gerile, M Yang*. A graphene quantum dot@ Fe₃O₄@SiO₂ based nanoprobe for drug delivery sensing and dual-modal fluorescence and MRI imaging in cancer cells. Biosensors and Bioelectronics, 2017, 92, 489. (IF=12.545，中科院1区，JCR 1区)

2016年

[10]. Z Zhang, Y Pan, Y Fang, L Zhang, J Chen, C Yi*. Tuning photoluminescence and surface properties of carbon nanodots for chemical sensing. Nanoscale, 2016, 8, 500. (IF=8.307，中科院2区，JCR 1区)

[9]. Y Pan†, J Yang†, Y Fang†, J Zheng, R Song, C Yi*. One-pot synthesis of gadolinium-doped carbon quantum dots for high-performance multimodal bioimaging. Journal of Materials Chemistry B, 2016, 5, 92. (IF=7.571，中科院2区，JCR 1区)

[8]. Y Pan, Y Shi, Z Chen, J Chen, M Hou, Z Chen, CW Li, C Yi*. Design of multiple logic gates based on chemically triggered fluorescence switching of functionalized polyethylenimine. ACS Applied Materials & Interfaces, 2016, 8, 9472. (IF=10.383，中科院1区，JCR 1区)

[7]. Y Pan†, Y Shi†, J Chen, CM Wong, H Zhang, MJ Li*, CW Li*, C Yi*. Grafting polyethylenimine with quinoline derivatives for targeted imaging of intracellular Zn2+ and logic gate operations. Materials Science & Engineering C, 2016, 69, 561. (IF=8.457，中科院2区，JCR 1区)

2015年

[6]. Q Shi*, Y Shi, Y Pan, Z Yue, H Zhang, C Yi*. Colorimetric and bare eye determination of urinary methylamphetamine based on the use of aptamers and the salt-induced aggregation of unmodified gold nanoparticles. Microchimica Acta, 2015, 182, 505. (IF=6.408，中科院2区，JCR 1区)

[5]. Y Shi†, Y Pan†, J Zhong, J Zhong, J Yang, J Zheng, J Cheng, R Song, C Yi*. Facile synthesis of gadolinium(III) chelates functionalized carbon quantum dots for fluorescence and magnetic resonance dual-modal bioimaging. Carbon, 2015, 93, 742. (IF=11.307，中科院1区，JCR 1区)

2014年

[4]. Y Shi, Y Pan, H Zhang, Z Zhang, MJ Li, C Yi*. A dual-mode nanosensor based on carbon quantum dots and gold nanoparticles for discriminative detection of glutathione in human plasma. Biosensors and Bioelectronics, 2014, 56, 39. (IF=12.545，中科院1区，JCR 1区)

[3]. Z Zhang, Y Shi, Y Pan, X Cheng, L Zhang, J Chen, MJ Li, C Yi*. Quinoline derivative-functionalized carbon dots as a fluorescent nanosensor for sensing and intracellular imaging of Zn²⁺. Journal of Materials Chemistry B, 2014, 2, 5020. (IF=7.571，中科院2区，JCR 1区)

[2]. Y Shi, Z Chen, X Cheng, Y Pan, H Zhang, Z Zhang, CW Li, C Yi*. A novel dual-emission ratiometric fluorescent nanoprobe for sensing and intracellular imaging of Zn²⁺. Biosensors and Bioelectronics, 2014, 61, 397. (IF=12.545，中科院1区，JCR 1区)

[1]. H Zhang, Y Shi, F Lan, Y Pan, Y Lin, J Lv, Z Zhu, Q Jiang, C Yi*. Detection of single-digit foodborne pathogens with the naked eye using carbon nanotube-based multiple cycle signal amplification. Chemical Communications, 2014, 50, 1848. (IF=6.065，中科院2区，JCR 2区)