
团队成员
李崭虹、韩雨彤、王子峰、朱元首、蒋卓韵
团队简介
团队围绕可穿戴和植介入传感器件,以无机纳米材料合成、改性及复合为基础,运用微纳特色加工技术,设计新型柔性和植介入传感器件;面向医学、健康、食品、环境等重点方向开展特色和交叉工作。主要研究方向:(1)可穿戴电化学传感器;(2)低功耗气体传感器阵列;(3)生物相容性微针贴片;(4)高通量蜂巢生物芯片;(5)多模态融合及深度学习算法
代表性成果
1. 科研项目
[1] 2026-2029 年,国家自然科学基金-面上项目:面向疾病标志物监测的高熵 MXene 气体传感器制备及其性能增强机制研究
[2] 2026-2029 年,国家自然科学基金-面上项目:湿度自供能及耦合增强气体传感器性能和机理研究
[3] 2025-2028 年,上海市自然科学基金青年项目:基于 Hofmeister 效应的 Ti3C2Tx MXene 纤维力电协同调控机制及可穿戴电化学传感应用研究
[4] 2025-2027年,上海市科委伙伴科研计划项目:用于食品安全与个人健康监测的智能可穿戴传感与电子平台
[5] 2025-2027年,企业委托重点项目:用于汗液监测的柔性乳酸传感器及其系统研制
[6] 2025-2027年,企业委托重点项目:基于MXene光热材料及导电水凝胶的高性能冷热敷一体化眼罩
[7] 2025-2027年,企业委托重点项目:十三种呼吸道病原高通量检测芯片及配套仪器开发研究
[8] 2024-2026年,国家科技部政府合作项目:连续监测汗液皮质醇的柔性电化学传感器研究
[9] 2024-2026年,国家科技部政府合作项目:MXene纳米复合材料的可控制备及其在环境气体传感领域的研究
[10] 2023-2025年,上海海外领军人才(青年)项目,柔性可穿戴传感器
[11] 2023-2024年,国家外专局项目,适配子可穿戴电化学传感器的开发与机理研究
[12] 2022-2024 年,国家自然科学基金-青年基金项目:二维MXenes/TMDs纳米异质结构传感器的光电气敏耦合机理研究
[13] 2021-2024 年,上海市科委项目:高性能柔性/植入式医用传感器及其医疗设备
[14] 2021-2024 年,上海市青年科技英才扬帆计划:基于可见光激发的二维纳米异质结构传感器气敏特性及机理研究
[15] 2015-2018 年,国家自然科学基金-面上项目,连续血糖监测用微纳传感器的构建及其失效机理研究
2. 发明专利
[1] 高强度超声辅助快速制备和筛选 MXene 及其衍生物 MAM 气体传感应用的方法,ZL202311233751.3
[2] ENERGY HARVESTING AND STORAGE APPARATUS AND A METHOD OF FORMING THEREOF,US11329574 B2
[3] 基于 CS/GO/Cu (II) 离子印迹聚合物电极的电化学传感器及其制备方法,ZL201810768519.2
[4] 贵金属掺杂的花状 CuO 纳米材料的制备方法及其制备气敏元件的方法,ZL201611192626.2
[5] 连续血糖监测用长寿命植入式葡萄糖传感器及其制备方法,ZL201510682823.1
3. 学术论文
[1] AuCu-CuO@rGO-based non-enzymatic electrochromic biosensor powered by ISF for wearable glucose monitoring, Biosensors Bioelectronics, 2026, 297: 118336.
[2] Refined dual-stage release of lidocaine by erodible microneedles for postoperative analgesia, Advanced Healthcare Materials, 2026, 15: e02798.
[3] Spinning, functionalizing, assembling of flexible fiber electronics and their applications, Small, 2026, 22: e14279.
[4] Liquid metal microspheres enabled photothermally triggered shape memory fibers with strong thermomechanical interfaces for soft robotics and actuator-sensory hybrids, Chemical Engineering Journal, 2026, 538: 176695.
[5] DeepLAMP: Deep learning-assisted Hive-chip integrated with AuNP-enhanced colorimetric LAMP for smartphone-based multiplex detection of African Swine Fever Virus, Sensors and Actuators B: Chemical, 2026, 451: 139398.
[6] Synergistic effects of photoactivation and photothermal in MXene heterostructures for the enhanced H2S detection capability, Advanced Functional Materials, 2025: e09735.
[7] High-entropy MXene-based heterojunction for ppb-level triethylamine detection at low temperature, Chemical Engineering Journal, 2025, 526: 171536.
[8] Quasi-photonic crystals-boosted highly efficient Ti3C2Tx MXene photothermal materials for untethered actuators and therapeutics, Journal of Colloid and Interface Science, 2025, 699:138188.
[9] A machine-learning-algorithm enhanced multi-functional gas sensor for self-humidity compensation and partial discharge detection, ACS Sensors, 2025, 10: 5882-5891
[10] Multifunctional fiber robotics with low mechanical hysteresis for magnetic navigation and inhaled gas sensing, ACS Sensors, 2025, 10: 1206-1216.
[11] Transient MBene surpassing MXene for high-selectivity NH3 sensing in meat spoilage detection, Chemical Engineering Journal, 2025, 503: 158516
[12] Development of an osmosis-assisted hollow microneedle array integrated with dual-functional electrochemical sensor for Urea and pH monitoring in interstitial fluid, Sensors and Actuators B: Chemical, 2025, 422: 136606.
[13] Microneedle arrays for near-infrared-controlled insulin delivery based on thermosensitive microgel, ACS Applied Material Interface, 2025, 17: 33483−33497
[14] Fully transient 3D origami paper-based ammonia gas sensor obtained by facile MXene spray coating, ACS Sensors, 2024, 9: 1447-1457
[15] Microneedle patches-integrated transdermal bioelectronics for minimally invasive disease theranostics, Advanced Healthcare Materials, 2024, 2303921
[16] High-intensity ultrasonic exfoliation-assisted rapid preparation of MXene for gas sensing, Chemical Engineering Journal, 2024, 489: 151140
[17] Chemiresistive SnS2/Nb4C3Tx gas sensor for detection triethylamine at room temperature, Sensors and Actuators B: Chemical, 2024, 407: 135437
[18] SnS2/Ti3C2Tx hybrids for conductometric triethylamine detection at room temperature, Sensors and Actuators B: Chemical, 2023, 381: 133360
[19] Fabrication and characterization of a MnO2/Ti3C2Tx based gas sensor for highly sensitive and selective detection of lung cancer marker Hexanal, Chemical Engineering Journal, 2023, 451: 139029
[20] MoO3/TiO2/Ti3C2Tx nanocomposites based gas sensors for highly sensitive and selective isopropanol detection at room temperature, Journal of Material Chemistry A, 2022, 10: 8283-8292

