李龙龙 | 简历

教育经历

2022 - 至今：全南国立大学，机械工程博士，韩国光州
2018 - 2022：温州大学，机械工程本科，中国温州

科研经历

开展 MEMS 与柔性多模态传感器研究，用于工程化心肌组织的电机械信号监测。
构建 3D 生物电子平台，服务于组织成熟化、药物心脏毒性筛选与体外心脏模型研究。

论文发表

2024: Graphene SU-8 platform for enhanced cardiomyocyte maturation and intercellular communication in cardiac drug screening. ACS Nano 18(49): 33293-33309.
2025: Harnessing native blueprints for designing bioinks to bioprint functional cardiac tissue. iScience 28(3).
2025: Development of multifunctional PAA-alginate-carboxymethyl cellulose hydrogel-loaded fiber-reinforced biomimetic scaffolds for controlled release of curcumin. International Journal of Biological Macromolecules 301: 140449.
2025: Dual-sensitized hollow SnO2 nanospheres with rGO and Pd for highly sensitive detection of acetone in exhaled breath. Applied Surface Science 696: 162959.
2025: Hydrogel-Integrated Biomimetic Hydroxyapatite Scaffolds with Tunable Porosity for Enhanced Curcumin Delivery. Journal of Drug Delivery Science and Technology, 107572.
2025: Enhancing cardiomyocyte maturation through PEDOT:PSS-coated surfaces and mechanical stimulation with strain sensors. Journal of Micromechanics and Microengineering 35(4): 045002.
2025: InGaN-GaN-MQW-ZnO based e-nose sensors for nitrogen dioxide detection using advanced machine learning approaches. Sensors and Actuators B: Chemical, 138650.
2026: Air-Breakdown Triboelectric Nanogenerator Inspired by Transistor Architecture for Low-Force Human-Machine Interfaces. Nano-Micro Letters 18(1): 251.
2026: Tilted-angle acoustofluidic separation of live and dead neonatal rat ventricular myocytes using hypotonic cell swelling. Sensors and Actuators B: Chemical.

专利

一种无人机集群的智能收发管理装置，CN216269980U
一种自动马铃薯收获机，CN216415123U
马铃薯挖掘装置，CN216313996U
其余专利记录已完整保留在独立“专利”页面。

会议

2023: The hybrid cantilever of conductive graphene and su-8 for improving the maturity and electrical coupling of cardiomyocytes. MicroTAS 2023.
2024: Enhancing Cardiomyocyte Maturation via Mechanical Stimulation of 3D Printed Cardiac Tissue Using a Origami-based 3D Sensor and Magnetic Fields. IEEE NANOMED 2024.
2024: Polymer Cantilever Integrated with a Full-Bridge Sensor for Continuous Wireless Measurement of Cardiomyocyte Contractility. MicroTAS 2024.
2024: MONITORING OF DRUG-IMFACTED CARDIOMYOCYTES CONTRACTILITY USING PI MICROCANTILEVER STRUCTURES WITH NANO-SILICON STRAIN SENSOR. MicroTAS 2024.
2025: A Dual-Detection Approach for Cardiotoxicity Screening: Utilizing Nano Silicon Strain Sensor and Mea to Monitor Contractility and Field Potential in Cardiomyocytes. IEEE MEMS 2025.
2025: Origami-Inspired 3D Sensor Platform for Real-Time Electromechanical Coupling Analysis in Engineered Heart Tissues. IEEE SENSORS 2025.
2025: Integrated Bioelectronic Platform Utilizing PEDOT: PSS Strain Sensors for Real-Time Mechanostimulation and Sensing. IEEE SENSORS 2025.
2025: Development of a Multi-Channel Wireless Monitoring Platform for Long-Term Cardiomyocyte Contraction Assessment Using a Polymer Cantilever with integrated Sensor. MicroTAS 2025.
2025: Enhancement of cardiomyocyte microenvironment and functional assessment using through-hole structures with integrated polymer cantilevers. MicroTAS 2025.
2026: Multimodal Microelectrode-Microcantilever Array for Electromechanical Analysis of Cardiomyocyte Tissue in Drug Testing. IEEE MEMS 2026, Salzburg, Austria.

项目

2026.03 - 至今：仿生心脏缺氧模型与机电评估平台，MNTL
2024.03 - 2026.03：基于3D心脏组织的高通量药物毒理筛选平台，MNTL
2022.09 - 2024.03：石墨烯导电微环境对心肌细胞电生理通讯与成熟的调控机制，MNTL
2022.01 - 2022.08：智能垃圾桶的开发，慈溪卓尚电器有限公司
2021.01 - 2021.12：桌面级定制食品3D打印机，温州大学
2020.01 - 2020.12：基于视觉识别与导航的玩具收纳机器人，温州大学

奖励

BK21 Fellowship Scholarship，2025
RLRC Outstanding Graduate Student，2025
中国国家奖学金，2021
浙江省政府奖学金，2019

技术技能

微纳制造与器件开发：熟练掌握 MEMS 与柔性传感器件的微纳加工工艺及传感器性能表征。
组织工程与细胞培养：熟练进行 NRVM / hiPSC-CMs 心肌细胞培养，精通 3D 工程心脏组织（EHT）的构建与生物墨水（胶原 / dECM）体系调配。
测试系统与硬件搭建：具备实验原型机开发能力，能独立搭建集成闭环控制、应变传感器和微电极阵列（MEA）检测的同步测量系统。
多模态信号处理：熟练使用 Python / MATLAB 处理并分析心脏机电多模态信号，提取关键机电生理特征。