大学化学2024,Vol.39Issue(4):286-295,10.DOI:10.3866/PKU.DXHX202309094
导电水凝胶基柔性电子传感系统——柔性电子创新实验设计
Conductive Hydrogel-based Flexible Electronic System:Innovative Experimental Design in Flexible Electronics
摘要
Abstract
Conductive hydrogels amalgamate characteristics of both biomedical materials and conductive materials,finding applications in medical rehabilitation,motion monitoring,and human-machine interaction among others.To enhance the innovative awareness and experimental skills of undergraduate students majoring in flexible electronics,this experiment designs a conductive hydrogel crosslinked by nanogel materials.By exploring the initiator concentration and cross-linking mechanisms during the polymerization of co-polymeric hydrogels,the impact of material structural components on the durability and sensing performance of hydrogel-based flexible electronic devices were elucidated.Through taking part in this novel experimental design,undergraduates majored in flexible electronics can acquire key points on polymer emulsion polymerization,hydrogel synthesis,stress-strain sensing property characterization,gaining a deeper understanding of the influence of cross-linking agent structural design on material functionality.Additionally,this experiment developed a hydrogel based flexible and wearable sensing system based on hydrogel flexible electronic sensors.By integrating a smart glove capable of controlling a small car's movement and a hydrogel controller for computer game control,we tightly merge cutting-edge research with undergraduate experimental teaching tasks.This integration is beneficial in stimulating the research interest and innovative exploration spirit among undergraduates majoring in flexible electronics,materials,and electronic information.关键词
柔性电子/乳液聚合/导电水凝胶/纳米凝胶/柔性应变传感器Key words
Flexible electronics/Emulsion polymerization/Conductive hydrogel/Nanogel/Flexible strain sensor分类
社会科学引用本文复制引用
王腾蛟,程天,刘荣珺,王泽一,乔宇轩,王安,李鹏..导电水凝胶基柔性电子传感系统——柔性电子创新实验设计[J].大学化学,2024,39(4):286-295,10.基金项目
西北工业大学2023年度教育教学改革研究项目(2023JGY58) (2023JGY58)
西北工业大学2023年度课程建设项目(KCJS23ZP098,KCJS23WT27) (KCJS23ZP098,KCJS23WT27)
西北工业大学2023年度研究生培养质量提升项目 ()
