|本期目录/Table of Contents|

[1]王翔宇,杜寒威,季家友,等.瓜尔胶/聚丙烯酰胺基导电复合水凝胶的制备及传感性能[J].武汉工程大学学报,2023,45(05):524-529.[doi:10.19843/j.cnki.CN42-1779/TQ.202209033]
 WANG Xiangyu,DU Hanwei,JI Jiayou,et al.Preparation and Mechanical Sensing Properties of GuarGum/Polyacrylamide-Based Conductive Composite Hydrogels[J].Journal of Wuhan Institute of Technology,2023,45(05):524-529.[doi:10.19843/j.cnki.CN42-1779/TQ.202209033]
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瓜尔胶/聚丙烯酰胺基导电复合水凝胶的
制备及传感性能
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《武汉工程大学学报》[ISSN:1674-2869/CN:42-1779/TQ]

卷:
45
期数:
2023年05期
页码:
524-529
栏目:
材料科学与工程
出版日期:
2023-11-17

文章信息/Info

Title:
Preparation and Mechanical Sensing Properties of Guar
Gum/Polyacrylamide-Based Conductive Composite Hydrogels
文章编号:
1674 - 2869(2023)05 - 0524 - 06
作者:
王翔宇杜寒威季家友李 亮*
武汉工程大学材料科学与工程学院,湖北 武汉 430205
Author(s):
WANG Xiangyu DU Hanwei JI Jiayou LI Liang*
School of Materials Science and Engineering,Wuhan Institute of Technology,Wuhan 430205,China
关键词:
瓜尔胶聚丙烯酰胺聚吡咯导电水凝胶
Keywords:
guar gum polyacrylamide polypyrrole conductive hydrogel
分类号:
TQ427.26
DOI:
10.19843/j.cnki.CN42-1779/TQ.202209033
文献标志码:
A
摘要:
以聚丙烯酰胺和天然高分子瓜尔胶作为柔性基底,聚吡咯作为导电物质填料,设计制备出一种柔软的导电水凝胶。采用扫描电子显微镜观察水凝胶的截面形貌,通过拉力试验机测试水凝胶的弹性。测试结果表明其具有良好的可拉伸性能:最大拉伸应变为936.4%,拉伸应力为158.9 kPa,并且在对水凝胶进行15次拉伸应变为300%的拉伸-回复测试,水凝胶能回复原状,表明其具有快速的自恢复能力。进一步将水凝胶作为应变传感器监测人体的手指弯曲、手腕弯曲、吞咽等运动,可得到连续、准确且稳定的传感数据。这种多功能性的瓜尔胶/聚丙烯酰胺基导电复合水凝胶可用于可穿戴电子设备、健康和运动监测器等领域。

Abstract:
A kind of soft conductive hydrogel was designed and prepared using polyacrylamide and natural polymer guar gum as flexible substrates and polypyrrole as a conductive filler. The cross-section morphologies of the hydrogels were observed by scanning electron microscopy and the elasticity of the hydrogels was tested by a tensile testing machine. The test results showed that the hydrogels possess good tensile properties with the maximum tensile strain of 936.4% and the tensile stress of 158.9 kPa. After 15 times of tensile-recovery tests at the tensile strain of 300%,the hydrogel can return to its original state,indicating its rapid self-recovery ability. Furthermore, the hydrogel was used as strain sensors to monitor a human finger bending, wrist bending,swallowing and other movements. Continuous,accurate,and stable sensing data can be obtained. This multifunctional guar gum/polyacrylamide-based conductive composite hydrogel is expected to be used in wearable electronic devices, health and exercise monitors and other fields.

参考文献/References:

[1] LIANG W,CHEN J R,LI L Y,et al. Conductive hydrogen sulfide-releasing hydrogel encapsulating ADSCs for myocardial infarction treatment [J]. ACS Applied Materials & Interfaces,2019,11(16):14619-14629.

[2] YU P,XIE J,CHEN Y,et al. A thermo-sensitive injectable hydroxypropyl chitin hydrogel for sustained salmon calcitonin release with enhanced osteogenesis and hypocalcemic effects [J]. Journal of Materials Chemistry B,2020,8(2):270-281.
[3] ZHENG C X, LU K Y, LU Y, et al. A stretchable,self-healing conductive hydrogels based on nanocellulose supported graphene towards wearable monitoring of human motion [J]. Carbohydrate Polymers,2020,250:116905:1-12.
[4] YU H,YANG X N,LIAN Y L,et al. An integrated flexible multifunctional wearable electronic device for personal health monitoring and thermal management [J]. Sensors and Actuators A:Physical,2021,318:112514:1-9.
[5] HAN Z Y,CHENG Z Q,CHEN Y, et al. Fabrication of highly pressure-sensitive,hydrophobic,and flexible 3D carbon nanofiber networks by electrospinning for human physiological signal monitoring [J]. Nanoscale,2019,11(13):5942-5950.
[6] LI T,LI Y,ZHANG T. Materials,structures,and functions for flexible and stretchable biomimetic sensors [J]. Accounts of Chemical Research,2019,52(2):288-296.
[7] ICHIMURA Y, KURITSUBO T, NAGAMINE K,et al. A fully screen-printed potentiometric chloride ion sensor employing a hydrogel-based touchpad for simple and non-invasive daily electrolyte analysis [J]. Analytical and Bioanalytical Chemistry,2021,413(7):1883-1891.
[8] LU C,CHEN X. Latest advances in flexible symmetric supercapacitors:from material engineering to wearable applications [J]. Accounts of Chemical Research,2020,53(8):1468-1477.
[9] ZHANG Q,LIU X,ZHANG J W,et al. A highly conductive hydrogel driven by phytic acid towards a wearable sensor with freezing and dehydration resistance [J]. Journal of Materials Chemistry A,2021,9(39):22615-22625.
[10] HUANG C C,BAI H,LI C,et al. A graphene oxide/hemoglobin composite hydrogel for enzymatic catalysis in organic solvents [J]. Chemical Communications,2011,47(17):4962-4964.
[11] SUN S T, WU P Y. A one-step strategy for thermal- and pH-responsive graphene oxide interpenetrating polymer hydrogel networks [J]. Journal of Materials Chemistry,2011,21(12):4095-4097.
[12] XIA Y M,WU Y P,YU T,et al. Multifunctional glycerol-water hydrogel for biomimetic human skin with resistance memory function [J]. ACS Applied Materials & Interfaces,2019,11(23):21117-21125.
[13] LEI Z Y,WANG Q K,SUN S T,et al. A bioinspired mineral hydrogel as a self-healable,mechanically adaptable ionic skin for highly sensitive pressure sensing [J]. Advanced Materials,2017,29(22):1700321:1-6.
[14] 李阳,邱唯楚,蔡卓,等. 聚吡咯/石墨烯复合水凝胶的制备与性能[J].武汉工程大学学报,2018,40(5):530-533.
[15] LI S N,YU Z R,GUO B F,et al. Environmentally stable,mechanically flexible,self-adhesive,and electrically conductive Ti3C2TX MXene hydrogels for wide-temperature strain sensing [J]. Nano Energy,2021,90(Part A):106502:1-12.
[16] WU Z X,SHI W X,DING H J,et al. Ultrastable,stretchable,highly conductive and transparent hydrogels enabled by salt-percolation for high-performance temperature and strain sensing [J]. Journal of Materials Chemistry C,2021,9(39):13668-13679.
[17] 厉世能. 强韧化聚丙烯酰胺/壳聚糖水凝胶的结构与性能关系研究[D]. 哈尔滨:哈尔滨工业大学,2020.
[18] 王映桂,张思洁,刘璨,等.可降解自愈合壳聚糖/瓜尔胶水凝胶的制备与性能[J].武汉工程大学学报,2020,42(3):302-306.
[19] MA C, PANG H W, LIU H G, et al. A tough,adhesive,self-healable,and antibacterial plant-inspired hydrogel based on pyrogallol-borax dynamic cross-linking [J]. Journal of Materials Chemistry B,2021,9(20):4230-4240.
[20] THOMBARE N, JHA U, MISHRA S, et al. Guar gum as a promising starting material for diverse applications:a review [J]. International Journal of Biological Macromolecules,2016,88:361-372.
[21] QIAO Z,PARKS J,CHOI P,et al. Applications of highly stretchable and tough hydrogels [J]. Polymers,2019,11(11):1773:1-15.
[22] 刘瑞雪,李义梦,李迎博,等.银离子对结冷胶/聚丙烯酰胺双网络水凝胶的增强作用[J].功能高分子学报,2019,32(3):353-359.

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备注/Memo

备注/Memo:
收稿日期:2022-09-27
基金项目:湖北高校2021年省级大学生创新创业训练计划项目(S202110490020)
作者简介:王翔宇,硕士研究生。E-mail:787163515@qq.com
*通讯作者:李 亮,博士,教授。E-mail:msell08@163.com
引文格式:王翔宇,杜寒威,季家友,等. 瓜尔胶/聚丙烯酰胺基导电复合水凝胶的制备及传感性能[J]. 武汉工程大学学报,2023,45(5):524-529.
更新日期/Last Update: 2023-10-25