[1]李晓强,孙 倩,秦晓雨,等.具有防水性能的PVDF/CoCl2/Cotton湿敏材料[J].服装学报,2020,5(03):195-199.
 LI Xiaoqiang,SUN Qian,QIN Xiaoyu,et al.PVDF/CoCl2/ Cotton Humidity Sensing Material with Waterproof Property[J].Journal of Clothing Research,2020,5(03):195-199.
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具有防水性能的PVDF/CoCl2/Cotton湿敏材料()
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《服装学报》[ISSN:2096-1928/CN:32-1864/TS]

卷:
第5卷
期数:
2020年03期
页码:
195-199
栏目:
服装材料科学
出版日期:
2020-06-30

文章信息/Info

Title:
PVDF/CoCl2/ Cotton Humidity Sensing Material with Waterproof Property
作者:
李晓强1;  孙 倩1;  秦晓雨1;  王 辉1;  艾靓雯1;  李大伟1;  高德康2
1.江南大学 纺织科学与工程学院,江苏 无锡 214122; 2.波司登国际控股有限公司,江苏 常熟 215532
Author(s):
LI Xiaoqiang1;  SUN Qian1;  QIN Xiaoyu1;  WANG Hui1;  AI Jingwen1;  LI Dawei1;  GAO Dekang2
1.College of Textile Science and Engineering,Jiangnan University,Wuxi 214122,China; 2.Bosideng International Holding Co.,Ltd.,Changshu 215532,China
分类号:
TB 34; TS 111.8
文献标志码:
A
摘要:
采用涂层法制备聚偏氟乙烯(PVDF)/氯化钴(CoCl2)/棉织物(Cotton)湿敏材料,将PVDF和CoCl2的N,N-二甲基甲酰胺混合溶液均匀涂覆在棉织物上,得到PVDF/CoCl2/Cotton湿敏材料,用同样方法制备CoCl2/Cotton和聚丙烯腈(PAN)/CoCl2/Cotton的湿敏材料(作为对照组)。利用界/表面张力仪、傅里叶红外光谱仪和可见光分光光度计对湿敏材料进行物理化学性能测试。结果表明:30 s后水滴在PVDF/CoCl2/Cotton湿敏材料的表面接触角为102°,证明该材料具有优异的防水性能; 当湿度从11%增长到98%时,湿敏材料的颜色由蓝色向粉色转变,该颜色的转变可以用肉眼直接观测,不需要使用任何检测仪器。PVDF/CoCl2/Cotton湿敏材料在不同湿度下的颜色差异主要是因CoCl2吸收或失去结晶水所致。
Abstract:
The humidity sensing material of polyvinylidene fluoride/cobalt chloride/cotton fabric(PVDF/CoCl2/Cotton)with waterproof property was prepared by coating method,and its colorimetric humidity sensing property was characterized. Specifically,PVDF/CoCl2/Cotton humidity sensing material was obtained by uniformly coating the mixed solution of PVDF/CoCl2/N,N-dimethylformamide on the surface of cotton fabrics. In addition,the humidity sensing materials of CoCl2/Cotton and PAN/CoCl2/cotton were also prepared with the same method. The physicochemical properties of the humidity sensing materials were characterized through boundary/surface tensiometer,Fourier tranform infrared spectrometer(FTIR)and visible light spectrophotometer. The results demonstrated that the contact angle of water droplets on the surface of PVDF/CoCl2/Cotton after 30 s was 102°,which proved that the material had excellent waterproof performance. As the humidity increases from 11% to 98%,the color of the PVDF/CoCl2/Cotton humidity sensing material changes from blue to pink. The change of colors can be directly observed by the naked eye without the use of any detection equipment. The different colors of PVDF/CoCl2/Cotton humidity sensing material under different relative humidity are mainly caused by the absorption or loss of crystal water of CoCl2.

参考文献/References:

[1] WANG Zhihao,ZHANG Yihe,WANG Wenjiang,et al. High performance of colorimetric humidity sensors based on minerals[J].Chemical Physics Letters,2019,727:90-94.
[2] 李群芳. 低温下湿度传感器测量性能研究[J]. 中国科技投资,2019(9):187.
LI Qunfang.Research on measurement performance of humidity sensor at low temperature[J].China Venture Capital,2019(9):187.(in Chinese)
[3] 麻姗姗,柳钰,燕丽颖. 湿度传感器的应用研究[J]. 科技风,2018(30):11.
MA Shanshan,LIU Yu,YAN Liying.Application research of humidity sensor[J].Technology Wind,2018(30):11.(in Chinese)
[4] 廖荣,李蓓,张振杰.聚酰亚胺MOSFET湿度传感器研究[J]. 传感器与微系统,2017,36(9):32-33,37.
LIAO Rong,LI Bei,ZHANG Zhenjie. Research on PI MOSFET humidity sensor[J]. Transducer and Micro-system Technologies,2017,36(9):32-33,37.(in Chinese)
[5] 牟维兵. 电容式加速度传感器机电耦合分析[J].电子设计工程,2019,27(5):36-39,43.
MOU Weibing. Electro-mechanical coupled analysis of capacitive acceleration sensor[J]. Electronic Design Engineering,2019,27(5):36-39,43.(in Chinese)
[6] 犹明浩. 电纺纳米纤维在湿敏变色传感器及压电-热释电纳米发电领域的应用[D]. 青岛:青岛大学,2018.
[7] 贾栋,杜鹃,罗艳,等. 石墨烯/棉织物复合材料的制备、表征及应用[J].印染助剂,2018,35(8):28-33.
JIA Dong,DU Juan,LUO Yan,et al. Preparation,characterization and application of graphene/cotton conductive fabric[J]. Textile Auxiliaries,2018,35(8):28-33.(in Chinese)
[8] 苏邵,李晶,汪联辉. 基于纳米材料比色传感器的构建及其应用[J]. 南京邮电大学学报(自然科学版),2018,38(3):98-110.
SU Shao,LI Jing,WANG Lianhui. Construction and application of nanomaterials-based colorimetric sensors[J]. Journal of Nanjing University of Posts and Tele-communications(Natural Science),2018,38(3):98-110.(in Chinese)
[9] 许思齐,金敏. 光学生物传感器在致病菌检测中的研究进展[J]. 食品研究与开发,2019,40(13):192-199.
XU Siqi,JIN Min. Research progress on optical biosensors for the detection of pathogenic bacteria[J]. Food Research and Development,2019,40(13):192-199.(in Chinese)
[10] GAO Yuanqing,HUANG Jianguo. Colorimetric detection of gaseous ammonia by polyaniline nanocoating of natural cellulose substances[J]. Colloid and Surfaces A:Physico-chemical and Engineering Aspects,2013,433:166-172.
[11] HOANG A T,CHO Y B,PARK J S,et al. Sensitive naked-eye detection of gaseous ammonia based on dye-impregnated nanoporous polyacrylonitrile mats[J]. Sensors and Actuators B:Chemical,2016,230:250-259.
[12] 何贤培. 无重金属湿敏变色功能材料的研究[J]. 广东化工,2016,43(17):66,72.
HE Xianpei. Study on humidity-sensitive material without heavy metal[J]. Guangdong Chemical Industry,2016, 43(17):66,72.(in Chinese)
[13] YOU M H,YAN X,ZHANG J,et al. Colorimetric humidity sensors based on electrospun polyamide/CoCl2 nanofibrous membranes[J]. Nanoscale Research Letters,2017,12(1):1-8.(in Chinese)
[14] ZHANG Min,SHENG Junlu,YIN Xia,et al.Polyvinyl butyral modified polyvinylidene fluoride breathable-waterproof nanofibrous membranes with enhanced mechanical performance[J]. Macromolecular Materials and Engineering,2017,302(8):1-9.
(责任编辑:邢宝妹)

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更新日期/Last Update: 2020-06-30