办公网 中文网 ENGLISH

科研成果

日期:2015-06-10 10:10

近年来发表论文

1.    Li Y, Fan K, Ban H, et al. Detection of very low humidity using polyelectrolyte/graphene bilayer humidity sensors[J]. Sensors and Actuators B: Chemical, 2016, 222: 151-158.
2.    Y. Li, K. Fan, H. Ban, M. Yang, Bilayer-structured composite sensor based on polyaniline and polyelectrolyte for sensitive detection of low humidity, Synthetic Metals, 199(2015) 51-7.
3.    Y. Li, T. Wu, M. Yang, Bilayer-structured nanocomposite of Ag and crosslinked polyelectrolyte for the detection of humidity, Materials Chemistry and Physics, (2015).
4.    Y. Li, T. Wu, M. Yang, Humidity sensors based on the composite of multi-walled carbon nanotubes and crosslinked polyelectrolyte with good sensitivity and capability of detecting low humidity, Sensors and Actuators B: Chemical, 203(2014) 63-70.
5.    Q. Lin, Y. Li, M. Yang, Investigations on the sensing mechanism of humidity sensors based on electrospun polymer nanofibers, Sensors and Actuators B: Chemical, 171(2012) 309-14.
6.    Q. Lin, Y. Li, M. Yang, Polyaniline nanofiber humidity sensor prepared by electrospinning, Sensors and Actuators B: Chemical, 161(2012) 967-72.
7.    Q. Lin, Y. Li, M. Yang, Tin oxide/graphene composite fabricated via a hydrothermal method for gas sensors working at room temperature, Sensors and Actuators B: Chemical, 173(2012) 139-47.
8.    Q. Lin, Y. Li, M. Yang, Gas sensing properties of layer-by-layer self-assembled ultrathin film of polyaniline/titanium dioxide, Synthetic Metals, 162(2012) 2242-9.
9.    Q. Lin, Y. Li, M. Yang, Highly sensitive and ultrafast response surface acoustic wave humidity sensor based on electrospun polyaniline/poly (vinyl butyral) nanofibers, Analytica chimica acta, 748(2012) 73-80.
10.    Y. Li, C. Deng, M. Yang, A composite of quaternized and crosslinked poly (4-vinylpyridine) with processable polypyrrole for the construction of humidity sensors with improved sensing properties, Synthetic Metals, 162(2012) 205-211.
11.   Y. Li, C. Deng, M. Yang, Facilely prepared composites of polyelectrolytes and graphene as the sensing materials for the detection of very low humidity, Sensors and Actuators B: Chemical, 194(2014) 51-8.
12.   Y. Li, C. Deng, M. Yang, A novel surface acoustic wave-impedance humidity sensor based on the composite of polyaniline and poly (vinyl alcohol) with a capability of detecting low humidity, Sensors and Actuators B: Chemical, 165(2012) 7-12.
13.   Li Y, Ying BY, Hong LJ, Yang MJ, Water-soluble polyaniline and its composite with poly(vinyl alcohol) for humidity sensing, Synth. Met., 2010, 160:455-461.
14.   Li Y, Li P, Yang MJ, Lei S, Chen YQ, Guo XS, A surface acoustic wave humidity sensor based on electrosprayed silicon-containing polyelectrolyte, Sensors and Actuators B, 2010,145: 516–520.
15.   Hong LJ, Li Y, Yang MJ, Fabrication and ammonia gas sensing of palladium/polypyrrole nanocomposite, Sensors and Actuators B, 2010, 145: 25-31.
16.   Feng J.C, Li Y., Yang MJ, Conjugated polymer-grafted silica nanoparticles for the sensitive detection of TNT, Sensors and Actuators B, 2010, 145: 438-443.
17.   Zhang GQ, Liu K, Li Y, Yang MJ, Novel poly(phenylene ethynylene)-type conjugated polymers containing diketopyrrolopyrrole or triphenylpyrazoline units in the main chain: synthesis, characterization and photophysical properties, Polym. Inter., 2009, 58(6):665-673.
18.   Lv X, Li Y, Li P, Yang MJ, A resistive-type humidity sensor based on crosslinked polyelectrolyte prepared by UV irradiation, Sensors and Actuators B, 2009,135(2):581-586.
19.   Lv X, Hong LJ, Li Y, Yang MJ, Synthesis and Humidity Sensitive Properties of Pyrrole-Based Polyelectrolytes, J Appl. Polym. Sci., 2009,112(3):1287-1293.
20.   Liu K, Li Y, Zhang GQ, Lv X, Yang MJ, The effect of humidity on the electrical behavior of a cationic conjugated polyelectrolyte based on poly(phenylene vinylene), Sensors and Actuators B, 2009,135(2):597-602.
21.   Liu K, Li Y, Yang MJ, Novel 1,4-Diketo-3,6-diphenyl pyrrolo[3,4-c]pyrrole (DPP)-based Copolymers with Large Stokes Shift, J Appl. Polym. Sci., 2009,111(4):1976-1984.
22.   Liu K, Li Y, Yang MJ, Novel electron-acceptor conjugated polymer materials based on poly(thienylene ethynylene) derivatives, E-Polymers 2009.
23.   Li P, Li Y, Ying BY, Yang MJ, Electrospun nanofibers of polymer composite as a promising humidity sensitive material, Sensors and Actuators B, 2009,141:390-395.
24.   Li P, Li Y, Hong LJ, Chen YS, Yang MJ, The electrical responses to humidity of a composite of polyaniline and polyelectrolyte, Mater. Chem. Phys., 2009,115(1):395-399.
25.   Feng JC, Li Y, Yang MJ, Hyperbranched copolymer containing triphenylamine and divinyl bipyridyl units for fluorescent chemosensors, J. Polym. Sci., Part A- Polym. Chem., 2009,47(1):222-230.
 
 
授权发明专利:


 

 

 


  1.   聚苯胺/二氧化钛纳米复合阻抗型薄膜气体传感器及其制备方法,李扬,杨慕杰,林乾乾,ZL 201210376831.X; 授权日:2015-07-15

 
 2.   阳离子聚电解质和聚吡咯复合高分子电阻型湿敏元件及其制作方法,李扬,邓超,杨慕杰,ZL 201110097980.8; 授权日:2014-05-21


 3.   一种导电高分子复合纳米纤维电阻型湿度传感器及其制备方法,李扬,杨慕杰,林乾乾,ZL 201110349483.2; 授权日:2013-06-19


 4.   一种多孔纤维凝胶聚合物电解质及其制备方法,李扬,罗丹,杨慕杰,ZL 201010516552.X; 授权日:2012-11-07


 5.   基于导电高分子复合物的溶剂水分检测元件及其制作方法,李扬,杨慕杰,张国强,徐钦炜,ZL 201010241237.0; 授权日:2012-10-31


 6.   聚电解质/本征导电聚合物复合湿敏元件及其制作方法 , 李扬,洪利杰,杨慕杰, ZL200710069735.X; 授权日:2009.08.05


 7.   一种多孔型凝胶聚合物电解质薄膜及其制备方法,杨慕杰,李为立,李扬ZL200710068639.3 ;授权日:2009.07.15


 8.   聚合物接枝碳黑复合电阻型薄膜气敏元件及其制作方法,李扬,王会才,杨慕杰,ZL200610154893.0;授权日:2009.05.06


 9.   高耐水特性的高分子电阻型薄膜湿敏元件及其制作方法,杨慕杰,吕鑫,李扬 ZL200610053691.7;授权日:2008.12.03


10.   具有互穿网络结构的高分子电阻型薄膜湿敏元件及其制作方法,杨慕杰,李扬,陈友汜 ZL200410010511.8;授权日: 2007.02.14

 



访问次数:2995