AAAAAA
Results:
1-9
|
Results: 9
Authors:
Shan, D
Mu, SL
Mao, BW
Citation: D. Shan et al., Detection of intermediate during the electrochemical polymerization of azure B and growth of poly(azure B) film, ELECTROANAL, 13(6), 2001, pp. 493-498
Authors:
Zhu, HP
Mu, SL
Citation: Hp. Zhu et Sl. Mu, Electrochemical polymerization of methylene green, CHIN J CHEM, 19(6), 2001, pp. 620-626
Authors:
Zhu, HP
Mu, SL
Citation: Hp. Zhu et Sl. Mu, Effect of Fenton reagent on the synthesis of polyaniline, SYNTH METAL, 123(2), 2001, pp. 293-297
Authors:
Shan, D
Mu, SL
Mao, BW
Li, YF
Citation: D. Shan et al., Electrochemical copolymerization of aniline and azure B, CHIN J POLY, 19(5), 2001, pp. 483-492
Authors:
Shan, D
Mu, SL
Citation: D. Shan et Sl. Mu, Electrochemical synthesis and properties of poly(azure B), CHIN J POLY, 19(4), 2001, pp. 359-370
Authors:
Mousty, C
Cosnier, S
Shan, D
Mu, SL
Citation: C. Mousty et al., Trienzymatic biosensor for the determination of inorganic phosphate, ANALYT CHIM, 443(1), 2001, pp. 1-8
Authors:
Wang, HY
Mu, SL
Citation: Hy. Wang et Sl. Mu, Bioelectrochemical characteristics of cholesterol oxidase immobilized in apolyaniline film, SENS ACTU-B, 56(1-2), 1999, pp. 22-30
Authors:
Liu, JC
Mu, SL
Citation: Jc. Liu et Sl. Mu, The electrochemical polymerization of methylene blue and properties of polymethylene blue, SYNTH METAL, 107(3), 1999, pp. 159-165
Authors:
Mu, SL
Kan, JQ
Citation: Sl. Mu et Jq. Kan, Energy density and IR spectra of polyaniline synthesized electrochemicallyin the solutions of strong acids, SYNTH METAL, 98(1), 1998, pp. 51-55
Risultati:
1-9
|