High-sensitive amperometric hydrazine sensor based on chemically synthesized zinc nitroprusside nanoparticle-supported carbon ceramic electrode-Reference-Cited by-同舟云学术

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High-sensitive amperometric hydrazine sensor based on chemically synthesized zinc nitroprusside nanoparticle-supported carbon ceramic electrode

Published:2017-02-23 Issue:6 Volume:14 Page:1301-1308
ISSN:1735-207X
Container-title:Journal of the Iranian Chemical Society
language:en
Short-container-title:J IRAN CHEM SOC

Author:

Habibi Esmaeil,Heidari Hassan

Publisher

Springer Science and Business Media LLC

Subject

General Chemistry

Link

http://link.springer.com/article/10.1007/s13738-017-1080-6/fulltext.html

Reference41 articles.

1. S. Garrod, M.E. Bollard, A.W. Nicholls, S.C. Connor, J. Connelly, J.K. Nicholson, E. Holmes, Integrated metabonomic analysis of the multiorgan effects of hydrazine toxicity in the rat. Chem. Res. Toxicol. 18, 115–122 (2005)

2. K. Yamada, K. Yasuda, N. Fujiwara, Z. Siroma, H. Tanaka, Y. Miyazaki, T. Kobayashi, Potential application of anion-exchange membrane for hydrazine fuel cell electrolyte. Electrochem. Commun. 5, 892–896 (2003)

3. S. Amlathe, V.K. Gupta, Spectrophotometric determination of trace amounts of hydrazine in polluted water. Analyst 113, 1481–1483 (1988)

4. J.W. Mo, B. Ogorevc, X. Zhang, B. Pihlar, Cobalt and copper hexacyanoferrate modified carbon fiber microelectrode as an all-solid potentiometric microsensor for hydrazine. Electroanalysis 12, 48–54 (2000)

5. T. Sakamoto, K. Asazawa, U. Martinez, B. Halev, T. Suzuki, S. Arai, D. Matsumur, Y. Nishihata, P. Atanassov, H. Tanaka, Electrooxidation of hydrazine hydrate using Ni–La catalyst for anion exchange membrane fuel cells. J. Power Sources 234, 252–259 (2013)

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