Facile synthesis of Prussian blue @ gold nanocomposite for nonenzymatic detection of hydrogen peroxide

RSC Advances ◽  
2013 ◽  
Vol 3 (36) ◽  
pp. 15987 ◽  
Author(s):  
Pengjuan Ni ◽  
Yue Zhang ◽  
Yujing Sun ◽  
Yan Shi ◽  
Haichao Dai ◽  
...  
2021 ◽  
Author(s):  
Miaomiao Zou ◽  
Li Feng ◽  
Xiaoyun Lin ◽  
Yongnian Ni

In this paper, a new Co3O4-Ni nano-composite modified glassy carbon electrode (Co3O4-NiNPs/GCE) was successfully constructed and used to detect glucose and hydrogen peroxide (H2O2). The morphology and structure of Co3O4...


Author(s):  
Swati Verma ◽  
Dipendra Singh Mal ◽  
Paulo R. Oliveira ◽  
Bruno Campos Janegitz ◽  
Jai Prakash ◽  
...  

Electrochemical method is the most effective, facile, and economical approach for the detection of small molecules. The present article deals with design and engineering of polymer-graphene based thin films through...


2018 ◽  
Vol 3 (43) ◽  
pp. 12263-12268 ◽  
Author(s):  
Sudharshan Vadnala ◽  
Suryasnata Tripathy ◽  
Nirupam Paul ◽  
Amit Agrawal ◽  
S. G. Singh

2013 ◽  
Vol 4 ◽  
pp. 649-654 ◽  
Author(s):  
Maria A Komkova ◽  
Angelika Holzinger ◽  
Andreas Hartmann ◽  
Alexei R Khokhlov ◽  
Christine Kranz ◽  
...  

We report here a way for improving the stability of ultramicroelectrodes (UME) based on hexacyanoferrate-modified metals for the detection of hydrogen peroxide. The most stable sensors were obtained by electrochemical deposition of six layers of hexacyanoferrates (HCF), more specifically, an alternating pattern of three layers of Prussian Blue and three layers of Ni–HCF. The microelectrodes modified with mixed layers were continuously monitored in 1 mM hydrogen peroxide and proved to be stable for more than 5 h under these conditions. The mixed layer microelectrodes exhibited a stability which is five times as high as the stability of conventional Prussian Blue-modified UMEs. The sensitivity of the mixed layer sensor was 0.32 A·M−1·cm−2, and the detection limit was 10 µM. The mixed layer-based UMEs were used as sensors in scanning electrochemical microscopy (SECM) experiments for imaging of hydrogen peroxide evolution.


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