Affordable Access

Emerging investigator series: dispersed transition metals on a nitrogen-doped carbon nanoframework for environmental hydrogen peroxide detection

Authors
  • Li, ZH
  • Jiang, YH
  • Liu, CM
  • Wang, ZY
  • Cao, ZQ
  • Yuan, Y
  • Li, MJ
  • Wang, YL
  • Fang, DL
  • Guo, Z
  • Wang, DB
  • Zhang, GJ
  • Jiang, JK
  • Li, Zehui
  • Jiang, Yuheng
  • Liu, Chenming
  • Wang, Zhuoya
  • Cao, Zhiqin
  • Yuan, Yi
  • Li, Mingjie
  • And 6 more
Publication Date
Jan 01, 2018
Source
Institutional Repository of Institute of Process Engineering, CAS (IPE-IR)
Keywords
License
Unknown
External links

Abstract

<p>Hydrogen peroxide (H2O2) is a key species in many environmental processes such as the electro-Fenton system to remove organic pollutants in wastewater treatment. Traditional methods for measuring H2O2 are often complex and time-consuming. Due to their low cost and high catalytic activity, transition metals (TM) can be used as high-performance electrochemical sensing materials for detecting H2O2. However, the aggregation of metal atoms will severely limit their catalytic efficiency and exposure area. In this study, we explored a method to disperse TM homogeneously on a zeolitic imidazolate framework-8 (ZIF-8) derived nitrogen-doped carbon (N/C) nanoframework and used it as the electrocatalyst for detecting H2O2 in an electro-Fenton system. Cu and Mn were used as the examples. Benefitting from the homogeneously dispersed TM, the synthesized nanoframework with a low content of TM exhibits superior electrocatalytic activity and an anti-interference ability in detecting H2O2. It has a wide linear range (0.0005-50 mM for 1% Cu-N/C and 0.0001-50 mM for 1% Mn-N/C) and a low detection limit (0.047 M for 1% Cu-N/C and 0.036 M for 1% Mn-N/C). Using the synthesized nanoframework, a system for continuously detecting the H2O2 concentration in an electro-Fenton system in situ was presented. The reported method to fabricate such nanomaterials with a higher catalytic efficiency of TM has implications in other applications such as environmental treatment, catalysis, and energy conversion.</p>

Report this publication

Statistics

Seen <100 times