4.6 Article

Multi-tailoring of a modified MOF-derived CuxO electrochemical transducer for enhanced hydrogen peroxide sensing

期刊

ANALYST
卷 147, 期 1, 页码 72-79

出版社

ROYAL SOC CHEMISTRY
DOI: 10.1039/d1an01864g

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资金

  1. National Natural Science Foundation of China [62001224]
  2. Natural Science Foundation of Jiangsu Province [BK20190457]
  3. 69tth batch of China Postdoctoral Science Foundation [2021M691600]
  4. Overseas Academic Partnership Program of Nanjing University of Technology (2019)
  5. Sino-French international research network New nanostructured materials and biomaterials for renewable electrical energy sources

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Reasonable control of redox states and substrate interconnection degrees is crucial for modulating sensor performance. The optimized electrochemical H2O2 sensor with low detection limit and good linear range was successfully prepared in this study.
Reasonable control of the redox states within the catalytic units together with the interconnection degrees of the substrate is of great significance in the modulation of a well-performing transducer. Herein, a novel carbon black (CB)-modified copper metal-organic framework nanomaterial (CB@Cu-MOF) prepared at room temperature was utilized as a precursor to synthesize mixed-valent copper-oxide composite catalysts (NC/CuxO-T). By tuning the carbonization process of the precursor at different temperatures (T = 100 degrees C, 200 degrees C, 300 degrees C and 400 degrees C), the different ratio configurations of the redox-alternated CuxO portions were successfully controlled with the simultaneous effective tailoring of the defect abundance in the N-doped carbon substrate. As a result, an optimized NC/CuxO-300 electrochemical H2O2 sensor was able to present a low detection limit (0.26 mu M) and decent linear ranges (0.02-1.79 mM and 2.29-9.29 mM). Our strategy using easily available initial materials with mild preparation conditions is expected to promote the practical application of the star materials in laboratories.

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