Electrocatalytic reduction of 2,4 dinitrophenol on carbon black‑modified glassy carbon electrode and its selective recognition in cold beverages
(주)코리아스칼라
- 최초 등록일
- 2023.05.08
- 최종 저작일
- 2022.06
- 13페이지/ 어도비 PDF
- 가격 4,500원
* 본 문서는 배포용으로 복사 및 편집이 불가합니다.
서지정보
ㆍ발행기관 : 한국탄소학회
ㆍ수록지정보 : Carbon letters / 32권 / 4호
ㆍ저자명 : Bose Dinesh, Anantharamakrishnan Aadhav, K. S. Shalini Devi, Uma Maheswari Krishnan
목차
Abstract
1 Introduction
2 Experimental section
2.1 Materials and methods
2.2 CB interface preparation for DNP sensor
3 Results and discussion
3.1 Electrocatalytic reduction behaviour for DNP on nanocarbons
3.2 Sensor performance at CBGCE
4 Concluding remarks
Acknowledgements
References
영어 초록
Nitrophenol sensors have garnered interest in pharmaceuticals, agriculture, environment safety and explosives. Various methods have been proposed to detect 4-nitrophenol, but nitrophenol isomers such as 2,4-dinitrophenol (DNP) and 2,4,6-trinitrophenol have been comparatively less studied. For the first time, the present work explores graphitic nanocarbon, i.e., carbon black (CB) interface for sensing of DNP. Two reduction potentials were noted at − 0.48 and − 0.64 V for o-NO2 and p-NO2 moieties, respectively, at CB/GCE. At the same time, bare GCE (glassy carbon electrode) shows a single reduction potential at − 0.7 V. The electrocatalytic effect and adsorption ability of the interface was studied from the DNP concentration effect. Scan rate and pH studies suggest that the CB acquires four electrons for NO2 reduction by the diffusion phenomenon. A broad detection range of 10–250 μM DNP with a very low detection limit of 0.13 (o-form) and 0.15 μM (p-form) was achieved using the CB interface. The real-time applicability of the fabricated sensor was evaluated using commercially available beverages with excellent recovery values. The stability, repeatability and reproducibility of the CB interface were successfully confirmed. Comparison of the sensing parameters of the developed sensor with those reported in literature reveals excellent detection limit and response time for the CB-interfaced DNP sensor, indicating its potential for environmental and commercial applications.
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