Carbon Nanotube Supported CdM(S, Se)/CdTe Anode Catalysts for Electrooxidation of Glucose in Alkaline Media

Hilal DEMİR KIVRAK; Nahit AKTAŞ

Carbon Nanotube Supported CdM(S, Se)/CdTe Anode Catalysts for Electrooxidation of Glucose in Alkaline Media

Author(s) in the Institution Hilal DEMİR KIVRAK
Nahit AKTAŞ
Author/s Aykut Caglar, Hilal Kivrak, Nahit Aktas
URL https://chemistry-europe.onlinelibrary.wiley.com/doi/10.1002/slct.202204692
Publication type Article
Publication year 2023
Index Type SCI Expanded
Scopus
DOI 10.1002/slct.202204692
Publisher Wiley
Source ChemistrySelect 8, ( 12 ), pp.Article Number: e202204692 -
Subject Headings glucose
electrooxidation
sequential reduction method
catalyst

The sequential sodium borohydride (SBH, NaBH4) reduction method was utilized to prepare the 0.1 CdSe/CNT, 0.1 CdS/CNT, 0.1 (CdS-CNT)/CdTe, and 0.1 (CdSe-CNT)/CdTe catalysts. The XRD, SEM-EDS, TEM, and XPS analyses were used to characterize the catalysts. The electrochemical measurements were examined by cyclic voltammetry (CV), chronoamperometry (CA), and electrochemical impedance spectroscopy (EIS) analyses for glucose electrooxidation. The characterization analyses revealed that the desired structure was formed on the support material. The electrochemical analysis results indicated that the 0.1 (CdSe-CNT)/CdTe catalyst has higher catalytic activity, stability, and resistance compared to other catalysts with a specific activity of 2.4 mA cm(-2).

Keyword: glucose, electrooxidation, sequential reduction method, catalyst, OXIDE, ELECTROCATALYSTS, NANOPARTICLES, OPTIMIZATION

Collections Technical, Science and Applied Sciences

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Publication Name (dc.title)	Carbon Nanotube Supported CdM(S, Se)/CdTe Anode Catalysts for Electrooxidation of Glucose in Alkaline Media
Author/s (dc.contributor.yazarlar)	Aykut Caglar, Hilal Kivrak, Nahit Aktas
Publication type (dc.type)	Makale
Language (dc.language)	İngilizce
Publication year (dc.date.issued)	2023
National/International (dc.identifier.ulusaluluslararasi)	Uluslararası
Source (dc.relation.journal)	ChemistrySelect
Number (dc.identifier.issue)	12
Volume/Issue (dc.identifier.volume)	8
Page (dc.identifier.startpage)	Article Number: e202204692
ISSN/ISBN (dc.identifier.issn)	ISSN: 2365-6549
Publisher (dc.publisher)	Wiley
Databases (dc.contributor.veritaban)	Web of Science Core Collection
Databases (dc.contributor.veritaban)	Wiley
Databases (dc.contributor.veritaban)	Scopus
Index Type (dc.identifier.index)	SCI Expanded
Index Type (dc.identifier.index)	Scopus
Impact Factor (dc.identifier.etkifaktoru)	2,1 / 2022-WOS / 5 Year: 2
Abstract (dc.description.abstract)	The sequential sodium borohydride (SBH, NaBH4) reduction method was utilized to prepare the 0.1 CdSe/CNT, 0.1 CdS/CNT, 0.1 (CdS-CNT)/CdTe, and 0.1 (CdSe-CNT)/CdTe catalysts. The XRD, SEM-EDS, TEM, and XPS analyses were used to characterize the catalysts. The electrochemical measurements were examined by cyclic voltammetry (CV), chronoamperometry (CA), and electrochemical impedance spectroscopy (EIS) analyses for glucose electrooxidation. The characterization analyses revealed that the desired structure was formed on the support material. The electrochemical analysis results indicated that the 0.1 (CdSe-CNT)/CdTe catalyst has higher catalytic activity, stability, and resistance compared to other catalysts with a specific activity of 2.4 mA cm(-2).
Abstract (dc.description.abstract)	Keyword: glucose, electrooxidation, sequential reduction method, catalyst, OXIDE, ELECTROCATALYSTS, NANOPARTICLES, OPTIMIZATION
URL (dc.rights)	https://chemistry-europe.onlinelibrary.wiley.com/doi/10.1002/slct.202204692
DOI (dc.identifier.doi)	10.1002/slct.202204692
Faculty / Institute (dc.identifier.fakulte)	Mühendislik Fakültesi
Department (dc.identifier.bolum)	Kimya Mühendisliği Bölümü
Author(s) in the Institution (dc.contributor.author)	Hilal DEMİR KIVRAK
Author(s) in the Institution (dc.contributor.author)	Nahit AKTAŞ
Kayıt No (dc.identifier.kayitno)	BLEBAA7BBA
Record Add Date (dc.date.available)	2023-03-12
Notes (Publication year) (dc.identifier.notyayinyili)	March 2023
Wos No (dc.identifier.wos)	WOS:000953917700001
Subject Headings (dc.subject)	glucose
Subject Headings (dc.subject)	electrooxidation
Subject Headings (dc.subject)	sequential reduction method
Subject Headings (dc.subject)	catalyst

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