Surface modulation and structural engineering of graphitic carbon nitride for electrochemical sensing applications /
Title
Surface modulation and structural engineering of graphitic carbon nitride for electrochemical sensing applications /
Subject
Chemistry
Description
Journal of Nanostructure in Chemistry, Vol.12, Issue 5, ISSN No: 2193-8865.
The rediscovery of the old-age material graphitic carbon nitride (g-C3N4), a 2D conducting polymer, has given rise to a tide of articles exploring its diverse applications. Recently, owing to its excellent physicochemical stability and tunable electronic structure, the material has proven to be an eminent candidate for improving the sensing quality of electrodes. Excellent properties of g-C3N4 such as exposed surface area, metal-free characteristics, and low-cost synthesis have attracted facile and economical designing of sensors for a variety of analyte molecules. Herein, the readers are introduced to the historical development of g-C3N4 and escorted to the present findings of its electrochemical sensing applications. Along with its sensing utilities, the review shares some exciting insights into the synthesis, structural, and surface chemistry modulations of g-C3N4.
The rediscovery of the old-age material graphitic carbon nitride (g-C3N4), a 2D conducting polymer, has given rise to a tide of articles exploring its diverse applications. Recently, owing to its excellent physicochemical stability and tunable electronic structure, the material has proven to be an eminent candidate for improving the sensing quality of electrodes. Excellent properties of g-C3N4 such as exposed surface area, metal-free characteristics, and low-cost synthesis have attracted facile and economical designing of sensors for a variety of analyte molecules. Herein, the readers are introduced to the historical development of g-C3N4 and escorted to the present findings of its electrochemical sensing applications. Along with its sensing utilities, the review shares some exciting insights into the synthesis, structural, and surface chemistry modulations of g-C3N4.
Creator
Babu, Ann Mariella., Rajeev, Rijo., Thadathil, Ditto Abraham., Varghese, Anitha., Hegde, Gurumurthy.
Publisher
SpringerLink
Date
2022
Language
English
Type
Research Publication
Collection
Citation
Babu, Ann Mariella., Rajeev, Rijo., Thadathil, Ditto Abraham., Varghese, Anitha., Hegde, Gurumurthy., “Surface modulation and structural engineering of graphitic carbon nitride for electrochemical sensing applications /,” CHRIST (Deemed To Be University) Institutional Repository, accessed November 28, 2024, https://archives.christuniversity.in/items/show/2132.