Rahadian Zainul; Rafika Rafika; Hasanudin Hasanudin; Imtiaz Ali Laghari; Dadan M Hamdani Hamdani; Jerri Mapanta; Raden Haris Handayana; Doche Delson; Riso Sari Mandeli; Hasriwan Putra; Metla Sai Bhavani Sravan; Azril Azril; Abel Adekanmi Adeyi; Saefulloh Saefulloh
Abstract
This systematic review critically examines recent advancements in electrochemical materials and methodologies for enhancing stability and performance in energy storage and analytical ...
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This systematic review critically examines recent advancements in electrochemical materials and methodologies for enhancing stability and performance in energy storage and analytical applications. The review encompasses a diverse range of topics, including the thermodynamic analysis of cathode-contacting material stability, nanostructure-modified electrodes for detecting emerging contaminants, electrochemical stability of Zn anodes, long-term cycling of inorganic Ca(NO3)2 salt electrodes, chemically modified electrode interactions for signal transduction, self-assembled iron oxide nanoparticle-modified electrodes for simultaneous Cd(II) and Pb(II) ion stripping analysis, molecularly imprinted polymers-based electrochemical sensors for catecholamine neurotransmitter determination, amino acid-fabricated glassy carbon electrodes for simultaneous sensing of heavy metal ions, and silver nanoparticles coupled with graphene nanoplatelets for detecting Rhodamine B in food products. By systematically analyzing these advancements, this review offers insights into the diverse strategies employed to enhance electrochemical system stability and sensitivity, serving as a valuable reference for researchers and engineers working in energy storage and analytical electrochemistry fields.