Themed collection Surface Engineering of Transition Metal-based 2D Layered Materials

Subrata Kundu introduces the Materials Advances themed collection on Surface engineering of transition metal-based 2D layered materials.

Due to the excellent properties, 2D transition metal layered materials have been thoroughly investigated for anti-corrosion. This article briefly reviews the structures and synthetic methods of 2D transition metal layered materials, and their recent applications in metal corrosion prevention.

This study focuses on potential applications of two-dimensional (2D) materials in renewable energy research.

Layered double hydroxides (LDHs) and transition metal dichalcogenides (TMDs) are promising electrocatalysts in the splitting of water and the production of hydrogen.

Bridging the properties of MOFs and graphene and the development of MOF–graphene composite materials has the potential to extend their usage in supercapacitors and serve as a valuable resource for further investigation.

High-entropy NiCrCoFeMo layered hydroxide has been identified as a potential electrocatalyst for sustainable seawater oxidation with high activity and great corrosion resistance ability.

Multi-Layer (ML)-Ti₃C₂T_z MXene is being incorporated in lubricants to enhance their tribo-electrical performance.

NiSe₂/g-C₃N₄ nanocomposite catalyst exhibits superior hydrogen evolution performance, offering a cost-effective and sustainable alternative to noble metal-based catalysts for hydrogen production.

Creating effective heterostructure photocatalysts with S-scheme-based charge-transfer dynamics enables efficient electron transfers, thereby enhancing visible-light-induced photocatalytic hydrogen production.

Microwave-assisted synthesis of 2D WSe₂ nanoflakes from a single molecular source for efficient electrocatalysis.

1T-MoS₂-metallic Ni composite as cathode and NiS as anode material showed efficient electrocatalytic performance towards total water splitting under alkaline conditions.

We investigate the structural and electronic properties of pristine 2D SiP₂ monolayers, and upon doping with a transition metal (Cr, Mn, Co, Ni). Further, we show the potential application as an anode material in metal ion batteries.

NiCo-carbonate layered double hydroxides of diverse morphologies, such as nanorod, microcube, microplate and urchin-like, are synthesized by a single-step synthesis and their electrochemical energy storage performance is evaluated.