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Meeting

2026 TMS Annual Meeting & Exhibition

Symposium

2D Materials – Preparation, Properties, Modeling & Applications

Presentation Title

Robust and tunable oxide nanoscrolls for solar-driven H2 generation and storage

Author(s)

Arunima K. Singh

On-Site Speaker (Planned)

Arunima K. Singh

Abstract Scope

Hydrogen gas is a promising alternative to fossil fuels due to its high energy output and environmentally safe byproducts. Various morphologies of photocatalytic materials have been explored for high-efficiency H2 production, for instance, 2D or quasi-1D nanoscroll structures that provide a larger surface-to-volume ratio. In this work, we employ data mining, first-principles simulations, and physio-mechanical models to theoretically predict layer-by-layer formation of five stable oxide nanoscrolls directly from dichalcogenide precursors. We further predict their electronic and optical properties as a function of interlayer scroll spacing and find them highly conducive for solar-driven photocatalysis. Additionally, using ab initio molecular dynamics simulations, we show that they are also suitable for H2 storage as the nanoscrolls exhibit an effective trapping of hydrogen, even in the presence of defects and vacancies in the oxides. This work thus demonstrates the discovery of robust and tunable oxide nanoscrolls as materials for advancing solar-driven hydrogen technologies.

Proceedings Inclusion?

Planned:

Keywords

Computational Materials Science & Engineering, Energy Conversion and Storage, Nanotechnology

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3D printed nanomaterial-based electronics.

A Panoramic View of MXenes via an Atomic Coordination-Based Design Strategy

Ab Initio Molecular Dynamics Investigation of Moisture-Induced Surface Degradation in FAPbI₃ Perovskite: Role of Water Adsorption and Surface Termination

An integrated numerical modelling framework for simulation of the multiphysics in sonoprocessing of 2D materials

An Ultra-Fast and Facile Fabrication of Turbostratic Holey Graphene and its Electrochemical Behaviour

Atomic Structures of Layered Telluride Quantum Materials

Band Gap Modulation in Bilayer Graphene via Site-selective Monolayer Doping

Carbon as Proton Storage Site in Ti3C2Tx during Electrochemical Protonation

Controlled 3D Arrangement of 2D Materials

Development of Perovskites Based on High Density and High Atomic Number for Space Applications

Effects of Atomic Coordination on the Structural and Mechanical Properties of MXenes

Electro-Thermal Modeling of Heat Distribution in PEEK-Encased Cylindrical Li-Ion Batteries Under Varying Discharge Rates

Engineering Conductive 3D MXene Networks via Porous Silica Infiltration

Enhancement of electrical conductivity in copper-graphene multilayer system

Epitaxial diamond grown on Si substrates using a 2D buffer layer of Yttria stabilised Zirconia (YSZ).

Experimental and thermodynamic analysis of CVD-based MXene synthesis

From Atoms to Applications: Computational Design of MXenes for Energy, Sensing, and Ion Separation

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Highly Ordered rGO for Advanced Energy Storage Applications: Scalable and Cost-Effective Production

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Novel approaches to synthesis and processing of 2D materials (Keynote)

Probing Johnson Noise with Shallow Spin Defects in 2D hBN

Progress, Challenges, and Opportunities in the Field of MXenes

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Spintronic Implications of Diamond-like Thin Films

Stability of two-dimensional high-entropy transition metal dichalcogenide alloys

Strain-induced Moir� Reconstruction and van der Waals thermal transport

Thermal Conductivity of Multilayer Titanium Carbide (Ti₃C₂Tₓ) MXene Nanosheets Measured by Raman Optothermal Method

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Thermal Property Enhancement of Phase Change Materials (PCMs) by Engineered 2D N-Doped Graphene (N-G) Nanoparticle Support

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