Unveiling the influence of the boron clathrate lattice on superconductivity in a ternary Mg–La–B system

Yiming Zhang, Meiling Xu, Jian Hao and Yinwei Li

J. Mater. Chem. C, 2024,12, 10678-10687

Abstract

The boron clathrate lattice facilitates the superconductivity within the Mg–La–B system.

A compositional feature-driven prediction model for the emission wavelength of Eu²⁺-doped whitlockite-type phosphors coupled with a material design framework

Zhichao Zhang, Jun Zhou, Jinhui Wang, Guotao Chu, Xuerui You, Chunping Liang and Jifan Hu

New J. Chem., 2026,50, 5815-5825

Abstract

A composition-only machine learning model was developed and integrated into a materials design framework, enabling the targeted synthesis of the solid-solution phosphor Ca_8−xSr_xMgLa(PO₄)₇ (0 ≤ x ≤ 8).

Exploring layered double hydroxide efficiency in removal of fluoride ions from water: material insights, synthesis and modification strategies and adsorption mechanisms

Li Sun, Jinan Niu, Hongpeng Liu, Fangfang Liu, Arianit A. Reka, Jakub Matusik and Peizhong Feng

RSC Sustainability, 2025,3, 715-737

From themed collection: RSC Sustainability Recent Review Articles

Abstract

This work explores the composition, synthesis and modification strategies and adsorption mechanisms of layered double hydroxide for the removal of fluoride ions from water.

Cationic composition engineering in double perovskite XLaLiTeO₆:Eu³⁺ (X = Ba, Sr, Ca, and Mg) toward efficient and thermally stable red luminescence for domestic white-LEDs

Jing Zhu, Tongsheng Yang, Hong Li, Yuefei Xiang, Ruitong Song and Hongzhi Zhang

J. Mater. Chem. C, 2023,11, 11017-11026

Abstract

The cationic composition engineering is conducted in XLaLiTeO₆:Eu³⁺ (X = Ba, Sr, Ca, and Mg), leading to the high quantum efficiency of MgLaLiTeO₆:Eu³⁺, and the optimization mechanism provides the baselines for the high-quality Eu³⁺ doped phosphors.

Catalytic pathways for efficient ammonia-to-hydrogen conversion towards a sustainable energy future

Mohammad Usman, Ahsan Ali, Zain H. Yamani and M. Nasiruzzaman Shaikh

Sustainable Energy Fuels, 2024,8, 5329-5351

Abstract

This review describes the recent development of the catalytic generation of hydrogen from ammonia for the sustainable development of the hydrogen economy.

Unveiling the influence of the boron clathrate lattice on superconductivity in a ternary Mg–La–B system

Abstract

A compositional feature-driven prediction model for the emission wavelength of Eu2+-doped whitlockite-type phosphors coupled with a material design framework

Abstract

Exploring layered double hydroxide efficiency in removal of fluoride ions from water: material insights, synthesis and modification strategies and adsorption mechanisms

Abstract

Cationic composition engineering in double perovskite XLaLiTeO6:Eu3+ (X = Ba, Sr, Ca, and Mg) toward efficient and thermally stable red luminescence for domestic white-LEDs

Abstract

Catalytic pathways for efficient ammonia-to-hydrogen conversion towards a sustainable energy future

Abstract

A compositional feature-driven prediction model for the emission wavelength of Eu²⁺-doped whitlockite-type phosphors coupled with a material design framework

Cationic composition engineering in double perovskite XLaLiTeO₆:Eu³⁺ (X = Ba, Sr, Ca, and Mg) toward efficient and thermally stable red luminescence for domestic white-LEDs