Mudasir Yatoo PhD, CEng, CSci

Advancing electrochemical devices: the promise of triple ionic–electronic conducting oxides

Journal of Physics D: Applied Physics IOP Publishing 58:38 (2025) 383001-383001

Authors:

Mudasir A Yatoo, Stephen J Skinner

Abstract:

Abstract Triple ionic–electronic conducting materials represent a key advancement in the development of electrochemical devices, enabling simultaneous transport of electrons, oxygen ions, and protons. This unique property allows triple ionic–electronic conducting materials to overcome the limitations of traditional mixed ionic–electronic conductors by expanding reaction zones from interfacial regions to the material bulk, significantly enhancing reaction kinetics. Triple ionic–electronic conducting materials have shown promise in devices such as solid oxide fuel cells, protonic ceramic cells, and catalytic membrane reactors, delivering improved efficiency, especially at intermediate temperatures. This review provides a concise examination of properties of triple ionic–electronic conducting materials, focusing on the role of perovskite and layered oxide systems. Key mechanisms of conduction, including proton hopping via the Grotthuss mechanism, oxygen ion diffusion through vacancy pathways, and electronic conduction via small-polaron hopping, are critically analysed. Advances in material design, such as doping strategies to stabilise crystal phases and optimise defect chemistry, are highlighted as crucial enablers of high-performance triple ionic–electronic conducting materials. Despite their promise, triple ionic–electronic conducting materials face challenges related to material degradation, phase instability, and scalability. This review discusses recent innovations aimed at addressing these issues, including multi-phase composites and computational modelling for material optimisation. By offering an integrated understanding of triple ionic–electronic conducting materials’ fundamental properties, applications, and challenges, this work aims to guide further research, positioning triple ionic–electronic conducting materials as a promising candidate for the next-generation sustainable energy technologies.

A critical spotlight on tetraphenylethylene conjugates as versatile tools for nitro-explosive detection

Journal of Industrial and Engineering Chemistry Elsevier 143 (2025) 109-122

Authors:

Mansha Majid, Muneeba Amin, Khushboo Bashir, Waseem A Wani, Jahangir Ahmad Rather, Faiza Habib, Waheed Ahmad Khanday, Mohammad Syed Shah, Akhtar Hussain Malik, Mudasir A Yatoo

Hydration-driven enhancement of interstitialcy oxide-ion diffusion

Journal of Materials Chemistry A Royal Society of Chemistry (RSC) 13:35 (2025) 28955-28964

Authors:

Yuichi Sakuda, Mudasir A Yatoo, Bhuvaneshwari Manivannan, Vediyappan Veeramani, Junko Habasaki, Stephen J Skinner, Hiroshige Matsumoto, Masatomo Yashima

Abstract:

Hydration of an interstitial oxide-ion conductor enhances oxygen conductivity and diffusivity, as evidenced by water vapor and oxygen concentration cell, TG, conductivity, and tracer diffusion measurements and neural network MD simulations.

Frontiers in metal–organic frameworks: innovative nanomaterials for next-generation supercapacitors

Advanced Composites and Hybrid Materials Springer Nature 7:6 (2024) 215

Authors:

Mohd Zahid Ansari, Faiza Habib, Jhalak Gupta, Abdullah Saad Alsubaie, Imad Barsoum, Akram Alfantazi, Mudasir A Yatoo, Zubair Ahmad, Iftikhar Hussain

From invisible to visible: a concise review on conjugated polymer materials in latent fingerprint analysis

Journal of Polymer Research Springer Nature 31:8 (2024) 235

Authors:

Khushboo Bashir, Muneeba Amin, Mansha Majid, Fayaz Ahmad Butt, Jahangir Ahmad Rather, Waseem A Wani, Waheed Ahmad Khanday, Akhtar Hussain Malik, Mudasir A Yatoo