The first chapter in a series of articles on nanoparticle synthesis, which details the early beginnings of nanomaterials.

This whitepaper details how Accelerated Materials scaled up production of high-quality nano zinc oxide from 1 kg/day to 100 kg/day with K-series reactors.

The seminal Nature Communications paper that unveiled the importance of hydrodynamic forces in nanoparticle synthesis, and their ability to control the shape and size of layered double hydroxide nanoparticles.

This article explores the synthesis of two dimensional materials, and uncovers how solvent selection plays a massive role in directing particle self assembly.

This article details the first use of AM's platform - combining machine learning and nanomaterials synthesis - to rapidly optimise material performance, discover new structures and improve productivity - all at once.

This comprehensive book delves into the synthesis, characterization, and application of nanomaterials in catalysis and energy sectors. It explores how nano-structured materials enhance catalytic processes and contribute to energy storage and conversion technologies.

This study presents a solvent-based method to create binder-free, superstructured thin films of NiCo layered double hydroxides on nickel foam electrodes. By engineering nanoparticles to have high "edge" content, and using solvent as a structure directing agent, we obtained extremely stable performance over thousands of cycles.