Revolutionising Material Production
Our innovative approach to material production sets us apart. With our advanced plasma technology, we deliver scalable, sustainable and cost-effective manufacturing to produce a wide range of high-purity materials across various industries.
Environmental Sustainability
A fully dry, solvent-free process that eliminates wastewater and significantly reduces energy consumption, making it an eco-friendly alternative to conventional methods.
Efficiency at Scale
Our advanced microwave plasma torch technology enables fast synthesis, transforming solid precursors into advanced materials within seconds, ideal for continuous large-scale production.
Material Versatility and Purity
Capable of producing a broad range of high-performance, high-purity materials tailored for batteries, semiconductors, electronics, robotics, aerospace and more.
Cost-Effective Manufacturing
By using low-cost precursors and removing the need for calcination or complex chemical steps, we drastically reduce production costs while maintaining quality.
Innovative Solutions for Advanced Material Production
We design and deliver next-generation materials that meet the demands of high-performance industries.
From energy-dense battery anodes and cathodes to precision-engineered alloy powders, our materials are produced using a dry, rapid, and scalable plasma process combining purity, efficiency, and sustainability in every particle.
Next-Generation Materials Enabled by Plasma Innovation
Anode Materials
Carbon-Coated SiOx (C-SiOx)
A high-performance anode material featuring a nano-scale core-shell structure, where silicon is coated with a thin oxide layer and conductive carbon – delivering high capacity, reduced volume expansion and excellent cycle stability for lithium-ion batteries.
Metal Lithium Ribbon with Embedded Magnesium (MLRM)
A cutting-edge lithium metal thin film anode designed for solid-state batteries. Magnesium inclusion suppresses lithium dendrite growth, improving safety, conductivity and longevity with scalable inline production using low-cost LiCl and MgCl2.
Cathode Materials
Cathode Powders
A nickel-rich cathode synthesised through our dry plasma process using inexpensive precursors. Offers high energy density, uniform particle size and enhanced environmental and economic efficiency – ideal for EVs and grid-scale storage systems.
Advanced Materials
Nickel-Alloy Powders
Includes high-purity Permalloy (NiFe 80:20) and Invar (NiFe 36:64) nanoparticles with tailored magnetic and thermal properties, supporting applications in batter cathodes, MLCCs, electronic devices and power systems.
High Entropy Alloy (HEA) Powders
Multicomponent spherical metal powders with uniform elemental distribution, engineered for extreme environments. Ideal for additive manufacturing (3D printing), aerospace components and advanced defense systems where mechanical strength and thermal resistance are critical.
Advanced Materials Crafted Through Our Innovative Technology
A photograph showcasing carbon-coated silicon (Si) powder, produced for comparison with silicon oxide (SiOx). This carbon coating technology is employed to coat and agglomerate SiOx effectively.
(a) Si nanoparticles with a typical natural oxide film
(b) Si particles coated with a 6 nm layer of SiO2
(c) Si particles with 12 nm SiO2 coated
SEM images show the cathode alloys, including nickel chloride (NiCl2), manganese chloride (MnCl2), cobalt chloride (CoCl2), and lithium chloride (LiCl).
The EDS image of HEA Powder shows that each of the five elements (Co, Ni, Fe, Cr, Mn) is uniformly distributed.
