Energy Materials

In the quest for innovative answers to enhance energy efficiency and address renewable energy challenges, our materials are meticulously crafted for the purpose of advancement and production. Whether your focus is on unconventional fuels, solar power, storing energy, or fuel cells, we provide offerings that bolster your cutting-edge technologies, all while safeguarding the planet's well-being by avoiding depletion of natural resources and environmental harm.

High-Purity Salts

We offer a wide range of high-purity salts, both in anhydrous and hydrated forms, with purity levels ranging from 99.9% to 99.999%, as assessed through techniques like inductively coupled plasma mass spectrometry (ICP-MS) or inductively coupled plasma optical emission spectrometry (ICP-OES). Our diverse salt collection includes:

Solution & Vapor Deposition Precursors

Metals represent singular and pure elements, while alloys encompass mixtures of two or more elements, where at least one component is a metal. The amalgamation of metal compounds leads to the creation of heterogeneous alloys that exhibit enhanced attributes, such as heightened strength or hardness, resistance to high temperatures, efficient thermal conductivity, or protection against chemical corrosion.

High-Purity Metals & Alloys

Oxides & Ceramics

Oxides represent solid substances comprised of both cations and anions, and can encompass a variety of elements, including alkaline earth, transition, and rare earth metals. Functional oxides exhibit modifiable physicochemical characteristics, rendering them valuable in energy-related materials. Notably abundant and stable, they find utility in diverse applications, such as glass and ceramics. Ceramics, which are inorganic materials, consist of compounds involving either metals or non-metals. This category encompasses a wide spectrum of structures,

Fuel Cell Membranes & Materials

Functioning as sustainable and renewable energy sources, fuel cells generate electrical power through a reverse electrolysis reaction involving a hydrogen-rich fuel source and oxygen. Differing from conventional combustion engines, fuel cells often yield enhanced efficiencies and reduced emissions, with only heat and water as byproducts. This clean and efficient electricity source can be adapted for large-scale power plants or downscaled for transport and portable power applications.

Chalcogenides

Chalcogenides denote compounds encompassing at least one chalcogen elemental ion and one metallic element, typically encompassing sulfides, selenides, and tellurides. Exhibiting amorphous, crystalline, and nanocrystalline structures, chalcogenides are renowned for their exceptional electronic, optical, and semiconducting properties. Notably, they possess the capability to flex, self-organize, and undergo photo-darkening.

Quantum Dots

Quantum dots represent nanoscale semiconducting crystals, typically spanning 2 to 10 nanometers in diameter (equivalent to 10-50 atoms), capable of transforming incoming light spectra into different energy output frequencies. These artificially engineered crystals attain a size where quantum mechanical effects become prominent. Characterized by distinctive electronic and optoelectronic traits,

Solar Energy Materials

Solar technology has swiftly progressed in response to heightened efforts aimed at reducing carbon energy consumption and incorporating greater renewable and eco-friendly resources to align with global energy demands. Within this domain, research has concentrated on elevating solar cell efficiency through the implementation of novel technologies and the creation of cost-effective manufacturing materials.

Battery Materials

We offer a wide-ranging assortment of innovative battery materials to cater to your lithium-ion battery research and manufacturing requirements comprehensively. Whether it involves enhancing battery efficiency through downsizing material dimensions for heightened surface reactivity, creating composites to enhance conduction and mechanical support, implementing doping and functionalization for faster ion and electron movement, refining particle morphology, coating and encapsulating materials to prevent electrolyte decomposition,