High-Precision Material Characterization for a Cleaner, Greener World
As the climate changes, there is a growing demand for clean technology solutions that use less fossil fuel and release fewer greenhouse gases into the atmosphere. Some of the most promising clean-tech fields include the development of synthetic fuels, catalysts, and hydrogen fuel cells, as well as carbon capture and utilization.
Malvern Panalytical’s high-performance instrument portfolio allows scientists working in these areas to efficiently and precisely characterize materials using methods including X-ray diffraction and X-ray fluorescence, powering their research into the membranes, hydrogen technology, and sustainable fuels that will pave the way to a high-efficiency, low-carbon future.
Epsilon 1 is a benchtop XRF analyzer that can generate fast, cost-effective, precise, and accurate data with minimal sample preparation and operator training.
A compact, fast, and accurate benchtop XRD system, Aeris can produce precise, high-quality data in less than five minutes.
Versatile, compact, and high-performance, the Micromeritics BreakThrough Analyzer is a flexible gas delivery and management system for the precise characterization of adsorbent performance.
Providing high-performance gas adsorption, the Micromeritics 3Flex measures adsorption/desorption, surface area, pore size, and kinetics.
Performing density and porosimetry analysis for mesoporous and macroporous materials, the Micromeritics AutoPore V offers speed, accuracy, and a wide measurement range.
Fast and reliable, the Micromeritics AccuPore determines the size and relative abundance of throughpores in sheets and membranes using capillary flow porometry.
An automated, highly accurate system for chemisorption and temperature-programmed reactions, the Micromeritics AutoChem III is the most highly cited system for catalyst reactivity characterization.
The Micromeritics Flow Reactor provides real-time catalyst evaluation with excellent accuracy and reproducibility, all while operating automatically.
This application note explores how green hydrogen supports carbon neutrality, focusing on fuel cell catalysts. X-ray techniques effectively analyze catalytic powders, though their use in catalytic inks remains limited.
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Malvern Panalytical offers a comprehensive turnkey solution for the highly accurate elemental analysis of all Rare Earth Elements (REE) in ores and concentrates across a vast range of materials. Many REEs (such as neodymium, dysprosium, lanthanum, cerium, yttrium, and praseodymium) are essential for manufacturing carbon capture membranes, sorbents, and catalysts.
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Explore how our advanced material characterization solutions support innovation in hydrogen, carbon capture, and sustainable energy. From optimizing catalysts to enhancing sorbent performance, our tools help turn climate goals into measurable progress.
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