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Institute

Institute for a sustainable Hydrogen Economy (IHE)

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    • Catalytic Interfaces for Chemical Hydrogen Storage (IHE-1)
      • ▾Fundamentals of Chemical Hydrogen Storage
      • ▾High-Energy X-Ray Methods
      • ▾Interface Science of Hydrogen Storage Molecules
      • ▾Long-Term and High-Throughput Characterization
      • ▾Multiscale Multimodal Characterization
      • ▾Direct LOHC Fuel Cells
    • Catalytic Materials for Chemical Hydrogen Storage (IHE-2)
      • ▾Catalyst Materials for Gas Phase Reactions
      • ▾Catalyst Materials for Liquid Phase Reactions
      • ▾Integrated Reaction Concepts & Alternative Energy Input
      • ▾Catalyst Shaping, Translation & Scale-Up
    • Reaction Technology for Chemical Hydrogen Storage (IHE-3)
      • ▾Reaction Kinetics
      • ▾Reaction Control and Reaction Systems
      • ▾Reactor Design and Reactor technology
    • Process and Plant Engineering for Chemical Hydrogen Storage (IHE-4)
      • ▾Experimental Technology Trial
      • ▾Process Synthesis and Analysis
      • ▾Technology Platform Alcohols and Ethers
      • ▾Technology Platform Inorganic H2 Carriers
      • ▾Technology Platform LOHC
    • Infrastructure and Scientific Coordination (IHE-I)
      • ▾Science Office (IHE-IS)
      • ▾Technical and Administrative Infrastructure (IHE-IT)
      • ▾Hydrogen Network NRW
    • H2 Demonstration Projects (IHE-D)
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                    X-rays

                    On the Same Wavelength as Atoms

                    IIn future, the chemical industry must be able to produce large quantities of key chemicals such as methanol in a climate-friendly, efficient and economical manner, even with a fluctuating supply of green energy.

                    Demonstration project

                    Using hydrogen for more climate-friendly metal processing

                    When metals need to change their shape or hardness, one thing is usually required above all else: heat treatment.

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                    Publications

                    Last Modified: 24.02.2026

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