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Johnson Matthey licensed processes

A portfolio of advanced process technologies for global markets. Johnson Matthey (JM) develops and licenses proprietary process technologies. We also offer collaborating companies an extensive range of technology development, process design and engineering skill. For over thirty years JM has been engaged in innovative DAVY™ licensing development. Our comprehensive expertise of catalysis and reaction engineering has been tailored to the production of a wide range of chemicals and we continue to develop novel processes using this experience.

In the following pages we describe some of the award winning process technologies which are available for license. These cost‑effective process technologies have gained us a global reputation as one of the best licensing companies in the world.

Our licensing business is fully supported by technology transfer services including conceptual process design, feasibility studies, basic engineering, supply of critical equipment and catalysts, client training, plant commissioning, plant start-up and performance testing. We have full process engineering capabilities to deliver process licences with guarantees and to supply complete front-end design and commissioning services.

We also collaborate with partner companies to create intellectual property and to exploit innovative developments which may result.

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  • CLEANPACE hydrogen solutions

    Our Low Carbon Solutions business helps our customers navigate and overcome the challenges they face in meeting emissions reduction targets. We provide tailored solutions that help you achieve significant and sustained reductions in carbon emissions; at scale, today, with existing technology. Our ...

  • Johnson Matthey licensed processes

    A portfolio of advanced process technologies for global markets. Johnson Matthey (JM) develops and licenses proprietary process technologies. We also offer collaborating companies an extensive range of technology development, process design and engineering skill. For over thirty years JM has been engaged ...

  • Green methanol

    ‘Green’ methanol means many things to different people. It encompasses low carbon emissions methanol manufacture at scale, recovery of material through waste gasification and conversion to methanol and power to liquid (e-fuel) methanol via electrochemistry and sometimes a combination of all of the ...

  • Transition to net zero: steps to decarbonize the oil refining industry

    A review of the solutions being employed by oil refineries to reduce their Scope 1, 2, and 3 greenhouse gas emissions. Despite improvements in vehicle fuel economy, increasing adoption of hybrids, and EVs, petroleum- based fuel demand continues to grow, at least in the short- to mid-term! In general, ...

  • LCH Process for the production of blue hydrogen

    There is an urgent need to limit the rise in global temperatures to avoid severe environmental and societal impact. Many countries across the world have committed to zero emission targets being met by 2050, this timeframe is now only one typical syngas plant lifetime away. The provision of decarbonised ...

  • Latest catalyst provides more methanol for longer

    Johnson Matthey's latest methanol synthesis catalyst, KATALCOTM 51-102, was introduced in 2018 to offer improved catalyst stability and therefore higher end-of-life activity and extended lifetimes than conventional methanol synthesis catalysts. Since launch, KATALCO 51-102 has been successfully installed ...

  • CLEANPACE hydrogen solutions

    Decarbonise your existing SMR based hydrogen plant today. Our Low Carbon Solutions business helps our customers navigate and overcome the challenges they face in meeting emissions reduction targets. We provide tailored solutions that help you achieve significant and sustained reductions in carbon emissions; ...

  • BioForming® Sugar to Aromatics (S2A) ready now and fit for the future

    The BioForming® S2A process turns sugars into a drop-in aromatic feedstock, BioFormate®. Like its reformate namesake, BioFormate® can be utilized to make a variety of end products such as bio-gasoline, drop-in sustainable aviation fuel (SAF), and bio-BTX (benzene, toluene and xylenes) - molecules ...

  • Ammonia cracking - Enabling access to renewable hydrogen

    Sustainably produced hydrogen is a key vector for decarbonising many hard-to-abate industries such as transportation, power and chemical manufacture. The regions expected to be prominent producers of decarbonised hydrogen are not necessarily where the demand resides. Ammonia is a potential hydrogen carrier ...

  • Making and breaking NH3 – Ammonia and its place in the low carbon economy

    Helping decarbonise the ammonia industry. With our extensive knowledge of science and technology, Johnson Matthey is helping decarbonise the ammonia industry with the following catalysts for green ammonia synthesis and cracking: PURAVOCTM GREEN 10 for oxygen removal from renewable hydrogen, KATALCOTM ...