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Diesel particulate filter systems / engines
Catalysing the net zero transition for our customers
[HP(tBu)₃]₂[Pd₂Cl₆] | CAS Number: 2548904-14-7
ALU-FLO, EASYFLO, soldering fluxes and TENACITY flux powders and pastes
Johnson Matthey offer a wide range of Platinum Group Metal (PGM) sheet and foils used in many applications including fine jewellery, sensors, electrical contacts and fabrications for the glass industry.
Aromatic and aliphatic primary amines can be obtained using our Transaminases
Rhodium(2,4-pentanedionate)(1,5-cyclooctadiene) | CAS: 12245-39-5
Glucose dehydrogenase (GDH) catalyses the oxidation of D-glucose to D-glucolactone, while reducing in turn NAD+ or NADP+ to NADH and NADPH, respectively.
[Pd(CH₃CN)₄](BF₄)₂ | CAS Number: 21797-13-7
PdCl₂ (CH₃CN)₂ | CAS Number: 14592-56-4
CAS: 7440-16-6
Rhodium(III) chloride solid | CAS: 10049-07-7
Pd₂(dba)₃ | CAS Number: 51364-51-3
An imine reductase (IRED) that catalyses the reductive amination of ketones with small aliphatic amines.
CAS: 20765-98-4
Pd(dba)₂ | CAS Number: 32005-36-0
Flexible CCM solutions; we provide JM’s proprietary electrochemistry in roll format.
CAS Number: 68478–92–2
Trimethyl(methylcyclopentadienyl)platinum(IV) | CAS: 94442-22-5
Data centre emission control product
Diesel particulate filter systems / mining
GDH enzymes catalyses the oxidation of D-glucose to D-glucolactone, while reducing in turn NAD+ or NADP+ to NADH and NADPH.
Triflate and chloride pi-allyl palladium products
Second and third generation buchwald precatalysts for advanced cross-coupling applications.
Bis-phosphine palladium halide pre-catalysts for basic cross coupling applications.
Bisphosphonium dichloropalladate complexes featuring tertiary phosphonium ligands
ADH enzymes used to catalyse the reduction of ketones and aldehydes to the corresponding alcohols
Imine reductases (IREDs) biocatalysts are used to produce enantiopure primary, secondary and tertiary amines
Glucose dehydrogenase catalyses the oxidation of D-glucose to D-glucolactone
Formate dehydrogenase (FDH enzyme) oxidises formate to carbon dioxide
Ene reductase enzyme catalyse the reduction of C=C double bonds
Transaminase enzymes can be used to produce aromatic and aliphatic primary amines.
Alanine dehydrogenase catalyses the reductive amination of pyruvate to L-alanine
Amine dehydrogenase enzymes are wild type and engineered enzymes to catalyse a wider range of transformations
Lactate dehydrogenase catalyses the reduction of pyruvate to either (R)- or (S)- lactate
We offer multi-enzymatic systems to remove the pyruvate by-product from the reaction
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