All products and services

Ni-128

NiCl₂(PPh₃)₂ | CAS 14264-16-5

Ni-131

Ni(COD)(DQ) | CAS 40759-64-6

Ni-133

NiCl₂(dtbbpy) | CAS 1034901-50-2

Ru-137

[(S)-Binap RuCl p-cymene]Cl | CAS Number: 14284-93-6

Ru-139

Tris(2,2′-bipyridyl)dichlororuthenium(II) hexahydrate | CAS Number: 50525-27-4

Ru-139

[Ru(bpy)₃][PF6]₂ | CAS Number: 50525-27-4

C1-850 (Ru-PNN)

CAS Number: 1388712-91-1

C1-751

Ru(OAc)₂(SNS)(PPh₃)

PGM Palladium

Palladium, although having the lowest melting point and being the least dense of all the PGMs, finds its way into many crucial applications. Whilst mainly used in catalytic converters, it is also an important catalyst for chemical markets. When combined with silver, palladium alloys are also used in medical, military and aerospace applications. In plating applications, it is often alloyed with nickel and gold to offer an excellent combination of conductivity, corrosion resistance and hardness.

PGM Rhodium

Rhodium’s high melting point, high temperature stability and corrosion resistance properties make it a key component in vehicle emission control, as well as glass/ production, and chemical catalysts.

PGM Ruthenium

Ruthenium is considered one of the earth's rarest metals. Its unique properties are particularly useful in electronic and electrochemical industrial applications.

PGM Iridium

Iridium is the rarest of the PGMs. It has a series of unique properties such as its high melting point, temperature stability and corrosion resistance, which make it vital in specialist applications.

Heterogeneous Catalyst 40 Sample Kit

This kit contains a complete catalytic range of supported precious metal catalysts with an optimised combination of supports and precious metal.

A302011-5

5R117

A306060-5

5% Pd(Pb) on calcium carbonate

A326050-5

5% Pd(Pb) on calcium carbonate

A106060-5

5% Pd on calcium carbonate

RTA-104

Aromatic and aliphatic primary amines can be obtained using our Transaminases

Pd-192

[HXPhos]₂[Pd₂Cl₆] | CAS Number: 2548904-04-5

DyadPalladate™ pre-catalyst kit

Our DyadPalladate™ pre-catalysts offer a cost-effective alternative to in situ and advanced cross-coupling systems.

Phosphine pi-allyl Catalyst Kit

Our new range of Phosphine pi-allyl Palladium catalysts are highly active, across a range of challenging cross-coupling reactions.

Acetylene conversion catalysts

We offer catalysts for selective hydrogenation, for both ethylene plant configurations: front-end and tail-end.

MAPD conversion catalysts

The removal of MAPD from crude propylene produces polymer grade propylene. We offer catalysts for MAPD converters configured as vapour phase or liquid phase reactors, to suit the plant's needs.

Pd-146

PdCl₂ (dppf) solvent free | CAS Number: 72287-26-4

Total saturation catalysts

We offer a range of palladium and nickel based catalysts for total saturation duties.

A-4000

A-5001

A501023-10

A-7063

Pyrolysis gasoline hydrogenation catalysts

Reforming technologies (ATR, GHR, SMR)

Johnson Matthey's DAVY™ reforming technologies transform natural gas into synthesis gas (syngas, predominantly CO, CO2 and H2) . Syngas is a feedstock for the DAVY gas to liquids (GTL) and methanol processes.

Pd-193

[HRuPhos]₂[Pd₂Cl₆] | CAS Number: 2548904-00-1

Pd-194

[HSPhos]₂[Pd₂Cl₆] | CAS Number: 2548904-02-3

Pd-195

[HBrettPhos]₂[Pd₂Cl₆] | CAS Number: 2548904-08-9

Rh-2EH, rhodium 2-ethyl hexanoate

Rh-2EH, 2% Rh | CAS: 20845-92-5

Pd-110

Palladium allyl chloride dimer | CAS Number: 12012-95-2

Palladium acetate Pd-111

Pd(OAc)₂ | CAS Number: 3375-31-3

Pd-107

PdCl₂(dppf)•(CH₃)₂CO | CAS Number: 851232-71-8

Ru-120

Tetrachlorobis(4-cymene)diruthenium (II) | CAS: 52462-29-0

Rh-70

Tris(2,4-pentanedionato)rhodium(III) | CAS: 14284-92-5

Pd-113

{Pd(µ-Br) [P(tBu)₃]}₂ | CAS Number: 185812-86-6

Pd-114

Dichlorobis(tricyclohexylphosphine)palladium(II) | CAS Number: 29934-17-6

Heterogeneous Catalyst 32 Sample Kit

This kit contains a complete catalytic range of supported precious metal catalysts with an optimised combination of supports and precious metal.

ENE-102

Ene reductase enzymes for the reduction of C=C double bonds in the presence of an electron withdrawing group

C2-900

[Rh cod DiPFc]BF₄ | CAS Number: 255064-36-9

C2-905

[Rh cod(rac)-BINAP]BF₄ | CAS Number: 439801-50-0

Our people

PGM refining

As the largest secondary Platinum Group Metals (PGM) refiner in the world, we've developed highly advanced processes for extracting and separating PGMs from products – so advanced that we can refine to a purity of 99.95%.

RTA-25

Aromatic and aliphatic primary amines can be obtained using our Transaminases

Vinyl chloride monomer (VCM) process

Johnson Matthey offers a well-established VCM technology which is recognised by industry as the most advanced acetylene-to-VCM process worldwide.

Oxo alcohols process

Johnson Matthey offers oxo-alcohol processes and a complete range of catalysts suitable for oxo-alcohol manufacture. The LP OxoSM technology is the world’s leading technology for use in the manufacture of oxo alcohols from olefins.

Synthesis technology

Johnson Matthey's DAVY™ synthesis technologies convert syngas (CO, CO2 & H2) to methanol creating exothermic reactions that have a limited conversion rate, so several passes through a reactor are required to produce sufficient methanol.

Environmental oxidation process

Environmental concerns about industrial emissions to air and water have been continually growing. In response, Johnson Matthey has targeted key issues by applying our expertise in catalysts and catalytic technology.

Ruthenium chloride solution

Ruthenium(III) chloride solution | CAS: 10049-08-8

Natural detergent alcohols process

Johnson Matthey has licensed the greatest number of plants worldwide for the production of natural detergent alcohols (NDA), also known as fatty alcohols.

Pd-106

PdCl₂(dppf)•CH₂CI₂ | CAS Number: 95464-05-4

Methylamines process

Johnson Matthey's DAVY™ methylamines (MA) flowsheet is the most extensively licensed process of its kind in the world. As such, it is well-proven through extensive use across a majority of operating MA plants. We have continued to improve our process and today offer an improved derivative of our original design.

Pd-122

PdCl₂ [P(tBu)₂Ph]₂ | CAS Number: 34409-44-4

C7-040

[((R)-BINAP)₂ Rh]BF₄