Showing results 1021-1080 / 1468

Ru-721

[DPPB RuCl₂ AMPY], Baratta's Catalyst | CAS Number: 850424-32-7

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Pd-111NP

CAS Number: 3375-31-3 | Pd(OAc)2

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Pd-215

[RockPhos Pd(allyl)]OTf | CAS Number: 1798782-31-6

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Pd-215

[Me₃OMetBuXPhos Pd(allyl)]OTf | CAS Number: 2924017-86-5

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Pd-203

Bis(tri-tert-butylphosphine)palladium(0) | CAS Number: 2548904-17-0

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Pd-119

PdCl₂ (dippf) | CAS Number: 215788-65-1

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Pd-214

[Me₄tBuXPhos Pd(allyl)]OTf | CAS Number: 1798782-29-2

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RTA-194: R-transaminase

Aromatic and aliphatic primary amines can be obtained using our Transaminases

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Glucose dehydrogenase enzymes

GDH enzymes catalyses the oxidation of D-glucose to D-glucolactone, while reducing in turn NAD+ or NADP+ to NADH and NADPH.

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Pi-allyl palladium complexes

Triflate and chloride pi-allyl palladium products

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Buchwald precatalysts

Second and third generation buchwald precatalysts for advanced cross-coupling applications.

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Palladium coupling precatalysts - PdL2X2

Bis-phosphine palladium halide pre-catalysts for basic cross coupling applications.

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DyadPalladate™ precatalysts

Bisphosphonium dichloropalladate complexes featuring tertiary phosphonium ligands

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Alcohol dehydrogenase enzymes

ADH enzymes used to catalyse the reduction of ketones and aldehydes to the corresponding alcohols

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Imine reductases enzymes

Imine reductases (IREDs) biocatalysts are used to produce enantiopure primary, secondary and tertiary amines

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Glucose dehydrogenase enzymes

Glucose dehydrogenase catalyses the oxidation of D-glucose to D-glucolactone

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Formate dehydrogenase enzymes

Formate dehydrogenase (FDH enzyme) oxidises formate to carbon dioxide

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Ene reductase enzymes

Ene reductase enzyme catalyse the reduction of C=C double bonds

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Transaminase enzymes

Transaminase enzymes can be used to produce aromatic and aliphatic primary amines.

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Alanine dehydrogenase enzyme

Alanine dehydrogenase catalyses the reductive amination of pyruvate to L-alanine

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Amine dehydrogenase enzymes

Amine dehydrogenase enzymes are wild type and engineered enzymes to catalyse a wider range of transformations

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Lactate dehydrogenase enzymes

Lactate dehydrogenase catalyses the reduction of pyruvate to either (R)- or (S)- lactate

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Equilibrium shift enzymes

We offer multi-enzymatic systems to remove the pyruvate by-product from the reaction

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Cofactor regeneration enzymes

NADP and NAD regeneration enzymes

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PGM Platinum

Platinum is used in a wide variety of applications with platinum jewellery accounting for almost a quarter of annual platinum demand, but the largest use is in automotive catalytic converters..

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SILVER-FLO filler metals

SILVER-FLO™ products can be used to join the common engineering metals such as copper, copper alloys (brass, bronze, nickel silver, aluminium bronze, copper nickel), nickel alloys, steel, stainless steel and tungsten carbide.

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Rh-93

CAS Number: 12092-47-6

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ARGO-BRAZE™ filler metals

ARGO-BRAZE™ products are most commonly used for brazing cemented tungsten carbide and tungsten carbide faced PCD tips.

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PALLABRAZE - filler metals

PALLABRAZE™ products can be used to braze a variety of materials from stainless steel to metalised ceramics.

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Ir-70

Ir(acac)₃ | CAS 15635-87-7

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Ir-95

[Ir(cod)(Me₄phen)]Cl • THF | CAS 15635-87-7

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Ir-121

[Ir(Cp*)I₂]₂ | CAS 33040-12-9

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Ir-121

Ir(C₈H₁₂){PCH₃(C₆H₅)₂}₂PF₆ | CAS 38465-86-0

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Ir-125

[Ir{dF(CF₃)ppy}₂(dtbbpy)][PF₆] | CAS # 870987-63-6

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Ir-127

IrCl(COD)(dppe) | CAS 688063-93-6

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Ir-125

[Ir(ppy)₂(dtbbpy)][PF₆] | CAS # 676525-77-2

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Ni-130

[(TMEDA)Ni(o-tolyl)Cl], Doyle's Catalyst | CAS 1702744-45-3

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Ni-103

NiCl₂(dppe) | CAS 14647-23-5

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Ni-107

NiCl₂(dppf) | CAS 67292-34-6

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Ni-114

NiCl2(PCy3)2 | CAS 19999-87-2

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Ni-114

NiCl2(dppp) | CAS 19999-87-2

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Ni-126

NiCl₂(dppp) | CAS 15629-92-2

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Ni-127

NiCl2(dcypf) | CAS 917511-89-8

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Ni-128

NiCl₂(PPh₃)₂ | CAS 14264-16-5

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Ni-131

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

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Ni-133

NiCl₂(dtbbpy) | CAS 1034901-50-2

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Ru-137

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

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Ru-139

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

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Ru-139

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

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C1-850 (Ru-PNN)

CAS Number: 1388712-91-1

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C1-751

Ru(OAc)₂(SNS)(PPh₃)

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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.

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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.

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PGM Ruthenium

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

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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.

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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.

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