text.skipToContent text.skipToNavigation

Maximum quantity allowed is 999

Please select the quantity

Nickel Catalysts [Cross-coupling Reaction using Transition Metal Catalysts]

Nickel catalysts are routinely used for cross-coupling reactions as well as palladium catalysts. In 1972, Kumada and Tamao had reported that nickel catalysts promoted cross-coupling reactions of Grignard reagents with aryl halides or vinyl halides with the proposal their catalytic cycle. The result of this research has contributed to further development of cross coupling reactions.1)
Nickel catalysts are generally inexpensive and show high activities even when using low reactive substrates in cross-coupling reactions. For example, in the presence of butyl lithium, zinc metal or phosphines as a co-reductant, NiCl2(dppf) catalyzed cross-coupling reactions of aryl chlorides/mesylates with aryl borates successfully proceeding to afford the desired biaryls in good yields.2) Recently, it has been reported that N-heterocyclic carbene (= NHC)–nickel complexes show high catalytic activity in cross-coupling reactions.
==========================>>[SEE MORE INFORMATION]<<===========================
On the other hand, similar to iron and cobalt catalysts, nickel catalysts are used for the cross coupling reactions of alkyl halides with organometallic species such as organomagnesium, organozinc and organoboric acid compounds. This synthetic means is effective for producing the carbon (sp3)–carbon (sp3) bond. In this reaction, phosphine ligands are less effective and an optimization of the reaction conditions suitable for each substrate was investigated. In a case using primary alkyl halides as a reactant, the coupling reactions are accelerated by using NMP as a solvent and addition of alkenes with electron-withdrawing groups. It is also effective to add butadienes as additives because the reactivity of the coupling reactions improves through the formation of nickel - bis-allyl complexes. The proceeding of cross-coupling reactions with secondary alkyl halides is harder relative to primary alkyl halides, so pyridyl-type chelate ligands such as phenanthrolines, Pybox, and diamines are used for promoting those reactions. This has been applied to asymmetric reactions and natural products synthesis.3)

References

pdf
22 Results Found
  • 1
  • 2(current)
View:  List
Product Number N0851
CAS RN 7791-20-0
Purity / Analysis Method: >95.0%(T)

Product Number B3534
CAS RN 19999-87-2
Purity / Analysis Method: >95.0%(T)

Product Number D5369
CAS RN 19232-03-2
Purity / Analysis Method: >95.0%(T)

Product Number N1207
CAS RN 14481-08-4
Purity / Analysis Method: >95.0%(T)

Product Number N1215
CAS RN 10028-18-9
Purity / Analysis Method: >95.0%(T)

Product Number N1264
CAS RN 7786-81-4
Purity / Analysis Method: >95.0%(T)

Product Number T4132
CAS RN 2468315-70-8
Purity / Analysis Method: >95.0%(T)

Product Number N0096
CAS RN 120156-44-7
Purity / Analysis Method: >85.0%(T)

Product Number C3325
CAS RN 1419179-26-2
Purity / Analysis Method:

Product Number:   N0851 | Purity / Analysis Method:   >95.0%(T)

Product Number:   B3534 | Purity / Analysis Method:   >95.0%(T)

Product Number:   D5369 | Purity / Analysis Method:   >95.0%(T)

Product Number:   N1207 | Purity / Analysis Method:   >95.0%(T)

Product Number:   N1215 | Purity / Analysis Method:   >95.0%(T)

Product Number:   N1264 | Purity / Analysis Method:   >95.0%(T)

Product Number:   T4132 | Purity / Analysis Method:   >95.0%(T)

Product Number:   N0096 | Purity / Analysis Method:   >85.0%(T)

  • 1
  • 2(current)
Session Status
Your session will timeout in 10 minutes. You will be redirected to the HOME page after session timeout. Please click the button to continue session from the same page. minute. You will be redirected to the HOME page after session timeout. Please click the button to continue session from the same page.

Your session has timed out. You will be redirected to the HOME page.