Add to ORKGOrganozinc halides are useful reagents for organic synthesis, as witnessed by their wide use as nucleophiles in the Negishi coupling, a powerful and versatile reaction for carbon-carbon bond formation. Direct insertion of zinc metal into organic halides provides the most practical and atom-economical way for preparing these organometallic reagents. Nevertheless, oxidative metalation often has limited application due to long reaction times required by many substrates. We found that a catalytic amount of silver acetate efficiently promotes direct insertion of zinc metal to aryl iodides, having different structure, in ethereal solvent. Also electron-rich substrates rapidly undergo oxidative metalation. Arylzinc iodides thus formed give Negish...
Secondary and tertiary alkylzinc bromides can be generated from the direct oxidative addition of Rie...
Highly reactive copper was prepared by the lithium naphthalide reductions of various copper(I) salt/...
A form independent activation of zinc, concomitant generation of organozinc species and engagement i...
Organozinc halides are useful reagents for organic synthesis, as witnessed by their wide use as nucl...
We found that a catalytic amount of silver acetate efficiently promotes direct insertion of zinc met...
A catalytic amount of silver acetate efficiently promotes direct insertion of zinc metal into aryl i...
Highly reactive zinc was prepared by the lithium naphthalenide reduction of zinc halides. This highl...
Aryl- and hetero-aryl iodides react under very mild conditions (THF, 25 °C) with a Zn(Ag) couple dep...
The oxidative addition of highly reactive zinc (Zn*) to organic bromides shows pronounced structure-...
Functionalized aromatic iodides possessing an ester, cyano, chloride or keto group can be converted ...
Highly reactive zinc metal was prepared by electrolysis of a N, N-dimethylformamide (DMF) solution c...
A form independent activation of zinc, concomitant generation of organozinc species and engagement i...
A form independent activation of zinc, concomitant generation of organozinc species and engagement i...
The methods described herein deal with the problem of precluding protection/deprotection and functio...
The insertion of zinc metal into primary alkyl chlorides, bromides, phosphates and sulfonates in a p...
Secondary and tertiary alkylzinc bromides can be generated from the direct oxidative addition of Rie...
Highly reactive copper was prepared by the lithium naphthalide reductions of various copper(I) salt/...
A form independent activation of zinc, concomitant generation of organozinc species and engagement i...
Organozinc halides are useful reagents for organic synthesis, as witnessed by their wide use as nucl...
We found that a catalytic amount of silver acetate efficiently promotes direct insertion of zinc met...
A catalytic amount of silver acetate efficiently promotes direct insertion of zinc metal into aryl i...
Highly reactive zinc was prepared by the lithium naphthalenide reduction of zinc halides. This highl...
Aryl- and hetero-aryl iodides react under very mild conditions (THF, 25 °C) with a Zn(Ag) couple dep...
The oxidative addition of highly reactive zinc (Zn*) to organic bromides shows pronounced structure-...
Functionalized aromatic iodides possessing an ester, cyano, chloride or keto group can be converted ...
Highly reactive zinc metal was prepared by electrolysis of a N, N-dimethylformamide (DMF) solution c...
A form independent activation of zinc, concomitant generation of organozinc species and engagement i...
A form independent activation of zinc, concomitant generation of organozinc species and engagement i...
The methods described herein deal with the problem of precluding protection/deprotection and functio...
The insertion of zinc metal into primary alkyl chlorides, bromides, phosphates and sulfonates in a p...
Secondary and tertiary alkylzinc bromides can be generated from the direct oxidative addition of Rie...
Highly reactive copper was prepared by the lithium naphthalide reductions of various copper(I) salt/...
A form independent activation of zinc, concomitant generation of organozinc species and engagement i...