Pages:
1
2
3 |
clearly_not_atara
International Hazard
Posts: 2683
Registered: 3-11-2013
Member Is Offline
Mood: Big
|
|
Aluminum and its variants are well-known as reductants for this substrate; using NaBH4/Pd/C is really the same thing as two step NaBH4 >>
Pd/C/formate except you waste a lot more borohydride for not very much more yield. Unfortunately real advances here are quite rare.
Copper hydride complexes are known to reduce activated alkenes with good selectivity and might be able to replace borohydride in the nitroalkene
>> nitroalkane transformation. Usually copper (I) t-butoxide is used as the precursor with a hydrogen donor to generate CuH in situ.
Here's an example converting terminal nitroalkenes to nitroalkanes:
http://onlinelibrary.wiley.com/doi/10.1002/ange.200352175/fu...
In this case big chiral ligands are used to enforce chirality; there are simpler complexes of CuH including (CuH(PPh)3)6 also known as Stryker's
reagent although we might prefer, for simple reasons, a complex without triphenylphosphine. N-heterocyclic carbenes have also been used as
ligands although they can be somewhat difficult to prepare. 2-methoxyethanol, in the form of Red-Al, is one of the simplest complexing reagents I've
seen:
http://pubs.acs.org/doi/abs/10.1021/jo01289a035
For at-home purposes it would be nice to find a ligand that doesn't use phosphorus and a reductant that doesn't use silicon or aluminium. Thiamine and
H2 might work if you're lucky. It appears that a copper hydride can be generated from CuBr and LiHAl(OMe)3 and used to reduce unsaturated ketones to
saturated ketones:
http://pubs.acs.org/doi/abs/10.1021/jo00439a015
[Edited on 22-2-2016 by clearly_not_atara]
|
|
solo
International Hazard
Posts: 3966
Registered: 9-12-2002
Location: Estados Unidos de La Republica Mexicana
Member Is Offline
Mood: ....getting old and drowning in a sea of knowledge
|
|
Reference Information
Catalytic Enantioselective Conjugate Reduction of b,b-Disubstituted Nitroalkenes
Prof. Dr. E. M. Carreira, C. Czekelius
Angew. Chem.
2003, 115, 4941 –4943
DOI: 10.1002/ange.200352175
Abstract
Optically active nitroalkanes are versatile precursors for a wide range of useful building blocks for fine-chemical syn- thesis. However, only a few
effective methods for their preparation are available.[1–3] Despite recent advances in the addition of dialkyl zinc reagents to a,b-unsaturated
nitro- olefins, the complementary method involving metal-catalyzed enantioselective reduction of b,b-disubstituted nitroalkenes has not been
reported.[2] Herein we document such an approach in which bisphosphane–Cu complexes (with tol- binap or josiphos[4]) catalyze the enantioselective
reduction of b,b-disubstituted nitroalkenes, giving optically active b,b- disubstituted nitroalkanes in useful yields and selectivities
-------------------------------
Reduction of a,@-UnsaturatedNitriles with a Copper Hydride Complex
Morey E. Osborn, James F. Pegues
J. Org. Chem.
1980,45, 168-169
Introduction
The reduction of conjugated nitriles to their saturated counterparts has long been a vexatious synthetic problem because of oft-encountered
overreduction to the amine,* hydrodimeri~ationd,~ecyanation; and/or polymeri~ation.~ Recently, Profitt, Watt, and Corey published results achieved
with magnesium metal in methanol.6 Not only did reductions performed with this reagent proceed readily and in high yield but compatibility with a
variety of other functional groups was also demonstrated.............
--------------------------------------------
Reductions of conjugated carbonyl compounds with copper hydride - preparative and mechanistic aspects
M. F. Semmelhack, R. D. Stauffer, A. Yamashita
J. Org. Chem.
1977, 42 (19), pp 3180–3188
DOI: 10.1021/jo00439a015
Abstract
The reaction of lithium trimethoxyaluminum hydride with 0.5 molar equiv of cuprous bromide produces a heter- ogeneous mixture referred to as the
Licomplex, while sodiumbis(2-methoxyethoxy)aluminumhydride with 1.0 molar equiv of cuprous bromide gives a similar mixture, the N a complex. B o t h
reagents are effective in selective reduction of the olefin unit in conjugated ketones and esters, including two examples of acetylenic esters. The Li
c o m p l e x i s m o r e e f f i c i e n t w i t h c y c l o h e x e n o n e s , w h i l e t h e N a c o m p l e x g i v e s b e t t e r y i e l d s
i n r e d u c t i o n of a c y c l i c e n - onesandenoates, especially inthepresenceof2-butanol. Deuteriumlabelingexperiments showthat thehydrogen
which is transferred to the Pposition of the conjugated carbonyl compound originates from the hydridocuprate re- agent; the 2-butanol appears to serve
as a weak acid, inhibiting polymerization. Inthe absence of 2-butanol, reduc- tion of methyl cinnamate produces dimethyl meso-3,4-diphenyladipateas a
major product, apparently the result of radical anion intermediates. Aldehyde, ketone, and halide functionality are reduced at rates comparable to the
rate of enone reduction, but nitrile and ester units are inert.
Attachment: Catalytic Enantioselective Conjugate Reduction of b,b-Disubstituted Nitroalkenes.pdf (155kB) This file has been downloaded 625 times
Attachment: Reduction of a,@-UnsaturatedNitriles with a Copper Hydride Complex.pdf (267kB) This file has been downloaded 509 times
Attachment: phpOlmbJH (1.3MB) This file has been downloaded 547 times
It's better to die on your feet, than live on your knees....Emiliano Zapata.
|
|
Pages:
1
2
3 |
|