Angewandte Chemie International Edition,
Journal Year:
2023,
Volume and Issue:
62(40)
Published: Aug. 18, 2023
Herein,
a
copper(I)-catalyzed
asymmetric
hydrophosphination
of
3,3-disubstituted
cyclopropenes
is
reported.
It
provides
series
phosphine
derivatives
in
high
to
excellent
diastereo-
and
enantioselectivities.
The
methodology
enjoys
broad
substrate
scope
on
both
diarylphosphines.
stereoselectivity
attributed
the
stability
Cu(I)-(R,R)-QUINOXP*
complex
presence
stoichiometric
HPPh2
produced
phosphines,
high-performance
induction
complex.
Finally,
method
used
for
synthesis
new
chiral
phosphine-olefin
compounds
built
cyclopropane
skeleton,
one
which
serves
as
wonderful
ligand
Rh-catalyzed
conjugate
addition
phenylboronic
acid
various
α,β-unsaturated
compounds.
Journal of the American Chemical Society,
Journal Year:
2021,
Volume and Issue:
143(30), P. 11309 - 11316
Published: July 20, 2021
The
practical
synthesis
of
P-stereogenic
tertiary
phosphines,
which
have
wide
applications
in
asymmetric
catalysis,
materials,
and
pharmaceutical
chemistry,
represents
a
significant
challenge.
A
regio-
enantioselective
hydrophosphination
using
cheap
ubiquitous
alkynes
catalyzed
by
nickel
complex
was
designed,
the
toxic
air-sensitive
secondary
phosphines
were
prepared
situ
from
bench-stable
phosphine
oxides.
This
methodology
has
been
demonstrated
with
unprecedented
substrate
scope
functional
group
compatibility
to
afford
electronically
structurally
diversified
P(III)
compounds.
products
could
be
easily
converted
into
various
precursors
bidentate
ligands
organocatalysts,
as
well
variety
transition-metal
complexes
containing
both
P-
metal-stereogenic
centers.
Chemical Reviews,
Journal Year:
2024,
Volume and Issue:
124(14), P. 8657 - 8739
Published: July 2, 2024
Chiral
phosphorus
ligands
play
a
crucial
role
in
asymmetric
catalysis
for
the
efficient
synthesis
of
useful
optically
active
compounds.
They
are
largely
categorized
into
two
classes:
backbone
chirality
and
P-stereogenic
ligands.
Most
reported
belong
to
former
class.
Privileged
ones
such
as
BINAP
DuPhos
frequently
employed
wide
range
catalytic
transformations.
In
contrast,
latter
class
has
remained
small
family
many
years
mainly
because
their
synthetic
difficulty.
The
late
1990s
saw
emergence
novel
with
superior
enantioinduction
ability
Rh-catalyzed
hydrogenation
reactions.
Since
then,
numerous
have
been
synthesized
used
This
Review
summarizes
thus
far,
including
stereochemical
electronic
properties
that
afford
high
excellent
enantioselectivities.
Examples
reactions
use
this
described
together
applications
construction
key
intermediates
natural
products
therapeutic
agents.
literature
covered
dates
back
1968
up
until
December
2023,
centering
on
studies
published
later
years.
Journal of the American Chemical Society,
Journal Year:
2021,
Volume and Issue:
143(26), P. 9912 - 9921
Published: June 23, 2021
A
copper(I)-catalyzed
asymmetric
alkylation
of
HPAr1Ar2
with
alkyl
halides
is
uncovered,
which
provides
an
array
P-stereogenic
phosphines
in
generally
high
yield
and
enantioselectivity.
The
electrophilic
enjoy
a
broad
substrate
scope,
including
allyl
bromides,
propargyl
bromide,
benzyl
iodides.
Moreover,
11
unsymmetrical
diarylphosphines
(HPAr1Ar2)
serve
as
competent
pronucleophiles.
present
methodology
also
successfully
applied
to
catalytic
double
triple
alkylation,
the
corresponding
products
were
obtained
moderate
diastereo-
excellent
enantioselectivities.
Some
31P
NMR
experiments
indicate
that
bulky
HPPhMes
exhibits
weak
competitively
coordinating
ability
Cu(I)-bisphosphine
complex,
thus
presence
stoichiometric
does
not
affect
enantioselectivity
significantly.
Therefore,
this
reaction
attributed
performance
unique
Cu(I)-(R,RP)-TANIAPHOS
complex
induction.
Finally,
one
monophosphine
two
bisphosphines
prepared
by
are
employed
efficient
chiral
ligands
afford
three
structurally
diversified
Cu(I)
complexes,
demonstrates
synthetic
utility
methodology.
Angewandte Chemie International Edition,
Journal Year:
2021,
Volume and Issue:
60(52), P. 27241 - 27246
Published: Nov. 5, 2021
The
catalytic
asymmetric
synthesis
of
P-chiral
phosphorus
compounds
is
an
important
way
to
construct
ligands.
Herein,
we
report
a
new
strategy
that
adopts
the
pyridinyl
moiety
as
coordinating
group
in
cobalt-catalysed
nucleophilic
addition/alkylation
secondary
phosphine
oxides.
A
series
tertiary
oxides
were
generated
with
up
99
%
yield
and
99.5
ee,
broad
functional-group
tolerance.
Mechanistic
studies
reveal
(R)-secondary
preferentially
interact
cobalt
catalysts
produce
P-stereogenic
compounds.
Angewandte Chemie International Edition,
Journal Year:
2021,
Volume and Issue:
60(52), P. 27288 - 27292
Published: Sept. 28, 2021
Abstract
A
Pd‐catalyzed
hydrophosphinylation
of
alkyl
and
aryl‐oxyallenes
with
phosphine
oxides
has
been
developed
for
the
efficient
rapid
construction
a
family
chiral
allylic
diverse
range
functional
groups.
This
methodology
was
further
applied
in
facile
2
H
‐chromene
later
stage
functionalization
cholesterol.
Angewandte Chemie International Edition,
Journal Year:
2021,
Volume and Issue:
60(52), P. 27247 - 27252
Published: Oct. 21, 2021
P-stereogenic
tert-
and
sec-phosphines
have
wide
applications
in
asymmetric
catalysis,
materials,
pharmaceutical
chemistry,
however,
their
practical
synthesis
still
constitutes
a
significant
challenge.
Herein,
successful
kinetic
resolution
of
rac-secondary
phosphine
oxides
via
the
enantioselective
P-benzylation
process
catalyzed
by
palladium/Xiao-Phos
was
designed.
Both
sec-phosphine
were
delivered
good
yield
excellent
enantiopurity
(selectivity
factor
up
to
226.1).
The
appealing
synthetic
utilities
are
further
demonstrated
facile
preparation
several
valuable
P-chiral
compounds,
precursors
bidentate
ligands,
as
well
transition
metal
complexes.
Angewandte Chemie International Edition,
Journal Year:
2021,
Volume and Issue:
60(31), P. 16989 - 16993
Published: June 1, 2021
Asymmetric
hydrogenation
is
one
of
the
most
powerful
methods
for
preparation
single
enantiomer
compounds.
However,
chemo-
and
enantioselective
relatively
inert
unsaturated
group
in
substrates
possessing
multiple
bonds
remains
a
challenge.
We
herein
report
protocol
highly
conjugated
enynes
while
keeping
alkynyl
bond
intact.
Mechanism
studies
indicate
that
accompanying
Zn2+
generated
from
zinc
reduction
CoII
complex
plays
critical
role
to
initiate
plausible
CoI
/CoIII
catalytic
cycle.
This
approach
allows
efficient
generation
chiral
propargylamines
(up
99.9
%
ee
2000
S/C)
further
useful
chemical
transformations.
ACS Catalysis,
Journal Year:
2021,
Volume and Issue:
12(1), P. 193 - 199
Published: Dec. 14, 2021
The
catalytic
synthesis
of
P-
and
axially
chiral
biaryl
phosphine
oxides
was
realized
via
the
Cp*Ir-catalyzed
asymmetric
C–H
coupling
tertiary
substituted
with
diarylacetylenes.
carboxylic
amides
were
used
to
control
stereoselectivity
in
activation,
enabling
construction
up
96%
ee.
Transformation
products
into
trivalent
ligands
has
also
been
demonstrated.
