We
report
a
highly
cross-
and
atroposelective
coupling
between
ortho-(chloro)arylphosphine
oxides
ortho-(bromo)arylethers.
This
previously
unknown
asymmetric
nickel-catalyzed
reaction
offers
direct
route
to
enantioenriched
axially
chiral
biaryl
monophos-phine
that
are
difficult
access
by
other
means.
These
products
can
be
readily
reduced
generate
MOP-type
ligands
bear-ing
complex
skeletal
backbones.
The
utility
of
these
in
catalysis
is
also
demonstrated.
Accounts of Chemical Research,
Год журнала:
2022,
Номер
55(17), С. 2491 - 2509
Опубликована: Авг. 11, 2022
ConspectusTransition-metal-catalyzed
reductive
coupling
of
electrophiles
has
emerged
as
a
powerful
tool
for
the
construction
molecules.
While
major
achievements
have
been
made
in
field
cross-couplings
between
organic
halides
and
pseudohalides,
an
increasing
number
reports
demonstrates
reactions
involving
more
readily
available,
low-cost,
stable,
but
unreactive
electrophiles.
This
account
summarizes
recent
results
our
laboratory
focusing
on
this
topic.
These
findings
typically
include
deoxygenative
C–C
alcohols,
alkylation
alkenyl
acetates,
C–Si
chlorosilanes,
C–Ge
chlorogermanes.The
alcohols
with
is
synthetically
appealing,
potential
chemistry
remains
to
be
disclosed.
Our
initial
study
focused
reaction
allylic
aryl
bromides
by
combination
nickel
Lewis
acid
catalysis.
method
offers
selectivity
that
opposite
classic
Tsuji–Trost
reactions.
Further
investigation
benzylic
led
foundation
dynamic
kinetic
cross-coupling
strategy
applications
nickel-catalyzed
arylation
cobalt-catalyzed
enantiospecific
alkenylation
alcohols.
The
titanium
catalysis
was
later
established
produce
carbon
radicals
directly
from
unactivated
tertiary
via
C–OH
cleavage.
development
their
fragments
delivers
new
methods
all-carbon
quaternary
centers.
shown
high
functionalization
leaving
primary
secondary
intact.
Alkenyl
acetates
are
inexpensive,
environmentally
friendly
considered
most
attractive
reagents.
benzyl
ammoniums
alkyl
mild
approaches
conversion
ketones
into
aliphatic
alkenes.Extensive
studies
enabled
us
extend
cross-electrophile
silicon
germanium
chemistry.
harness
ready
availability
chlorosilanes
chlorogermanes
suffer
challenge
low
reactivity
toward
transition
metals.
Under
catalysis,
broad
range
couple
well
vinyl-
hydrochlorosilanes.
use
partners
formation
functionalized
alkylsilanes.
seems
less
substrate-dependent,
various
common
aryl,
alkenyl,
In
general,
functionalities
such
Grignard-sensitive
groups
(e.g.,
acid,
amide,
alcohol,
ketone,
ester),
acid-sensitive
ketal
THP
protection),
fluoride
chloride,
bromide,
tosylate
mesylate,
silyl
ether,
amine
tolerated.
provide
access
organosilicon
organogermanium
compounds,
some
which
challenging
obtain
otherwise.
Journal of the American Chemical Society,
Год журнала:
2022,
Номер
144(19), С. 8797 - 8806
Опубликована: Май 3, 2022
Chiral
α-aryl
N-heterocycles
are
commonly
found
in
natural
products,
pharmaceutical
agents,
and
chiral
catalysts
but
remain
challenging
to
access
via
asymmetric
catalysis.
Herein,
we
report
a
general
modular
approach
for
the
direct
enantioselective
α-arylation
of
saturated
azacycles
acyclic
N-alkyl
benzamides
nickel/photoredox
dual
This
process
exploits
hydrogen
atom
transfer
ability
photoeliminated
chlorine
radicals
convert
corresponding
α-amino
alkyl
that
then
coupled
with
ubiquitous
inexpensive
(hetero)aryl
chlorides.
These
coupling
reactions
require
no
oxidants
or
organometallic
reagents,
feature
feedstock
starting
materials,
broad
substrate
scope,
high
enantioselectivities,
applicable
late-stage
diversification
medicinally
relevant
complex
molecules.
Mechanistic
studies
suggest
nickel
catalyst
uncommonly
plays
multiple
roles,
accomplishing
radical
generation,
capture,
cross-coupling,
induction.
Chemical Reviews,
Год журнала:
2024,
Номер
unknown
Опубликована: Ноя. 26, 2024
Cross-electrophile
coupling
(XEC),
defined
by
us
as
the
cross-coupling
of
two
different
σ-electrophiles
that
is
driven
catalyst
reduction,
has
seen
rapid
progression
in
recent
years.
As
such,
this
review
aims
to
summarize
field
from
its
beginnings
up
until
mid-2023
and
provide
comprehensive
coverage
on
synthetic
methods
current
state
mechanistic
understanding.
Chapters
are
split
type
bond
formed,
which
include
C(sp
Accounts of Chemical Research,
Год журнала:
2025,
Номер
unknown
Опубликована: Янв. 19, 2025
ConspectusIn
recent
years,
our
research
group
has
dedicated
significant
effort
to
the
field
of
asymmetric
organometallic
electrochemical
synthesis
(AOES),
which
integrates
electrochemistry
with
transition
metal
catalysis.
On
one
hand,
we
have
rationalized
that
compounds
can
serve
as
molecular
electrocatalysts
(mediators)
reduce
overpotentials
and
enhance
both
reactivity
selectivity
reactions.
other
conditions
for
catalysis
be
substantially
improved
through
electrochemistry,
enabling
precise
modulation
metal's
oxidation
state
by
controlling
potentials
regulating
electron
transfer
rate
via
current
adjustments.
This
synergistic
approach
addresses
key
challenges
inherent
in
traditional
catalysis,
particularly
those
related
use
redox-active
chemical
reagents.
Furthermore,
redox
conveniently
tuned
modifying
their
ligands,
thereby
governing
reaction
regioselectivity
stereoselectivity.
As
a
result,
AOES
emerged
powerful
promising
tool
chiral
compounds.In
this
Account,
summarize
contextualize
efforts
AOES.
Our
primary
strategy
involves
leveraging
controllability
potential
regulate
organometallics,
facilitating
desired
An
efficient
platform
was
established
under
mild
conditions,
significantly
reducing
reliance
on
been
systematically
categorized
into
three
sections
based
distinct
electrolysis
modes:
combined
anodic
oxidation,
cathodic
reduction,
paired
electrolysis.
In
each
section,
highlight
innovative
discoveries
tailored
unique
characteristics
respective
modes.In
many
transformations,
metal-catalyzed
reactions
involving
reagents
utilizing
exhibit
similar
reactivities.
However,
also
observed
notable
differences
certain
cases.
These
findings
include
following:
(1)
Enhanced
efficiency
synthesis:
instance,
Rh-catalyzed
enantioselective
functionalization
C–H
bonds
demonstrates
superior
efficiency.
(2)
Expanded
scope
transformations:
previously
challenging
achieved
due
tunability
potentials.
A
example
is
reductive
coupling
aryl
chlorides,
expands
range
accessible
transformations.
Additionally,
mechanistic
studies
explore
techniques
intrinsic
such
controlled
experiments,
impact
electrode
materials
catalyst
performance,
cyclic
voltammetry
studies.
investigations
provide
more
intuitive
understanding
behavior
catalysts
study
mechanisms,
guide
design
new
catalytic
systems.The
advancements
offer
robust
environmentally
friendly
sustainable
selective
By
integrating
developed
versatile
organic
not
only
enhances
but
reduces
environmental
impact.
We
anticipate
Account
will
stimulate
further
innovation
realm
AOES,
leading
discovery
systems
development
synthetic
methodologies.
Journal of the American Chemical Society,
Год журнала:
2023,
Номер
145(35), С. 19368 - 19377
Опубликована: Авг. 23, 2023
Nickel’s
+1
oxidation
state
has
received
much
interest
due
to
its
varied
and
often
enigmatic
behavior
in
increasingly
popular
catalytic
methods.
In
part,
the
lack
of
understanding
about
NiI
results
from
common
synthetic
strategies
limiting
breadth
complexes
that
are
accessible
for
mechanistic
study
catalyst
design.
We
report
an
oxidative
approach
using
tribromide
salts
allows
generation
a
well-defined
precursor,
[NiI(COD)Br]2,
as
well
several
new
complexes.
Included
among
them
bearing
bulky
monophosphines,
which
structure–speciation
relationships
established
reactivity
Suzuki–Miyaura
coupling
(SMC)
is
investigated.
Notably,
these
routes
also
allow
synthesis
monomeric
t-Bubpy-bound
complexes,
not
previously
been
achieved.
These
react
with
aryl
halides,
can
enable
challenging
investigations
present
opportunities
catalysis
synthesis.
Journal of the American Chemical Society,
Год журнала:
2021,
Номер
143(51), С. 21484 - 21491
Опубликована: Дек. 17, 2021
Despite
their
importance
to
medicine
and
materials
science,
the
synthesis
of
biheteroaryls
by
cross-coupling
remains
challenging.
We
describe
here
a
new,
general
approach
biheteroaryls:
Ni-
Pd-catalyzed
multimetallic
cross-Ullmann
coupling
heteroaryl
halides
with
triflates.
An
array
5-membered,
6-membered,
fused
bromides
chlorides,
as
well
aryl
triflates
derived
from
heterocyclic
phenols,
proved
be
viable
substrates
in
this
reaction
(62
examples,
63
±
17%
average
yield).
The
generality
was
further
demonstrated
96-well
plate
format
at
10
μmol
scale.
96
possible
products
provided
>90%
hit
rate
under
single
set
conditions.
Further,
low-yielding
combinations
could
rapidly
optimized
"Toolbox
Plate"
ligands,
additives,
reductants.
ACS Catalysis,
Год журнала:
2023,
Номер
13(14), С. 9336 - 9345
Опубликована: Июнь 28, 2023
An
electrochemical,
nickel-catalyzed
reductive
coupling
of
alkylpyridinium
salts
and
aryl
halides
is
reported.
High-throughput
experimentation
(HTE)
was
employed
for
rapid
reaction
optimization
evaluation
a
broad
scope
pharmaceutically
relevant
structurally
diverse
halides,
including
complex
drug-like
substrates.
In
addition,
the
transformation
compatible
with
both
primary
secondary
distinct
conditions.
Mechanistic
insights
were
critical
to
enhance
efficiency
using
salts.
Systematic
comparisons
electrochemical
non-electrochemical
methods
revealed
complementary
two
approaches.
Journal of the American Chemical Society,
Год журнала:
2025,
Номер
unknown
Опубликована: Апрель 1, 2025
The
pursuit
of
sustainable
and
environmentally
benign
methods
techniques
continues
to
challenge
organic
chemists.
Herein,
we
report
the
development
a
novel
approach
in
which
electromagnetic
induction
could
participate
coupling
chlorides
using
rotating
magnetic
field
metal
rods.
In
particular,
describe
application
this
strategy
nickel-catalyzed
cross-electrophile
aryl
with
alkyl
chlorides.
Using
these
abundant
commercially
available
organochlorides,
such
system
allows
reactions
proceed
broader
scope
than
current
protocols
under
mild
conditions.
