Angewandte Chemie International Edition,
Journal Year:
2024,
Volume and Issue:
63(15)
Published: Jan. 30, 2024
Abstract
The
combination
of
achiral
Cp*Rh(III)
with
chiral
carboxylic
acids
(CCAs)
represents
an
efficient
catalytic
system
in
transition
metal‐catalyzed
enantioselective
C−H
activation.
However,
this
hybrid
catalysis
is
limited
to
redox‐neutral
activation
reactions
and
the
adopt
oxidative
remains
elusive
pose
a
significant
challenge.
Herein,
we
describe
development
electrochemical
Cp*Rh(III)‐catalyzed
annulation
sulfoximines
alkynes
enabled
by
acid
(CCA)
operationally
friendly
undivided
cell
at
room
temperature.
A
broad
range
enantioenriched
1,2‐benzothiazines
are
obtained
high
yields
excellent
enantioselectivities
(up
99
%
yield
98
:
2
er).
practicality
method
demonstrated
scale‐up
reaction
batch
reactor
external
circulation.
crucial
intermediate
isolated,
characterized,
transformed,
providing
rational
support
for
Rh(III)/Rh(I)
electrocatalytic
cycle.
Angewandte Chemie International Edition,
Journal Year:
2023,
Volume and Issue:
62(14)
Published: Feb. 10, 2023
Axially
chiral
diaryl
ethers
are
a
type
of
unique
atropisomers
bearing
two
potential
axes,
which
have
applications
in
variety
research
fields.
However,
the
catalytic
enantioselective
synthesis
these
ether
is
largely
underexplored
when
compared
to
asymmetric
biaryl
or
other
types
atropisomers.
Herein,
we
report
highly
efficient
through
an
organocatalyzed
desymmetrization
protocol.
The
phosphoric
acid-catalyzed
electrophilic
aromatic
aminations
symmetrical
1,3-benzenediamine
substrates
afforded
series
excellent
yields
and
enantioselectivities.
facile
construction
heterocycles
by
utilizations
1,2-benzenediamine
moiety
products
provided
access
structurally
diverse
novel
azaarene-containing
Journal of the American Chemical Society,
Journal Year:
2024,
Volume and Issue:
146(2), P. 1224 - 1243
Published: Jan. 4, 2024
Efficient
and
streamlined
synthetic
methods
that
facilitate
the
rapid
build-up
of
structurally
diverse
π-conjugated
systems
are
paramount
importance
in
quest
for
organic
optoelectronic
materials.
Among
these
methods,
transition-metal-catalyzed
oxidative
Ar–H/Ar–H
coupling
reactions
between
two
(hetero)arenes
have
emerged
as
a
concise
effective
approach
generating
wide
array
bi(hetero)aryl
fused
heteroaryl
structures.
This
innovative
bypasses
challenges
associated
with
substrate
pre-activation
processes,
thereby
allowing
creation
frameworks
were
previously
beyond
reach
using
conventional
Ar–X/Ar–M
reactions.
These
inherent
advantages
ushered
new
design
patterns
molecules
deviate
from
traditional
methods.
ground-breaking
enables
transcendence
limitations
repetitive
material
structures,
ultimately
leading
to
discovery
novel
high-performance
In
this
Perspective,
we
provide
an
overview
recent
advances
development
materials
through
utilization
We
introduce
several
notable
strategies
domain,
covering
both
directed
non-directed
strategies,
dual
chelation-assisted
strategy
ortho-C–H
arylation/cyclization
strategy.
Additionally,
shed
light
on
role
advancement
Finally,
discuss
current
existing
protocols
offer
insights
into
future
prospects
field.
Angewandte Chemie International Edition,
Journal Year:
2024,
Volume and Issue:
63(15)
Published: Jan. 30, 2024
Abstract
The
combination
of
achiral
Cp*Rh(III)
with
chiral
carboxylic
acids
(CCAs)
represents
an
efficient
catalytic
system
in
transition
metal‐catalyzed
enantioselective
C−H
activation.
However,
this
hybrid
catalysis
is
limited
to
redox‐neutral
activation
reactions
and
the
adopt
oxidative
remains
elusive
pose
a
significant
challenge.
Herein,
we
describe
development
electrochemical
Cp*Rh(III)‐catalyzed
annulation
sulfoximines
alkynes
enabled
by
acid
(CCA)
operationally
friendly
undivided
cell
at
room
temperature.
A
broad
range
enantioenriched
1,2‐benzothiazines
are
obtained
high
yields
excellent
enantioselectivities
(up
99
%
yield
98
:
2
er).
practicality
method
demonstrated
scale‐up
reaction
batch
reactor
external
circulation.
crucial
intermediate
isolated,
characterized,
transformed,
providing
rational
support
for
Rh(III)/Rh(I)
electrocatalytic
cycle.
