Nature Communications,
Journal Year:
2024,
Volume and Issue:
15(1)
Published: Nov. 11, 2024
Electronically
mismatched
Diels-Alder
reaction
between
two
electron-deficient
components
is
synthetically
useful
and
yet
underdeveloped
under
thermal
conditions.
Herein,
a
photoinduced
formal
[4
+
2]
cycloaddition
of
enone
with
variety
dienes
described.
Key
to
the
success
this
stepwise
methodology
relies
on
C
-
bond
cleavage/rearrangement
cyclobutane
based
overbred
intermediate
via
diversified
mechanistic
pathways.
Based
annulation
method,
total
synthesis
lucidumone
achieved
in
nine
steps.
Accounts of Chemical Research,
Journal Year:
2022,
Volume and Issue:
55(17), P. 2510 - 2525
Published: Aug. 9, 2022
Exploring
the
enormous
chemical
space
through
an
expedient
building-up
of
molecular
diversity
is
important
goal
organic
chemistry.
The
development
synthetic
methods
toward
molecules
with
unprecedented
structural
motifs
lays
foundation
for
wide
applications
ranging
from
pharmaceutical
chemistry
to
materials
science.
In
this
regard,
dearomatization
arenes
has
been
recognized
as
a
unique
strategy
since
it
provides
novel
retrosynthetic
disconnections
various
spiro
or
fused
polycyclic
increased
saturation
and
stereoisomerism.
However,
inherent
thermodynamic
challenges
are
associated
processes.
disruption
aromaticity
arene
substrates
usually
requires
large
energy
inputs,
which
makes
harsh
conditions
necessary
many
ground-state
reactions.
Therefore,
further
expansion
scope
reactions
remains
major
problem
not
fully
solved
in
chemistry.The
past
decade
witnessed
tremendous
progress
on
photocatalytic
under
visible
light.
Particularly,
via
transfer
mechanism
have
unlocked
new
opportunities
Mediated
by
appropriately
chosen
photosensitizers,
aromatic
can
be
excited.
This
kind
precise
input
might
make
feasible
some
that
otherwise
unfavorable
thermal
because
significant
increases
substrates.
Nevertheless,
lifetimes
key
intermediates
energy-transfer-enabled
reactions,
such
excited-state
aromatics
downstream
biradical
species,
quite
short.
How
regulate
reactivities
these
transient
achieve
exclusive
selectivity
certain
reaction
pathway
among
possibilities
crucial
issue
addressed.Since
2019,
our
group
reported
series
visible-light-induced
dearomative
cycloaddition
indole
pyrrole
derivatives.
It
was
found
units
excited
irradiation
light
presence
suitable
photosensitizer.
These
readily
undergo
[m
+
n]
tethered
unsaturated
functionalities
including
alkenes,
alkynes,
N-alkoxy
oximes,
(hetero)arenes,
vinylcyclopropanes.
yield
indolines
pyrrolines
highly
strained
small-
and/or
medium-sized
rings
embedded,
possess
bridge-
cagelike
topologies.
Systematic
mechanistic
studies
confirmed
involvement
process.
Density
functional
theory
(DFT)
calculations
revealed
correlation
between
substrate
structure
excitation
efficiency,
accelerated
optimization
parameters.
Meanwhile,
DFT
demonstrated
competition
kinetically
thermodynamically
controlled
pathways
open-shell
singlet
intermediates,
allowed
complete
switches
[2
2]
1,5-hydrogen
atom
oximes
[4
naphthalene.
Furthermore,
ab
initio
dynamics
(AIMD)
simulations
uncovered
post-spin
crossing
dynamic
effects,
determine
regioselectivity
recombination
step
pyrrole-derived
vinylcyclopropanes.An
increasing
number
scientists
joined
research
contributed
more
elegant
examples
area.
mechanism,
although
still
its
infancy,
exhibited
great
potential
synthesis
hardly
accessed
other
methods.
We
believe
future
will
push
boundary
find
related
disciplines.
Journal of the American Chemical Society,
Journal Year:
2023,
Volume and Issue:
145(22), P. 12324 - 12332
Published: May 26, 2023
Dearomative
photocycloadditions
are
valuable
chemical
transformations,
serving
as
an
efficient
platform
to
create
three-dimensional
molecular
complexity.
However,
the
photolability
of
original
addition
product
especially
within
context
ortho
cycloadditions
often
causes
undesired
consecutive
rearrangements,
rendering
these
cycloadducts
elusive.
Herein,
we
report
ortho-selective
intermolecular
photocycloaddition
bicyclic
aza-arenes
including
(iso)quinolines,
quinazolines,
and
quinoxalines
by
utilizing
a
strain-release
approach.
With
bicyclo[1.1.0]butanes
coupling
partners,
this
dearomative
[2π
+
2σ]
cycloaddition
enables
straightforward
construction
C(sp3)-rich
bicyclo[2.1.1]hexanes
directly
connected
N-heteroarenes.
Photophysical
experiments
DFT
calculations
revealed
origin
selectivity
indicate
that,
in
originally
proposed
energy
transfer
or
direct
excitation
pathways,
chain
reaction
mechanism
is
operative
depending
on
conditions.
Journal of the American Chemical Society,
Journal Year:
2024,
Volume and Issue:
146(4), P. 2789 - 2797
Published: Jan. 18, 2024
Dearomative
photocycloaddition
of
monocyclic
arenes
is
an
appealing
strategy
for
comprehending
the
concept
"escape
from
flatland".
This
brings
replacement
readily
available
planar
aromatic
hydrocarbon
units
with
a
3D
fused
bicyclic
core
sp3-enriched
carbon
units.
Herein,
we
outline
intermolecular
approach
dearomative
phenols.
In
order
to
circumvent
ground-state
aromaticity
and
construct
conformationally
restrained
building
blocks,
bicyclo[1.1.0]butanes
were
chosen
as
coupling
partners.
renders
straightforward
access
bicyclo[2.1.1]hexane
unit
cyclic
enone
moiety,
which
further
contributed
synthetic
linchpin
postmodifications.
Mechanistic
experiment
advocates
plausible
onset
both
reactants,
depending
on
redox
potential.
Journal of the American Chemical Society,
Journal Year:
2021,
Volume and Issue:
143(33), P. 13441 - 13449
Published: Aug. 16, 2021
Visible-light-induced
cycloaddition
reactions
initiated
via
energy-transfer
processes
have
recently
evolved
as
powerful
methods
for
the
construction
of
strained
cyclic
molecules
that
are
not
easily
accessed
using
known
ground-state
synthetic
methods.
Particularly,
by
excitation
aromatic
rings
provide
an
alternative
solution
to
direct
transformations
feedstocks
under
scheme
dearomatization.
Vinylcyclopropanes
(VCPs)
well-known
reagents
in
radical
clock
experiments,
working
a
probe
detect
transient
intermediates.
However,
applications
this
regard
still
remain
limited
due
uncontrollable
selectivities.
Herein,
we
report
visible-light-induced
dearomatization
indole-
or
pyrrole-tethered
VCPs,
which
several
competitive
reaction
pathways,
including
[5
+
2],
[2
interrupted
and
4]
cycloadditions,
can
be
well
regulated
engineering
substrate
structures
tuning
conditions.
The
mechanism
has
been
explored
combined
experimental
computational
investigations.
These
convenient
method
synthesize
structurally
diverse
polycyclic
with
high
efficiency
good
selectivity.
Journal of the American Chemical Society,
Journal Year:
2022,
Volume and Issue:
144(38), P. 17680 - 17691
Published: Sept. 15, 2022
Photochemical
dearomative
cycloaddition
has
emerged
as
a
useful
strategy
to
rapidly
generate
molecular
complexity.
Within
this
context,
stereo-
and
regiocontrolled
intermolecular
para-cycloadditions
are
rare.
Herein,
method
achieve
photochemical
of
quinolines
alkenes
is
shown.
Emphasis
placed
on
generating
sterically
congested
products
reaction
highly
substituted
allenes.
In
addition,
the
mechanistic
details
process
studied,
which
revealed
reversible
radical
addition
selectivity-determining
recombination.
The
regio-
stereochemical
outcome
also
rationalized.
Journal of the American Chemical Society,
Journal Year:
2022,
Volume and Issue:
144(2), P. 963 - 976
Published: Jan. 5, 2022
Cyclometalated
Ir(III)
complexes
are
often
chosen
as
catalysts
for
challenging
photoredox
and
triplet-triplet-energy-transfer
(TTET)
catalyzed
reactions,
they
of
interest
upconversion
into
the
ultraviolet
spectral
range.
However,
triplet
energies
commonly
employed
photosensitizers
typically
limited
to
values
around
2.5-2.75
eV.
Here,
we
report
on
a
new
luminophore,
with
an
unusually
high
energy
near
3.0
eV
owing
modification
previously
reported
complex
isocyanoborato
ligands.
Compared
nonborylated
cyanido
precursor
complex,
introduction
B(C6F5)3
units
in
second
coordination
sphere
results
substantially
improved
photophysical
properties,
particular
luminescence
quantum
yield
(0.87)
long
excited-state
lifetime
(13.0
μs),
addition
energy.
These
favorable
properties
(including
good
long-term
photostability)
facilitate
exceptionally
organic
photoreactions
(sensitized)
triplet-triplet
annihilation
fluorescent
singlet
excited
state
beyond
4
eV,
deep
region.
The
photocatalyzes
sigmatropic
shift
[2
+
2]
cycloaddition
reactions
that
unattainable
common
transition
metal-based
photosensitizers.
In
presence
sacrificial
electron
donor,
it
furthermore
is
applicable
demanding
photoreductions,
including
dehalogenations,
detosylations,
degradation
lignin
model
substrate.
Our
study
demonstrates
how
rational
ligand
design
transition-metal
underexplored
effects)
can
be
used
enhance
their
thereby
broaden
application
potential
solar
conversion
synthetic
photochemistry.
Chemical Science,
Journal Year:
2022,
Volume and Issue:
13(48), P. 14213 - 14225
Published: Jan. 1, 2022
This
Perspective
outlines
the
myriad
of
products
that
can
be
obtained
by
dearomatisation
and
functionalization
heteroarene
substrates.
Complex
3D
molecules
often
prepared
in
one
step
from
simple
arene
starting
materials.
