Wiley Interdisciplinary Reviews Computational Molecular Science,
Год журнала:
2022,
Номер
12(4)
Опубликована: Янв. 12, 2022
Abstract
An
open‐source
software
library
for
wavefunction
analysis,
libwfa,
provides
a
comprehensive
and
flexible
toolbox
post‐processing
excited‐state
calculations,
featuring
hierarchy
of
interconnected
visual
quantitative
analysis
methods.
These
tools
afford
compact
graphical
representations
various
processes,
provide
detailed
insight
into
electronic
structure,
are
suitable
automated
processing
large
data
sets.
The
is
based
on
reduced
quantities,
such
as
state
transition
density
matrices
(DMs),
allows
one
to
distill
simple
molecular
orbital
pictures
physical
phenomena
from
intricate
correlated
wavefunctions.
implemented
descriptors
rigorous
link
between
many‐body
wavefunctions
intuitive
chemical
models,
example,
exciton
binding,
double
excitations,
relaxation,
polyradical
character.
A
broad
range
quantum‐chemical
methods
interfaced
with
libwfa
via
uniform
interface
layer
in
the
form
DMs.
This
contribution
reviews
structure
highlights
its
capabilities
by
several
representative
use
cases.
article
categorized
under:
Software
>
Quantum
Chemistry
Theoretical
Physical
Spectroscopy
The Journal of Chemical Physics,
Год журнала:
2021,
Номер
155(8)
Опубликована: Авг. 23, 2021
This
article
summarizes
technical
advances
contained
in
the
fifth
major
release
of
Q-Chem
quantum
chemistry
program
package,
covering
developments
since
2015.
A
comprehensive
library
exchange-correlation
functionals,
along
with
a
suite
correlated
many-body
methods,
continues
to
be
hallmark
software.
The
methods
include
novel
variants
both
coupled-cluster
and
configuration-interaction
approaches
based
on
algebraic
diagrammatic
construction
variational
reduced
density-matrix
methods.
Methods
highlighted
5
tools
for
modeling
core-level
spectroscopy,
describing
metastable
resonances,
computing
vibronic
spectra,
nuclear-electronic
orbital
method,
several
different
energy
decomposition
analysis
techniques.
High-performance
capabilities
including
multithreaded
parallelism
support
calculations
graphics
processing
units
are
described.
boasts
community
well
over
100
active
academic
developers,
continuing
evolution
software
is
supported
by
an
"open
teamware"
model
increasingly
modular
design.
Journal of Chemical Theory and Computation,
Год журнала:
2022,
Номер
18(3), С. 1646 - 1662
Опубликована: Фев. 24, 2022
The
performance
of
the
most
recent
density
functionals
is
assessed
for
charge-transfer
(CT)
excitations
using
comprehensive
intra-
and
intermolecular
CT
benchmark
sets
with
high-quality
reference
values.
For
this
comparison,
state-of-the-art
range-separated
(RS)
long-range-corrected
(LC)
double
hybrid
(DH)
approaches
are
selected,
global
DH
LC
also
inspected.
correct
long-range
behavior
exchange–correlation
(XC)
energy
extensively
studied,
various
descriptors
compared
as
well.
Our
results
show
that
robust
attained
by
RS-PBE-P86/SOS-ADC(2),
it
suitable
to
describe
both
types
outstanding
accuracy.
Furthermore,
concerning
intramolecular
transitions,
unexpectedly
excellent
obtained
DHs,
but
their
limitations
demonstrated
bimolecular
complexes.
Despite
LC-DH
methods
common
excitations,
serious
deficiencies
pointed
out
wrong
XC
revealed.
application
hybrids
such
transitions
not
recommended
in
any
respect.
Journal of the American Chemical Society,
Год журнала:
2023,
Номер
145(7), С. 3937 - 3951
Опубликована: Фев. 13, 2023
The
synthesis
as
well
the
structural
and
photophysical
characterization
of
two
isoleptic
bis-cyclometalated
Pt(II)
Pd(II)
complexes,
namely
[PtL]
[PdL],
bearing
a
tailored
dianionic
tetradentate
ligand
(L2–)
are
reported.
isostructural
character
intermolecular
interactions
[PdL]
were
assessed
by
NMR
spectroscopy
X-ray
diffraction
analysis.
Both
complexes
show
fully
ligand-controlled
aggregation,
demonstrating
that
judicious
molecular
design
can
tune
properties.
In
fact,
introduction
fluorine
atoms
on
defined
positions
methoxy
groups
complementary
sites,
metal–metal
be
forced
head-to-tail
stacking.
Hence,
shows
luminescence
from
metal-perturbed
ligand-centered
or
metal-metal-to-ligand
charge-transfer
triplet
states
in
diluted
solutions,
frozen
glasses
crystals,
with
high
photoluminescence
quantum
yields
long
lifetimes
microsecond
range.
At
room
temperature
(RT)
concentrated
fluid
palladium
analogue
surprisingly
emits
aggregated
species
involving
supramolecular
interactions.
Time-resolved
transient
absorption
spectroscopies
demonstrated
ultrafast
intersystem
crossing
occurs
for
both
metals,
which
outruns
any
competitive
relaxation
pathway
photoexcited
singlet
state.
Furthermore,
we
demonstrate
radiationless
deactivation
suppressed
glassy
matrices
at
77
K
solutions
RT.
cases
indicated
density
functional
theory
calculations,
lowest
emissive
state
acts
an
energy
trap
thermal
population
dissociative
formal
occupation
antibonding
Pd-centered
4dx2–y2
orbital
is
suppressed.
This
gap
between
dark
surpasses
kT.
Nature Chemistry,
Год журнала:
2023,
Номер
15(4), С. 468 - 474
Опубликована: Фев. 27, 2023
Although
iron
is
a
dream
candidate
to
substitute
noble
metals
in
photoactive
complexes,
realization
of
emissive
and
compounds
demanding
due
the
fast
deactivation
their
charge-transfer
states.
Emissive
are
scarce
dual
emission
has
not
been
observed
before.
Here
we
report
FeIII
complex
[Fe(ImP)2][PF6]
(HImP
=
1,1'-(1,3-phenylene)bis(3-methyl-1-imidazol-2-ylidene)),
showing
Janus-type
from
ligand-to-metal
charge
transfer
(LMCT)-
metal-to-ligand
(MLCT)-dominated
This
behaviour
achieved
by
ligand
design
that
combines
four
N-heterocyclic
carbenes
with
two
cyclometalating
aryl
units.
The
low-lying
π*
levels
units
lead
energetically
accessible
MLCT
states
cannot
evolve
into
LMCT
With
lifetime
4.6
ns,
strongly
reducing
oxidizing
MLCT-dominated
state
can
initiate
electron
reactions,
which
could
constitute
basis
for
future
applications
photoredox
catalysis.
Journal of the American Chemical Society,
Год журнала:
2024,
Номер
146(7), С. 4489 - 4499
Опубликована: Фев. 8, 2024
Two-dimensional
covalent
organic
frameworks
(COFs)
are
an
emerging
class
of
photocatalytic
materials
for
solar
energy
conversion.
In
this
work,
we
report
a
pair
structurally
isomeric
COFs
with
reversed
imine
bond
directions,
which
leads
to
drastic
differences
in
their
physical
properties,
photophysical
behaviors,
and
CO2
reduction
performance
after
incorporating
Re(bpy)(CO)3Cl
molecular
catalyst
through
bipyridyl
units
on
the
COF
backbone
(Re-COF).
Using
combination
ultrafast
spectroscopy
theory,
attributed
these
polarized
nature
that
imparts
preferential
direction
intramolecular
charge
transfer
(ICT)
upon
photoexcitation,
where
unit
acts
as
electron
acceptor
forward
case
(f-COF)
donor
reverse
(r-COF).
These
interactions
ultimately
lead
Re-f-COF
isomer
function
efficient
photocatalyst,
while
Re-r-COF
shows
minimal
activity.
findings
not
only
reveal
essential
role
linker
chemistry
plays
properties
but
also
offer
unique
opportunity
design
photosensitizers
can
selectively
direct
charges.
Nature Materials,
Год журнала:
2024,
Номер
23(4), С. 519 - 526
Опубликована: Март 13, 2024
Abstract
Hyperfluorescence
shows
great
promise
for
the
next
generation
of
commercially
feasible
blue
organic
light-emitting
diodes,
which
eliminating
Dexter
transfer
to
terminal
emitter
triplet
states
is
key
efficiency
and
stability.
Current
devices
rely
on
high-gap
matrices
prevent
transfer,
unfortunately
leads
overly
complex
from
a
fabrication
standpoint.
Here
we
introduce
molecular
design
where
ultranarrowband
emitters
are
covalently
encapsulated
by
insulating
alkylene
straps.
Organic
diodes
with
simple
emissive
layers
consisting
pristine
thermally
activated
delayed
fluorescence
hosts
doped
exhibit
negligible
external
quantum
drops
compared
non-doped
devices,
enabling
maximum
21.5%.
To
explain
high
in
absence
matrices,
turn
transient
absorption
spectroscopy.
It
directly
observed
that
sensitizer
host
can
be
substantially
reduced
an
emitter,
opening
door
highly
efficient
‘matrix-free’
hyperfluorescence.
Journal of Chemical Theory and Computation,
Год журнала:
2021,
Номер
17(6), С. 3666 - 3686
Опубликована: Май 6, 2021
In
the
aim
of
completing
our
previous
efforts
devoted
to
local
and
Rydberg
transitions
in
organic
compounds,
we
provide
a
series
highly-accurate
vertical
transition
energies
for
intramolecular
charge-transfer
occurring
($\pi$-conjugated)
molecular
compounds.
To
this
end
apply
composite
protocol
consisting
linear-response
CCSDT
excitation
determined
with
Dunning's
double-$\zeta$
basis
set
corrected
by
CC3/CCSDT-3
obtained
corresponding
triple-$\zeta$
basis.
Further
corrections
(up
\emph{aug}-cc-pVQZ)
are
at
CCSD
CC2
level.
We
report
30
17
These
reference
values
then
used
benchmark
wave
function
(CIS(D),
SOPPA,
RPA(D),
EOM-MP2,
CC2,
CCSD,
CCSD(T)(a)*,
CCSDR(3),
CCSDT-3,
CC3,
ADC(2),
ADC(3),
ADC(2.5)),
Green's
function-based
Bethe-Salpeter
equation
(BSE)
formalism
performed
on
top
partially
self-consistent
ev$GW$
scheme
considering
two
different
starting
points
(BSE/ev$GW$@HF
BSE/ev$GW$@PBE0),
TD-DFT
combined
several
exchange-correlation
functionals
(B3LYP,
PBE0,
M06-2X,
CAM-B3LYP,
LC-$\omega$HPBE,
$\omega$B97X,
$\omega$B97X-D,
M11).
Journal of the American Chemical Society,
Год журнала:
2021,
Номер
143(2), С. 1061 - 1068
Опубликована: Янв. 4, 2021
2D
covalent
organic
frameworks
(COFs)
have
emerged
as
a
promising
class
of
luminescent
materials
due
to
their
structural
diversity,
which
allows
the
systematic
tuning
building
blocks
optimize
emitting
properties.
However,
significant
knowledge
gap
exists
between
design
strategy
and
fundamental
understanding
key
parameters
that
determine
photophysical
In
this
work,
we
report
two
highly
emissive
sp2-C-COFs
direct
correlation
structure
(conjugation
aggregation)
with
light
absorption/emission,
charge
transfer
(CT),
exciton
dynamics,
properties
function
materials.
We
show
white
can
be
obtained
by
simply
coating
COFs
on
an
LED
strip
or
mixing
COFs.
Using
combination
time-resolved
absorption
emission
spectroscopy
well
computational
prediction,
planarity,
conjugation,
orientation
dipole
moment,
interlayer
aggregation
not
only
light-harvesting
ability
but
also
control
relaxation
pathway
photoluminescent
quantum
yield.
