ChemistrySelect,
Journal Year:
2023,
Volume and Issue:
8(34)
Published: Sept. 7, 2023
Abstract
A
simple
and
efficient
protocol
for
oxidative
cleavage
of
aryl
C(OH)−C
bonds
to
acids
was
reported.
In
this
protocol,
KO
t
Bu
found
be
able
transform
alcohols
ketones
the
desired
benzoic
without
any
other
additives
using
4
MPa
O
2
in
mesitylene.
Substrates
with
either
electron‐donating
or
electron‐withdrawing
groups
could
transformed
according
moderate
excellent
yield.
All
these
findings
indicated
that
oxidation
secondary
might
proceed
through
a
radical
mechanism.
And
represent
lignin
dimer
model
compound
successfully
acid,
which
has
potential
nature
lignin.
Topics in Catalysis,
Journal Year:
2021,
Volume and Issue:
65(1-4), P. 118 - 140
Published: Nov. 16, 2021
Abstract
In
homogeneous
catalysis
solvent
is
an
inherent
part
of
the
catalytic
system.
As
such,
it
must
be
considered
in
computational
modeling.
The
most
common
approach
to
include
effects
quantum
mechanical
calculations
by
means
continuum
models.
When
they
are
properly
used,
average
efficiently
captured,
mainly
those
related
with
polarity.
However,
neglecting
atomistic
description
molecules
has
its
limitations,
and
models
all
alone
cannot
applied
whatever
situation.
many
cases,
inclusion
explicit
system
mandatory.
purpose
this
article
highlight
through
selected
examples
what
reasons
that
urge
go
beyond
employment
micro-solvated
(cluster-continuum)
fully
models,
way
setting
limits
catalysis.
These
showcase
calculation
not
only
can
improve
already
known
mechanisms
but
yield
new
mechanistic
views
a
reaction.
With
aim
systematizing
use
after
discussing
success
limitations
issues
coordination
dynamics,
reactions
involving
small,
charged
species,
as
well
protic
solvents
role
reagent
itself
successively
considered.
European Journal of Inorganic Chemistry,
Journal Year:
2021,
Volume and Issue:
2021(47), P. 4884 - 4889
Published: Sept. 21, 2021
Abstract
This
minireview
discusses
the
accelerative
role
of
alkali
metal
alkoxides
in
two
important
catalytic
processes:
hydrogenation
ketones
and
esters
with
Noyori‐type
molecular
catalysts.
Here
I
offer
my
perspective
on
unique
mechanistic
aspects
these
reactions
–
a
subject
that
remains
controversial
often
misunderstood.
Journal of Chemical Information and Modeling,
Journal Year:
2022,
Volume and Issue:
62(10), P. 2378 - 2386
Published: April 22, 2022
Using
a
realistic
molecular
catalyst
system,
we
conduct
scaling
studies
of
ab
initio
dynamics
simulations
using
the
popular
CP2K
code
on
both
Intel
Xeon
CPU
and
NVIDIA
V100
GPU
architectures.
Additional
performance
improvements
were
gained
by
finding
more
optimal
process
placement
affinity
settings.
Statistical
methods
employed
to
understand
changes
in
spite
variability
runtime
for
each
timestep.
Ideal
conditions
runs
found
when
running
at
least
four
MPI
ranks
per
node,
bound
evenly
across
socket.
This
study
also
showed
that
fully
utilizing
processing
cores,
with
one
OpenMP
thread
core,
performed
better
than
reserving
cores
system.
The
CPU-only
scaled
70%
or
ideal
up
10
compute
nodes,
after
which
returns
began
diminish
quickly.
Simulations
single
40-core
node
two
GPUs
acceleration
achieved
over
3.7×
speedup
compared
fastest
36-core
version.
These
same
13%
time
five
nodes.
European Journal of Organic Chemistry,
Journal Year:
2023,
Volume and Issue:
27(11)
Published: Dec. 18, 2023
Abstract
We
report
herein
an
N
‐alkylation
reaction
of
amines
with
alcohols
through
a
hydrogen
autotransfer
reaction.
Unlike
other
catalytic
systems
containing
transition
metals
or
additives,
potassium
tertiary
butoxide
was
found
to
be
unique
and
effective
catalyst
for
synthesizing
secondary
amines.
The
role
the
K
+
ion
intermediates
were
studied
under
control
experiments
by
theoretical
calculations.
general
tolerates
series
functional
groups,
providing
convenient
method
synthesize
‐alkylated
compounds.
ChemistrySelect,
Journal Year:
2024,
Volume and Issue:
9(11)
Published: March 12, 2024
Abstract
Herein
we
report
an
atom‐economical,
transition
metal‐free
method
for
synthesizing
2‐aryl
quinazolinones
through
a
cascade
annulation
of
2‐amino
benzamide
and
benzyl
alcohol.
The
reaction
proceeds
via
KO
t
Bu‐mediated
acceptorless
alcohol
dehydrogenation
pathways.
procedure
tolerates
wide
variety
functional
groups
provides
convenient
the
synthesis
quinazolinones.
Mechanistic
insights
by
experiments
DFT
calculations
lead
to
unveil
mechanism.
ChemSusChem,
Journal Year:
2022,
Volume and Issue:
16(2)
Published: Nov. 29, 2022
The
hydrodemethylation
(HDM)
of
toluene
to
benzene
is
an
industrial
process
performed
at
elevated
temperatures
(≈500
°C
and
higher).
Here,
it
was
reported
that
heating
graphite-supported
potassium
hydride
(KH/C)
with
under
H2
atmosphere
provided
already
125-250
°C.
Depending
on
the
pressure,
reaction
either
substoichiometric
(
≤11
bar)
or
catalytic
≥50
respect
KH,
indicating
KH
may
serve
as
a
radical
chain
initiator.
At
250
°C,
selectivity
98
63
%
when
using
6
80
bar
,
respectively,
owing
competing
formation
cyclohexane
methylcyclohexane
high
pressure.
used
KH/C
material
amenable
recycling
without
notable
loss
in
yield
benzene.
ChemistrySelect,
Journal Year:
2022,
Volume and Issue:
7(3)
Published: Jan. 19, 2022
Abstract
The
ketones
and
benzoic
acids
are
very
useful
chemicals
as
the
precursors
intermediates
in
both
laboratory
synthetic
industrial
applications,
which
usually
obtained
by
selective
catalytic
oxidation
of
alcohols
using
a
amount
certain
expensive
oxidants
or
metal
catalysts.
Here,
an
efficient
practical
aryl
secondary
primary
to
corresponding
carbonyl
compounds
NaO
t
Bu
open
air
at
room
temperature
has
been
developed.
And
utilizing
Bu/air/
toluene,
series
were
from
high
yields,
respectively.
More
importantly,
most
substrates
with
electron‐withdrawing
electron‐donating
groups
could
be
converted
products
excellent
yields.
Furthermore,
practicality
reaction
was
demonstrated
through
1.0
gram‐scale
yield.
The Journal of Organic Chemistry,
Journal Year:
2022,
Volume and Issue:
88(22), P. 15540 - 15550
Published: Sept. 16, 2022
A
straightforward
metal-free
oxa-Michael
cascade
[4
+
2]
annulation
reaction
was
established
between
isatin-derived
Morita–Baylis–Hillman
(Is-MBH)
alcohols
with
alkylidene
pyrazolones
to
access
structural
diverse
tetrahydro-dispiro[indolinone-3,2′-pyran-5′,4″-pyrazolone]
scaffolds
bearing
two
tertiary
and
quaternary
stereocenters.
The
Is-MBH
alcohol
utilized
as
an
donor
for
the
first
time
a
new
approach
in
highly
atom-economical
transformations.
This
method
offered
wide
range
of
bioinspired
novel
tetrahydro-dispirooxindole-pyran-pyrazolone
derivatives
excellent
yields
(up
96%)
diastereoselectivities
>20:1)
shorter
(15
min).
RSC Advances,
Journal Year:
2023,
Volume and Issue:
13(30), P. 20748 - 20755
Published: Jan. 1, 2023
The
catalytic
acceptorless
dehydrogenation
(ADH)
of
saturated
N-heterocycles
has
recently
gained
considerable
attention
as
a
promising
strategy
for
hydrogen
release
from
liquid
organic
carriers
(LOHCs).
Recently,
simple
tBuOK
base-promoted
ADH
was
developed
by
Yu
et
al.
(Adv.
Synth.
Catal.
2019,
361,
3958).
However,
it
is
still
open
to
how
the
plays
role
in
process.
Herein,
our
density
functional
study
reveals
that
catalyzes
1,2,3,4-tetrahydroquinoline
(THQ)
through
quasi-metal-ligand
bifunctional
channel
or
base-catalyzed
pathway
with
close
energy
barriers.
hydride
transfer
first
process
determined
be
rate
determining
step,
and
second
can
proceed
directly
34DHQ
regulated
tBuOK.
In
addition,
computational
results
show
cooperation
suitable
alkali
metal
ion
tBuO-
group
so
critical
tBuOLi
isolated
are
both
inferior
catalyst.
