ACS Applied Materials & Interfaces,
Journal Year:
2021,
Volume and Issue:
13(35), P. 41372 - 41395
Published: Aug. 27, 2021
While
antioxidants
are
widely
known
as
natural
components
of
healthy
food
and
drinks
or
additives
to
commercial
polymer
materials
prevent
their
degradation,
recent
years
have
seen
increasing
interest
in
enhancing
the
antioxidant
functionality
newly
developed
coatings.
This
paper
provides
a
critical
overview
comparative
analysis
multiple
ways
integrating
within
diverse
materials,
including
bulk
films,
electrospun
fibers,
self-assembled
Polyphenolic
moieties
with
varied
molecular
architecture
focus
this
Review,
because
abundance,
nontoxic
nature,
potent
activity.
Polymer
integrated
polyphenolic
offer
opportunities
challenges
that
span
from
fundamentals
applications.
In
addition
traditional
blending
developments
surface
grafting
assembly
via
noncovalent
interaction
for
controlling
localization
versus
migration
molecules
discussed.
The
versatile
chemistry
offers
numerous
possibilities
programmed
inclusion
these
using
not
only
van
der
Waals
interactions
covalent
tethering
polymers,
but
also
hydrogen-bonding
neutral
molecules.
An
understanding
rational
use
polyphenol
surrounding
can
enable
precise
control
concentration
retention
delivery
rate
packaging,
biomedical,
environmental
Materials Horizons,
Journal Year:
2021,
Volume and Issue:
8(6), P. 1618 - 1633
Published: Jan. 1, 2021
This
review
focuses
on
the
recent
progress
in
polydopamine
antibacterial
materials,
including
their
structural
and
functional
features,
preparation
strategies,
mechanisms,
biomedical
applications.
Chemical Society Reviews,
Journal Year:
2021,
Volume and Issue:
50(14), P. 8319 - 8343
Published: Jan. 1, 2021
This
review
provides
in-depth
insight
into
the
structural
engineering
of
PDA-based
materials
to
enhance
their
responsive
feature
and
use
them
in
construction
stimuli-responsive
smart
materials.
Materials Horizons,
Journal Year:
2020,
Volume and Issue:
8(1), P. 145 - 167
Published: Sept. 17, 2020
Polyphenols
are
a
class
of
ubiquitous
compounds
distributed
in
nature,
with
fascinating
inherent
biocompatible,
bioadhesive,
antioxidant,
and
antibacterial
properties.
The
unique
polyphenolic
structures
based
on
catechol
or
pyrogallol
moieties
allow
for
strong
non-covalent
interactions
(e.g.,
multiple
hydrogen
bonding,
electrostatic,
cation-π
interactions)
as
well
covalent
Michael
addition/Schiff-base
reaction,
radical
coupling
dynamic
coordination
boronate
metal
ions).
This
review
article
provides
an
overview
the
polyphenol-based
scaffolds
including
hydrogels,
films,
nanofibers
that
have
emerged
from
chemical
functional
signatures
during
past
years.
A
full
description
structure-function
relationships
terms
their
utilization
wound
healing,
bone
regeneration,
electroactive
tissue
engineering
is
also
carefully
discussed,
which
may
pave
path
towards
rational
design
facile
preparation
next-generation
polyphenol
applications.
Chemical Reviews,
Journal Year:
2022,
Volume and Issue:
122(13), P. 11432 - 11473
Published: May 10, 2022
Metal
ions
are
ubiquitous
in
nature
and
play
significant
roles
assembling
functional
materials
fields
spanning
chemistry,
biology,
science.
Metal-phenolic
assembled
from
phenolic
components
the
presence
of
metal
through
formation
metal-organic
complexes.
Alkali,
alkali-earth,
transition,
noble
as
well
metalloids
interacting
with
building
blocks
have
been
widely
exploited
to
generate
diverse
hybrid
materials.
Despite
extensive
studies
on
synthesis
metal-phenolic
materials,
a
comprehensive
summary
how
guide
assembly
compounds
is
lacking.
A
fundamental
understanding
engineering
will
facilitate
specific
properties.
In
this
review,
we
focus
diversity
function
material
emerging
applications.
Specifically,
discuss
range
underlying
interactions,
including
(i)
cation-π,
(ii)
coordination,
(iii)
redox,
(iv)
dynamic
covalent
highlight
wide
properties
resulting
these
interactions.
Applications
(e.g.,
biological,
catalytic,
environmental)
perspectives
also
highlighted.
Frontiers in Nutrition,
Journal Year:
2022,
Volume and Issue:
9
Published: June 29, 2022
Chlorogenic
acid
(CGA),
also
known
as
coffee
tannic
and
3-caffeoylquinic
acid,
is
a
water-soluble
polyphenolic
phenylacrylate
compound
produced
by
plants
through
the
shikimic
pathway
during
aerobic
respiration.
CGA
widely
found
in
higher
dicotyledonous
plants,
ferns,
many
Chinese
medicine
which
enjoy
reputation
of
“plant
gold.”
We
have
summarized
biological
activities
CGA,
are
mainly
shown
anti-oxidant,
liver
kidney
protection,
anti-bacterial,
anti-tumor,
regulation
glucose
metabolism
lipid
metabolism,
anti-inflammatory,
protection
nervous
system,
action
on
blood
vessels.
further
determined
main
applications
food
industry,
including
additives,
storage,
composition
modification,
packaging
materials,
functional
prebiotics.
With
view
to
theoretical
improvement
activity
mechanism,
subsequent
development
utilization
provide
reference
scientific
basis.
ACS Applied Materials & Interfaces,
Journal Year:
2021,
Volume and Issue:
13(6), P. 7617 - 7624
Published: Feb. 4, 2021
A
solar
steam
generation
method
has
been
widely
investigated
as
a
sustainable
to
achieve
seawater
desalination
and
sewage
treatment.
However,
oil
pollutants
are
usually
emitted
in
real
or
wastewaters,
which
can
cause
serious
fouling
problems
disturb
the
evaporation
performance.
In
this
work,
mussel-inspired,
low-cost,
polydopamine-filled
cellulose
aerogel
(PDA-CA)
rationally
designed
fabricated
with
both
superhydrophilicity
underwater
superoleophobicity.
The
resulting
PDA-CA
device
could
also
high
rate
of
1.36
kg
m–1
h–1
an
86%
energy
utilize
efficiency
under
1
sun
illumination.
addition,
not
only
exhibited
promising
antifouling
capacity
for
long-term
water
but
engaged
effective
adsorption
organic
dye
contaminants.
These
features
may
offer
new
opportunities
developing
multifunctional
photothermal
devices
solar-driven
remediation.
Advanced Science,
Journal Year:
2022,
Volume and Issue:
9(27)
Published: July 25, 2022
Due
to
the
abuse
of
antibiotics
and
emergence
multidrug
resistant
microorganisms,
medical
devices,
related
biomaterials
are
at
high
risk
microbial
infection
during
use,
placing
a
heavy
burden
on
patients
healthcare
systems.
Metal-phenolic
networks
(MPNs),
an
emerging
organic-inorganic
hybrid
network
system
developed
gradually
in
recent
years,
have
exhibited
excellent
multifunctional
properties
such
as
anti-inflammatory,
antioxidant,
antibacterial
by
making
use
coordination
between
phenolic
ligands
metal
ions.
Further,
MPNs
received
widespread
attention
antimicrobial
infections
due
their
facile
synthesis
process,
biocompatibility,
brought
about
polyphenols
In
this
review,
different
categories
based
(nanoparticles,
coatings,
capsules,
hydrogels)
fabrication
strategies
summarized,
research
advances
applications
biomedical
fields
(e.g.,
skin
repair,
bone
regeneration,
etc.)
highlighted.
