Advanced Materials,
Journal Year:
2019,
Volume and Issue:
31(24)
Published: April 26, 2019
Fluorescence
bioimaging
affords
a
vital
tool
for
both
researchers
and
surgeons
to
molecularly
target
variety
of
biological
tissues
processes.
This
review
focuses
on
summarizing
organic
dyes
emitting
at
transparency
window
termed
the
near-infrared-II
(NIR-II)
window,
where
minimal
light
interaction
with
surrounding
allows
photons
travel
nearly
unperturbed
throughout
body.
NIR-II
fluorescence
imaging
overcomes
penetration/contrast
bottleneck
in
visible
region,
making
it
remarkable
modality
early
diagnosis
cancer
highly
sensitive
tumor
surgery.
Due
their
convenient
bioconjugation
peptides/antibodies,
molecular
are
desirable
candidates
targeted
imaging,
significantly
overcoming
autofluorescence/scattering
issues
deep
tissue
imaging.
To
promote
clinical
translation
bioimaging,
advancements
high-performance
small
molecule-derived
probes
critically
important.
Here,
molecules
potential
discussed,
synthesis
chemical
structures
dyes,
optical
properties
behavior
whole
body
detection
surgery,
as
well
microscopy
A
key
perspective
direction
surgery
is
also
discussed.
Angewandte Chemie International Edition,
Journal Year:
2020,
Volume and Issue:
60(30), P. 16294 - 16308
Published: Aug. 12, 2020
The
development
of
fluorophores
for
the
second
near-infrared
window
(NIR-II,
1000-1700
nm)
represents
an
emerging,
significant,
and
vibrant
field
in
analytic
chemistry,
chemical
biology,
biomedical
engineering.
wavelength,
brightness,
stability
are
three
crucial
factors
that
determine
performance
NIR-II
fluorophore.
Up
to
now,
significant
progress
has
been
made
fluorescence
molecular
probes,
including
synthesis
D-A-D
D-π-A
with
improved
imaging
construction
off-on
probes
ratiometric
via
energy
transfer
or
structure
modification.
In
this
review,
we
summarize
most
recent
advances
engineering
design
strategies
then
highlight
a
selection
bioimaging
biosensing
applications.
We
also
provide
perspectives
on
potential
challenges
opportunities
emerging
field.
Accounts of Chemical Research,
Journal Year:
2018,
Volume and Issue:
51(8), P. 1840 - 1849
Published: Aug. 3, 2018
ConspectusBiophotonics
as
an
interdisciplinary
frontier
plays
increasingly
important
role
in
modern
biomedical
science.
Optical
agents
are
generally
involved
biophotonics
to
interpret
biomolecular
events
into
readable
optical
signals
for
imaging
and
diagnosis
or
convert
photons
other
forms
of
energy
(such
heat,
mechanical
force,
chemical
radicals)
therapeutic
intervention
biological
stimulation.
Development
new
including
metallic
nanoparticles,
quantum
dots,
up-conversion
carbon
silica
nanoparticles
has
contributed
the
advancement
this
field.
However,
most
these
have
their
own
merits
demerits,
making
them
less
effective
multimodal
biophotonic
platforms.In
Account,
we
summarize
our
recent
work
on
development
near-infrared
(NIR)
semiconducting
polymer
(SPNs)
light
converters
advanced
biophotonics.
SPNs
composed
π-electron
delocalized
polymers
(SPs)
often
possess
advantages
good
biocompatibility,
high
photostability,
large
absorption
coefficients.
Because
photophysical
properties
mainly
determined
by
molecular
structures
precursor
polymers,
engineering
allows
us
fine
tune
processes
obtain
different
responses,
even
second
NIR
window
(1000–1700
nm).
Meanwhile,
facile
nanoformulation
methods
enable
alteration
outer
inner
diverse
interactions.The
unique
brought
about
ultrasensitive
deep-tissue
imaging.
NIR-absorbing
with
strong
charge-transfer
backbones
can
photoenergy
acoustic
waves,
permitting
photoacoustic
that
bypasses
issue
scattering
reaches
centimeter
tissue
penetration
depth.
Differently,
phenylenevinylene-containing
store
photon
via
defects
emit
long-NIR
afterglow
luminescence
a
half-life
∼6
min
after
cessation
excitation.
Such
process
avoids
autofluorescence,
giving
rise
ultrahigh
signal-to-background
ratios.
So
far,
SPN-based
probes
been
developed
image
disease
tissues
(tumors),
biomarkers
(biothiols
reactive
oxygen
species),
physiological
indexes
(pH
temperature)
preclinical
animal
models.The
synthetic
flexibility
further
permits
light-modulated
interventions.
Till
now,
photothermal
conversion
efficiencies
shaped
transducers
remotely
regulate
protein
ion
channels,
enzymatic
activity,
gene
expression.
In
conjunction
desired
biodistribution
tumor-homing
ability,
doped
coated
inorganic
amplified
self-regulated
photodynamic
cancer
therapy.This
Account
thus
demonstrates
serve
nanoplatform
provide
unprecedented
opportunities
imaging,
noninvasive
bioactivation,
therapy.
Chemical Reviews,
Journal Year:
2021,
Volume and Issue:
122(1), P. 209 - 268
Published: Oct. 19, 2021
In
vivo
imaging
in
the
second
near-infrared
window
(NIR-II,
1000-1700
nm),
which
enables
us
to
look
deeply
into
living
subjects,
is
producing
marvelous
opportunities
for
biomedical
research
and
clinical
applications.
Very
recently,
there
has
been
an
upsurge
of
interdisciplinary
studies
focusing
on
developing
versatile
types
inorganic/organic
fluorophores
that
can
be
used
noninvasive
NIR-IIa/IIb
(NIR-IIa,
1300-1400
nm;
NIR-IIb,
1500-1700
nm)
with
near-zero
tissue
autofluorescence
deeper
penetration.
This
review
provides
overview
reports
published
date
design,
properties,
molecular
imaging,
theranostics
fluorophores.
First,
we
summarize
design
concepts
up-to-date
functional
biomaterials,
order
single-walled
carbon
nanotubes
(SWCNTs),
quantum
dots
(QDs),
rare-earth-doped
nanoparticles
(RENPs),
organic
(OFs).
Then,
these
novel
modalities
applications
brought
by
superior
fluorescent
properties
are
reviewed.
Finally,
challenges
perspectives
future
translation,
aiming
at
boosting
application
progress
NIR-IIa
NIR-IIb
technology
highlighted.
Nature Communications,
Journal Year:
2020,
Volume and Issue:
11(1)
Published: March 9, 2020
Abstract
Fluorescence
imaging
in
near-infrared
IIb
(NIR-IIb,
1500–1700
nm)
spectrum
holds
a
great
promise
for
tissue
imaging.
While
few
inorganic
NIR-IIb
fluorescent
probes
have
been
reported,
their
organic
counterparts
are
still
rarely
developed,
possibly
due
to
the
shortage
of
efficient
materials
with
long
emission
wavelength.
Herein,
we
propose
molecular
design
philosophy
explore
pure
fluorophores
by
manipulation
effects
twisted
intramolecular
charge
transfer
and
aggregation-induced
at
morphological
levels.
An
dye
emitting
up
1600
nm
quantum
yield
11.5%
NIR-II
region
is
developed.
fluorescence
blood
vessels
deeply-located
intestinal
tract
live
mice
based
on
dyes
achieved
high
clarity
enhanced
signal-to-background
ratio.
We
hope
this
study
will
inspire
further
development
evolution
bio-imaging.
Chemical Society Reviews,
Journal Year:
2021,
Volume and Issue:
50(4), P. 2839 - 2891
Published: Jan. 1, 2021
Supramolecular
cancer
nanotheranostics
have
shown
promising
potentials
in
early-stage
diagnosis
and
personal
therapy.
Herein,
we
summarize
the
progress
of
supramolecular
provide
guidance
for
designing
new
targeted
theranostic
agents.
Advanced Functional Materials,
Journal Year:
2019,
Volume and Issue:
29(31)
Published: May 23, 2019
Abstract
Development
of
single
near‐infrared
(NIR)
laser
triggered
phototheranostics
for
multimodal
imaging
guided
combination
therapy
is
highly
desirable
but
still
a
big
challenge.
Herein,
novel
small‐molecule
dye
DPP‐BT
designed
and
synthesized,
which
shows
strong
absorption
in
the
first
NIR
window
(NIR‐I)
fluorescence
emission
second
region
(NIR‐II).
Such
not
only
acts
as
dual‐modal
contrast
agent
NIR‐II
photoacoustic
(PA)
imaging,
also
serves
combined
therapeutic
photothermal
(PTT)
photodynamic
(PDT).
The
all‐in‐one
phototheranostic
nanoparticles
are
constructed
by
encapsulating
DPP‐BT,
chemotherapy
drug
DOX,
natural
phase‐change
materials
with
folic
acid
functionalized
amphiphile.
Notably,
under
irradiation,
DOX
can
effectively
release
from
such
via
NIR‐induced
hyperthermia
DPP‐BT.
By
intravenous
injection
into
Hela
tumor‐bearing
mice,
tumor
size
location
be
accurately
observed
fluorescence/PA
imaging.
From
vitro
vivo
results,
simultaneously
present
remarkable
antitumor
efficacy
PTT/PDT/chemo
therapy,
laser.
Overall,
this
work
provides
an
innovative
strategy
to
design
construct
nanoplatforms
clinical
phototheranostics.
Advanced Materials,
Journal Year:
2019,
Volume and Issue:
31(11)
Published: Jan. 21, 2019
Photoacoustic
(PA)
imaging
in
the
second
near-infrared
(NIR-II)
window
(1000-1700
nm)
holds
great
promise
for
deep-tissue
diagnosis
due
to
reduced
light
scattering
and
minimized
tissue
absorption;
however,
exploration
of
such
a
noninvasive
technique
is
greatly
constrained
by
lack
biodegradable
NIR-II
absorbing
agents.
Herein,
first
series
metabolizable
PA
agents
are
reported
based
on
semiconducting
polymer
nanoparticles
(SPNs).
Such
completely
organic
nanoagents
consist
π-conjugated
yet
oxidizable
optical
as
generator
hydrolyzable
amphiphilic
particle
matrix
provide
water
solubility.
The
obtained
SPNs
readily
degraded
myeloperoxidase
lipase
abundant
phagocytes,
transforming
from
nonfluorescent
(30
into
NIR
fluorescent
ultrasmall
metabolites
(≈1
nm).
As
such,
these
can
be
effectively
cleared
out
via
both
hepatobiliary
renal
excretions
after
systematic
administration,
leaving
no
toxicity
living
mice.
Particularly
possess
high
photothermal
conversion
efficiencies
emit
bright
signals
at
1064
nm,
enabling
sensitive
subcutaneous
tumor
deep
brain
vasculature
through
intact
skull
animals
low
dosage.
This
study
thus
provides
generalized
molecular
design
toward
materials
biophotonic
applications
window.
Chemical Society Reviews,
Journal Year:
2019,
Volume and Issue:
48(11), P. 3073 - 3101
Published: Jan. 1, 2019
X-rays
are
widely
applied
in
clinical
medical
facilities
for
radiotherapy
(RT)
and
biomedical
imaging.
However,
the
sole
use
of
cancer
treatment
leads
to
insufficient
radiation
energy
deposition
due
low
X-ray
attenuation
coefficients
living
tissues
organs,
producing
unavoidable
excessive
doses
with
serious
side
effects
healthy
body
parts.
Over
past
decade,
developments
materials
science
nanotechnology
have
led
rapid
progress
field
X-ray-activated
tumor-targeting
nanosystems,
which
able
tackle
even
systemic
tumors
relieve
burden
exposure
large
doses.
Additionally,
novel
imaging
contrast
agents
techniques
also
been
developed.
In
comparison
conventional
external
light
sources
(e.g.,
near
infrared),
technique
is
ideal
activation
nanosystems
applications
its
nearly
unlimited
penetration
depth
organisms.
this
review,
we
systematically
describe
interaction
mechanisms
between
provide
an
overview
X-ray-sensitive
recent
on
cancer-associated
theranostic
applications.
