metals |
(656) |
Au nanostars |
808 nm laser irradiation
(0.5 W cm–2, 5 min) |
85.5% |
|
(657) |
Au nanoparticles |
808 nm laser
irradiation (1 W cm–2, 5 min) |
53.6% |
|
(658) |
Au-Pd nanoparticles |
808 nm laser irradiation (0.5 W cm–2, 5 min) |
41.9% |
|
(659) |
(Ag nanocube
core)@(Au nanorod shell) nanostructures |
808 nm laser
irradiation (1 W cm–2, 10 min) |
87.28% |
|
(660) |
Au nanostars |
785
nm laser irradiation (0.02 W cm–2, 20
min) |
63.6% |
|
(661) |
Au nanoparticles |
808 nm laser irradiation (1 W cm–2, 10 min) |
48.4% |
|
(662) |
Pd nanosheets |
808 nm laser irradiation (1.5 W cm–2, 2 min) |
39.2% |
|
(663) |
Cu nanoparticles |
808 nm laser irradiation (0.3 W cm–2, 10
min) |
26.5% |
|
(664) |
Au nanostars |
1064 nm laser irradiation (0.5 W cm–2, 5
min) |
67.1% |
|
(665) |
Mn nanoparticles |
1064 nm laser irradiation (1.2 W cm–2, 10
min) |
22.1% |
|
(666) |
Fe nanoparticles |
808 nm laser irradiation (0.95 W cm–2, 20
min) |
67% |
|
(667) |
Ag nanoparticles |
808 nm laser irradiation (0.25 W cm–2, 5
min) |
71.68% |
|
(668) |
Mn nanoparticles |
940 nm laser irradiation (1 W cm–2, 7 min) |
70% |
|
(669) |
Cu single atoms |
1064 nm laser irradiation
(0.39 W cm–2, 5
min) |
41.6% |
|
(670) |
Au nanorods |
980 nm laser irradiation (0.1 W cm–2, 5 min) |
40.62% |
semiconductors |
(671) |
MnOx/PDA nanobombs |
808
nm laser irradiation (2 W cm–2, 5 min) |
34.8% |
|
(672) |
flower-like
MnO2 nanoparticles |
808 nm laser irradiation
(1 W cm–2, 15 min) |
21.3% |
|
(673) |
γ-Fe2O3 nanoparticles |
1064 nm laser irradiation (1.1 W cm–2, 10
min) |
59.85% |
|
(674) |
Fe3O4@Cu1.77Se nanoparticles |
1064 nm laser irradiation (0.75 W cm–2, 10
min) |
67.6% |
|
(675) |
Fe3O4 nanoparticles |
808 nm laser irradiation
(1 W cm–2, 10 min)
or 650 nm laser irradiation (0.5 W cm–2, 10 min) |
34.6%/17.9% |
|
(676) |
Sb2O3 nanoparticles |
1210 nm laser irradiation
(1 W cm–2, 8 min) |
44% |
|
(677) |
FeS nanoparticles |
1064 nm laser irradiation
(1 W cm–2, 6 min) |
56.51% |
|
(678) |
Fe3O4 nanoparticles
on graphene oxide
nanosheets |
808 nm laser irradiation (1.5 W cm–2, 10
min) |
55.89% |
|
(679) |
CuS nanoparticles |
1060 nm laser irradiation (1 W cm–2, 10 min) |
57.9% |
|
(680) |
CuS nanoparticles |
808 nm laser irradiation
(0.5 W cm–2, 5 min) |
45.6% |
|
(681) |
IrWOx nanoparticles |
808 nm laser irradiation (1 W cm–2, 5 min) |
27% |
|
(682) |
CuSe nanoparticles |
808 nm laser irradiation (3 W cm–2, 10 min) |
31.9% |
organic polymers |
(683) |
spirolactone nanoparticles |
808 nm laser irradiation
(1.5 W cm–2, 10
min) |
36.9% |
|
(684) |
two isoindigo-based
semiconducting conjugated polymers |
808 nm laser irradiation
(0.8 W cm–2, 6 min) |
70.6% |
|
(685) |
PTTe nanoparticles |
1064 nm
laser irradiation (1 W cm–2, 10 min) |
47.5% |
|
(686) |
zwitterion–liposome
hybrid nanoparticles |
1064 nm laser irradiation (1 W
cm–2, 6 min) |
30.8% |
|
(687) |
O-T molecular oligomerization nanostructures |
1064 nm laser irradiation (1.0 W cm–2, 5
min) |
73% |
|
(688) |
DTTVBI
nanoparticles |
808 nm laser irradiation (0.8 W cm–2, 6 min) |
45.8% |
|
(689) |
N+TT-mCB nanoparticles |
808
nm laser irradiation (0.45 W cm–2, 5
min) |
78% |
|
(690) |
BNDI-Me
π-conjugated molecules |
808 nm laser irradiation
(0.3 W cm–2, 10
min) |
50% |
|
(691) |
nanoparticles
of A-D-A type planar phototheranostic agent |
808 nm laser
irradiation (0.3 W cm–2, 10
min) |
80% |
|
(692) |
J-aggregates
of aza-coating heptamethine cyanines |
808 nm laser irradiation
(1 W cm–2, 5 min) |
57.59% |
|
(693) |
nanoparticles of D-A-D type conjugated small
molecules |
1064 nm laser irradiation (1 W cm–2, 8 min) |
35.8% |
|
(694) |
D-A conjugated Ru(II)-arene complex nanoparticles |
808
nm laser irradiation (0.5 W cm–2, 10
min) |
24.2% |
|
(695) |
V-shaped
DUT850 molecules |
808 nm laser irradiation (0.33 W cm–2, 5
min) |
60% |
|
(696) |
nanoparticles
derived from borane-modified dianthracenylpyrazines |
808 nm laser irradiation (1 W cm–2, 5 min) |
41.8% |
|
(697) |
nanoparticles
of organic metal adjuvants |
1064 nm laser irradiation
(1 W cm–2, 5 min) |
47.0% |
|
(698) |
supramolecular photothermal nanodrugs |
680 nm laser irradiation (0.5 W cm–2, 10
min) |
48.0% |
|
(699) |
glucose
oxidase engineered PAn nanoplatforms |
808 nm laser irradiation
(1 W cm–2, 10 min) |
55% |
|
(700) |
nanoparticulate heavy-atom-free boron dipyrromethene
dye derivative |
808 nm laser irradiation (2 W cm–2, 5 min) |
60.02% |
|
(701) |
nanoaggregates of polymeric photothermal agents coated
with
DC membranes |
808 nm laser irradiation (1 W cm–2, 5 min) |
30.5% |
|
(702) |
aza-boron dipyrromethene dimers |
915 nm laser irradiation
(0.54 W cm–2, 10
min) |
60.3% |
|
(703) |
polymer
multicellular nanoengagers |
1064 nm laser irradiation
(1 W cm–2, 6 min) |
88.8% |
2D nanomaterials |
(704) |
sheet-like 2D manganese(IV) complex |
730 nm laser irradiation (0.75 W cm–2, 5
min) |
71% |
|
(705) |
Sn nanosheets |
808 nm laser irradiation (1 W cm–2, 10 min) |
37.9% |
|
(706) |
Fe-based
2D nanosheets |
1064 nm laser irradiation (1 W cm–2, 10 min) |
43.3% |
carbon-based materials |
(313) |
SWCNTs and MWCNTs |
808 nm laser irradiation (1 W cm–2, 5 min) |
59.3%/57.8% |