|
surface modification |
13 |
|
biocompatibility |
12 |
|
osteoblast |
11 |
|
bioactivity |
10 |
|
immunomodulation |
10 |
|
magnesium |
10 |
|
osteoporosis |
10 |
|
bone regeneration |
9 |
|
calcium phosphate cement |
9 |
|
mechanical properties |
9 |
|
osteogenesis |
9 |
|
plasma immersion ion implantation |
9 |
|
adolescent idiopathic scoliosis |
8 |
|
antibacterial |
8 |
|
implants |
8 |
|
nickel |
8 |
|
silver nanoparticles |
8 |
|
tissue engineering |
8 |
|
titanium |
8 |
|
core-shell microspheres |
7 |
|
corrosion |
7 |
|
corrosion resistance |
7 |
|
estrogen receptors (ers) |
7 |
|
hkuot-s2 protein |
7 |
|
nitinol |
7 |
|
osteoblast functions |
7 |
|
ovariectomy (ovx) |
7 |
|
titanium - chemistry |
7 |
|
wound healing |
7 |
|
3-d printing |
6 |
|
additive manufacturing |
6 |
|
bioluminescent bacteria |
6 |
|
biomaterials |
6 |
|
bone defect repair |
6 |
|
bone homeostasis |
6 |
|
bone mineral density (bmd) |
6 |
|
degradation |
6 |
|
dioscorea spp protein |
6 |
|
healing |
6 |
|
mesenchymal stem cells (mscs) |
6 |
|
mtor signaling pathway |
6 |
|
nickel titanium |
6 |
|
niti |
6 |
|
orthopedic implants |
6 |
|
osteoblast differentiation |
6 |
|
osteoconductivity |
6 |
|
osteoimmunomodulation |
6 |
|
patient-specific instruments and implants |
6 |
|
rod |
6 |
|
self-antibacterial effect |
6 |
|
stainless steel |
6 |
|
superelastic |
6 |
|
surgical planning |
6 |
|
titanium alloy |
6 |
|
zno nanowire |
6 |
|
achilles tendon |
5 |
|
alloys - chemistry - metabolism |
5 |
|
biocompatible materials |
5 |
|
biocompatible materials - chemistry |
5 |
|
biomedical applications |
5 |
|
bone healing |
5 |
|
cell viability |
5 |
|
coated materials, biocompatible - chemistry - metabolism |
5 |
|
cyto-compatibility |
5 |
|
fibromodulin |
5 |
|
green fluorescent proteins - metabolism |
5 |
|
hardness |
5 |
|
head and neck cancer |
5 |
|
magnesium implant |
5 |
|
mechanistic target of rapamycin complex 1 |
5 |
|
mouse mesenchymal stem cells |
5 |
|
nickel - analysis - chemistry |
5 |
|
nickel - chemistry |
5 |
|
nickel titanium shape memory alloys |
5 |
|
nickel-titanium alloy |
5 |
|
osteoblasts |
5 |
|
osteointegration |
5 |
|
oxygen vacancies |
5 |
|
plasma surface treatment |
5 |
|
proteoglycan |
5 |
|
proto-oncogene proteins c-akt |
5 |
|
strontium |
5 |
|
surface treatment |
5 |
|
trpm cation channels |
5 |
|
active ingredients |
4 |
|
alginate |
4 |
|
alloys |
4 |
|
anti-collapsibility |
4 |
|
antibiotic resistance |
4 |
|
antimicrobial |
4 |
|
antimicrobial property |
4 |
|
apatite |
4 |
|
bending stiffness |
4 |
|
biodegradability |
4 |
|
biodegradable |
4 |
|
bioimprinting |
4 |
|
biomimetic material |
4 |
|
biomimetic materials - chemistry |
4 |
|
body fluids |
4 |
|
capillary microfluidic device |
4 |
|
carbon - analysis - chemistry |
4 |
|
cd4+ cytotoxic t lymphocyte |
4 |
|
cell proliferation |
4 |
|
cell survival - physiology |
4 |
|
chemical modification |
4 |
|
chemical processes |
4 |
|
chemical treatment |
4 |
|
chemokine signalling |
4 |
|
collagen organization |
4 |
|
controlled drug release |
4 |
|
copper |
4 |
|
core-shell particle |
4 |
|
creep expansion |
4 |
|
daam2 |
4 |
|
development |
4 |
|
electrochemical impedance spectroscopy |
4 |
|
electrochemistry - methods |
4 |
|
encapsulation efficiency |
4 |
|
fast osseointegration |
4 |
|
flexible brace |
4 |
|
fos expression |
4 |
|
frequency |
4 |
|
glutamate receptor |
4 |
|
head rotation |
4 |
|
heat treatment |
4 |
|
hemispherical 3d imprints |
4 |
|
hot isostatic pressing |
4 |
|
implant locking mechanism |
4 |
|
implant stability |
4 |
|
interface pressure |
4 |
|
ion implantation |
4 |
|
ions - chemistry |
4 |
|
macrophage |
4 |
|
material selection |
4 |
|
materials testing - methods |
4 |
|
mesenchymal stem cells |
4 |
|
micro-/nanoscale surface morphology |
4 |
|
microfluidic capillary device |
4 |
|
microfluidic method |
4 |
|
microscopy, electron |
4 |
|
nanostructures - chemistry - ultrastructure |
4 |
|
narrow size distributions |
4 |
|
ni leaching |
4 |
|
nickel - chemistry - metabolism |
4 |
|
nickel release |
4 |
|
nickel titanium shape memory alloy |
4 |
|
nickel-titanium (niti) shape memory alloys |
4 |
|
nickel-titanium shape memory alloy |
4 |
|
niti shape memory alloys |
4 |
|
niti shape-memory alloy |
4 |
|
orthopedic fixation devices |
4 |
|
orthopedic implant |
4 |
|
osseointegration |
4 |
|
osteoblasts - cytology - physiology |
4 |
|
osteogenic |
4 |
|
osteoinductivity |
4 |
|
oxidation |
4 |
|
oxygen |
4 |
|
peek |
4 |
|
photocurrent |
4 |
|
plga |
4 |
|
poly(lactic-co-glycolic acid) |
4 |
|
polycaprolactone |
4 |
|
polyetheretherketone |
4 |
|
porosity |
4 |
|
porous nickel titanium alloy |
4 |
|
porous nickel-titanium |
4 |
|
porous niti |
4 |
|
porous niti shape memory alloy |
4 |
|
precisely controlled magnesium ion release |
4 |
|
preosteoblasts |
4 |
|
prostheses and implants |
4 |
|
pulsing frequency |
4 |
|
scoliosis |
4 |
|
shape memory alloy |
4 |
|
shape memory alloys |
4 |
|
shape recovery |
4 |
|
simulated body fluid |
4 |
|
sintering |
4 |
|
sirt1 |
4 |
|
spinal fusion - instrumentation - methods |
4 |
|
spinal implant |
4 |
|
structure |
4 |
|
superelasticity |
4 |
|
surface barrier layer |
4 |
|
surface free energy |
4 |
|
surface morphology and roughness |
4 |
|
surface roughness |
4 |
|
tendon |
4 |
|
tensile strength |
4 |
|
ti implants |
4 |
|
tissue microenvironment |
4 |
|
titanium - analysis - chemistry |
4 |
|
titanium - chemistry - metabolism |
4 |
|
transformation temperature |
4 |
|
voltage |
4 |
|
water plasma immersion ion implantation |
4 |
|
wear |
4 |
|
xps |
4 |
|
3d printing |
3 |
|
3d scaffold |
3 |
|
activation energy |
3 |
|
adolescent |
3 |
|
adult |
3 |
|
age factors |
3 |
|
ais |
3 |
|
angiogenesis |
3 |
|
antibacterial implant |
3 |
|
bacteria |
3 |
|
bacteria disinfection |
3 |
|
bioactive |
3 |
|
biodegradable mg |
3 |
|
biomechanical analysis |
3 |
|
biomimetic |
3 |
|
bone |
3 |
|
bone allograft |
3 |
|
bone formation |
3 |
|
bone growth |
3 |
|
bone tissue regeneration |
3 |
|
braces |
3 |
|
charge transfer |
3 |
|
child |
3 |
|
controlled drug delivery |
3 |
|
cross-sectional studies |
3 |
|
data collection |
3 |
|
defective surface pattern |
3 |
|
diffusion barrier |
3 |
|
drug delivery |
3 |
|
drug release mechanism |
3 |
|
electrical engineering |
3 |
|
engineering |
3 |
|
enzymatic degradation/modification |
3 |
|
female |
3 |
|
humans |
3 |
|
hypothalamus |
3 |
|
implant |
3 |
|
implants, experimental |
3 |
|
instrumentation |
3 |
|
interface |
3 |
|
interfacial fast release layer |
3 |
|
interoception |
3 |
|
intrinsic surface component |
3 |
|
low modulus |
3 |
|
macrophage polarization |
3 |
|
magnesium - chemistry - metabolism |
3 |
|
magnesium ion |
3 |
|
magnesium ions |
3 |
|
male |
3 |
|
mechanical property |
3 |
|
microenvironment |
3 |
|
microfluidics |
3 |
|
microneedle |
3 |
|
microstructural evolution |
3 |
|
microwave hyperthermia |
3 |
|
mrsa biofilm |
3 |
|
multidrug-resistant e. coli |
3 |
|
nanocomposite |
3 |
|
nanotube |
3 |
|
nanotubes |
3 |
|
nervous system |
3 |
|
nickel alloys |
3 |
|
niti shape memory alloy |
3 |
|
osteogenic differentiation |
3 |
|
outcome assessment (health care) - statistics & numerical data |
3 |
|
patient compliance |
3 |
|
patient satisfaction |
3 |
|
ph sensitivity |
3 |
|
phonon–electron coupling |
3 |
|
photocatalytic |
3 |
|
plasma deposition |
3 |
|
plasma immersion ion implantation and deposition |
3 |
|
plasma ions immersion implantation and deposition (piii&d) |
3 |
|
plga microspheres |
3 |
|
polymerization |
3 |
|
polymers - chemistry - metabolism |
3 |
|
polymicrobial infection |
3 |
|
p–n heterojunction |
3 |
|
quality of life |
3 |
|
questionnaires |
3 |
|
reverse martensitic transformation temperatures |
3 |
|
schottky defects |
3 |
|
scoliosis - complications - pathology - psychology - therapy |
3 |
|
sonodynamic therapy |
3 |
|
sterilization |
3 |
|
super-hydrophobility |
3 |
|
superelastic nickel–titanium |
3 |
|
surface morphology |
3 |
|
titanium nitride |
3 |
|
titanium oxide nano-layer |
3 |
|
treatment outcome |
3 |
|
two-dimensional catalytic planar defects |
3 |
|
zno |
3 |
|
β-barrel assembly machine complex |
3 |
|
a. biomaterials |
2 |
|
ag nanoparticle |
2 |
|
ag nanoparticles |
2 |
|
aggregation structure |
2 |
|
alendronate |
2 |
|
alpha particle |
2 |
|
anti-corrosion properties |
2 |
|
anti-infection |
2 |
|
anti-infective agents - chemistry - pharmacology |
2 |
|
anticancer |
2 |
|
antimicrobial activity |
2 |
|
atomic layer deposition |
2 |
|
b. surface |
2 |
|
band structure |
2 |
|
bioactive material |
2 |
|
bioadhesive hydrogel |
2 |
|
biocompatible materials - chemistry - pharmacology |
2 |
|
biocomposite |
2 |
|
biodegradable elastomer |
2 |
|
bioglass |
2 |
|
biomechanics |
2 |
|
bone regenerative |
2 |
|
breast cancer |
2 |
|
c. ion implantation |
2 |
|
calcification |
2 |
|
cancer metastases |
2 |
|
carbon nanotubes |
2 |
|
cell adhesion |
2 |
|
cellular behavior |
2 |
|
ceramics - chemistry - pharmacology |
2 |
|
cerium oxide nanoparticles |
2 |
|
chains |
2 |
|
chemical state changes |
2 |
|
coating |
2 |
|
composite coating |
2 |
|
concomitant tumor suspension cells |
2 |
|
corroded surface |
2 |
|
corrosion mechanisms |
2 |
|
crystallography |
2 |
|
d. corrosion |
2 |
|
decellularized extracellular matrix |
2 |
|
degradation rate |
2 |
|
density |
2 |
|
deposition |
2 |
|
depth profile |
2 |
|
diabetic chronic wounds |
2 |
|
disinfection |
2 |
|
drug and gene delivery |
2 |
|
drug release |
2 |
|
e. magnesium alloys |
2 |
|
epithelial-mesenchymal transition |
2 |
|
freeze-thaw treatment |
2 |
|
functional coatings and films |
2 |
|
gel scaffold |
2 |
|
gelatin |
2 |
|
graphene |
2 |
|
graphene oxide |
2 |
|
hela cells |
2 |
|
heterostructure |
2 |
|
hierarchical system |
2 |
|
homeostasis |
2 |
|
hybrid coating |
2 |
|
hybrid nanoparticle |
2 |
|
hybrid nanoparticles |
2 |
|
immune modulation |
2 |
|
immune response |
2 |
|
immunomodulatory |
2 |
|
in vivo imaging |
2 |
|
ionic microenvironment |
2 |
|
macrophages |
2 |
|
magnesium alloy |
2 |
|
mechanical characterization |
2 |
|
mechanotransduction |
2 |
|
metal ions |
2 |
|
metals - chemistry - pharmacology |
2 |
|
methodologies |
2 |
|
micropillar substrate |
2 |
|
microstructure |
2 |
|
mitochondria |
2 |
|
modulation |
2 |
|
mof |
2 |
|
molecularly imprinted nanospheres |
2 |
|
multichanneled scaffold |
2 |
|
multiscale mechanics |
2 |
|
n-halamine |
2 |
|
nanoceramic coating |
2 |
|
nanoparticle |
2 |
|
nerve guide |
2 |
|
nucleus pulposus |
2 |
|
ocean acidification |
2 |
|
osseointegration - physiology |
2 |
|
osteoimmune environment |
2 |
|
osteoimmunomodulatory property |
2 |
|
oyster shells |
2 |
|
padc |
2 |
|
pdms |
2 |
|
ph response |
2 |
|
ph-sensitive |
2 |
|
photodynamic |
2 |
|
plasma ion immersion implantation |
2 |
|
plasma surface modification |
2 |
|
polyetheretherketone (peek) |
2 |
|
programmable wound contraction |
2 |
|
scaffold |
2 |
|
scaffolds |
2 |
|
self-decontamination |
2 |
|
sequential electrospinning |
2 |
|
skbr-3 |
2 |
|
spatially designed multilayer structure |
2 |
|
stem cell |
2 |
|
stem cell differentiation |
2 |
|
stem cells |
2 |
|
surface biofunctionalization |
2 |
|
surface chemistry |
2 |
|
surface functionalization |
2 |
|
ti |
2 |
|
tissue repair |
2 |
|
tissue scaffolds - chemistry |
2 |
|
vanadium dioxide |
2 |
|
wound sensing |
2 |
|
3d doping |
1 |
|
a. alloy |
1 |
|
a. magnesium |
1 |
|
a. nanostructured intermetallic |
1 |
|
a. particle-reinforcement |
1 |
|
a. polymer-matrix composites (pmcs) |
1 |
|
acrylic monomers |
1 |
|
adhesion |
1 |
|
after-treatment |
1 |
|
ag3po4 |
1 |
|
allotropes |
1 |
|
alloys - chemistry |
1 |
|
amides |
1 |
|
aminoglycoside antibiotics |
1 |
|
amphiphilic copolymer |
1 |
|
amphiphilic graft copolymer |
1 |
|
animals |
1 |
|
anionic |
1 |
|
anodic oxidation |
1 |
|
anti-biofouling |
1 |
|
antibacterial activity |
1 |
|
antibacterial effect |
1 |
|
antibacterial efficacy |
1 |
|
antibacterial materials |
1 |
|
antibacterial properties |
1 |
|
antibacterial property |
1 |
|
antibacterials |
1 |
|
antibiofilm |
1 |
|
antibiotic |
1 |
|
antibiotic-resistant bacterial infections |
1 |
|
antibiotics |
1 |
|
apatite coating |
1 |
|
apoptosis |
1 |
|
au |
1 |
|
au nanoparticles |
1 |
|
b. eis |
1 |
|
b. mechanical properties |
1 |
|
b. phase transformation |
1 |
|
b. plastic deformation mechanisms |
1 |
|
b. polarization |
1 |
|
b. thermal properties |
1 |
|
bacterial infection |
1 |
|
bacterial killing |
1 |
|
bacterial membrane permeation |
1 |
|
bi2s3@ag3po4 nanorod arrays |
1 |
|
bio-degradation |
1 |
|
biocompatible materials - chemistry - toxicity |
1 |
|
biodegradable metals |
1 |
|
biofilm elimination |
1 |
|
biofilm infection |
1 |
|
biofilms |
1 |
|
biogenic collagen membrane |
1 |
|
bioimaging |
1 |
|
bioinorganic biomaterials |
1 |
|
bioinorganic ions |
1 |
|
biomaterial |
1 |
|
biomedical implants |
1 |
|
biomedical properties |
1 |
|
biomimetic (chemical reaction) |
1 |
|
biomimetic deposition |
1 |
|
biosafety |
1 |
|
biosensors |
1 |
|
biosynthesis |
1 |
|
bismuth sulfide/hydroxyapatite |
1 |
|
black phosphorus |
1 |
|
blood compatibility |
1 |
|
bone grafts and substitutes |
1 |
|
bone implants |
1 |
|
bone scaffold |
1 |
|
bone tumor |
1 |
|
bones |
1 |
|
bone‐implants |
1 |
|
boron nitride |
1 |
|
broad spectral response |
1 |
|
c. interfaces |
1 |
|
c. passive films |
1 |
|
calorimetry, differential scanning |
1 |
|
carbon compounds, inorganic - pharmacology |
1 |
|
carbon nanotube |
1 |
|
carbon quantum dots |
1 |
|
carbon-nanotube composites |
1 |
|
carbonated hydroxyapatite |
1 |
|
cationic |
1 |
|
cell culture |
1 |
|
cell differentiation |
1 |
|
cell line |
1 |
|
cell-derived decellularized extracellular matrix |
1 |
|
cells |
1 |
|
cells, cultured |
1 |
|
cellular properties |
1 |
|
cellular viability |
1 |
|
cerium (ce) |
1 |
|
chemical stability |
1 |
|
chemical vapor deposition |
1 |
|
chitosan |
1 |
|
chitosan/ag |
1 |
|
chitosan@mos2 coating |
1 |
|
classification |
1 |
|
click chemistry |
1 |
|
coated materials, biocompatible - chemistry - pharmacology |
1 |
|
coated materials, biocompatible - chemistry - toxicity |
1 |
|
coatings |
1 |
|
collagen |
1 |
|
collagen alpha chain proteins |
1 |
|
colloidal nanoparticles |
1 |
|
complement |
1 |
|
complex coating |
1 |
|
condensation polymerization |
1 |
|
contact angle |
1 |
|
controlled release |
1 |
|
controlled temperature photothermal therapy |
1 |
|
copoly(urethane-imide)s (copuis) |
1 |
|
core/shell |
1 |
|
corrosion behavior |
1 |
|
covalent-metal organic framework |
1 |
|
cross-linking |
1 |
|
cross-linking structures |
1 |
|
cu doping |
1 |
|
cyclooxygenase-2 |
1 |
|
cytocompatibility |
1 |
|
cytotoxicity |
1 |
|
d. grain boundaries |
1 |
|
deep burn |
1 |
|
defect chemistry |
1 |
|
defective tio2 |
1 |
|
definition |
1 |
|
deformation heating |
1 |
|
degradation behavior |
1 |
|
deposition-assisted advanced oxidation |
1 |
|
dianhydrides |
1 |
|
differential scanning calorimetry |
1 |
|
dna |
1 |
|
doping |
1 |
|
drug delivery systems |
1 |
|
drug resistance |
1 |
|
durapatite - chemistry - pharmacology |
1 |
|
dynamic coordination |
1 |
|
electro-fenton process |
1 |
|
electrochemical deposition |
1 |
|
electrochemical measurements |
1 |
|
electron plunder |
1 |
|
electron pump |
1 |
|
electron transfer |
1 |
|
electrons and holes |
1 |
|
electropolishing |
1 |
|
electrospinning |
1 |
|
emulsifier-free emulsion polymerization |
1 |
|
energy level structure |
1 |
|
engineering mechanics and materials physics |
1 |
|
enzyme inhibition |
1 |
|
enzyme-like activity |
1 |
|
epoxy groups |
1 |
|
epoxy resin |
1 |
|
equal channel angular pressing |
1 |
|
escherichia coli |
1 |
|
ethers |
1 |
|
extracellular matrix |
1 |
|
extracellular matrix - chemistry - metabolism |
1 |
|
f. transmission electron microscopy |
1 |
|
fenton's oxidation |
1 |
|
fibroblasts - drug effects |
1 |
|
fluorescence imaging |
1 |
|
fluorescence spectroscopy |
1 |
|
fluorescent |
1 |
|
fluorescent copolymer |
1 |
|
fluorinated polyimides |
1 |
|
fluorine |
1 |
|
fluorine-containing |
1 |
|
fluoropolymer |
1 |
|
foams |
1 |
|
fouling |
1 |
|
fracture healing |
1 |
|
functionalization of polymers |
1 |
|
g-c3n4 |
1 |
|
gene delivery carrier |
1 |
|
gene expression |
1 |
|
genomic instability |
1 |
|
graded phase |
1 |
|
grain refinement |
1 |
|
growth factors |
1 |
|
guiding significance |
1 |
|
g‐c3n4 |
1 |
|
ha/ag/cs hybrid coating |
1 |
|
hemocompatibility |
1 |
|
hemolysis - drug effects |
1 |
|
herbal medicines |
1 |
|
hetero interfaces |
1 |
|
heterointerfaces |
1 |
|
heterojunction |
1 |
|
heterojunctions |
1 |
|
heterostructures |
1 |
|
high-frequency effects |
1 |
|
human hair |
1 |
|
humic acid |
1 |
|
hybrid nanocomposite |
1 |
|
hybrid nanocomposites |
1 |
|
hybridization |
1 |
|
hydrogel |
1 |
|
hydrogen - chemistry |
1 |
|
hydrogen peroxide - chemistry |
1 |
|
hydrogen release |
1 |
|
hydrophilic surface |
1 |
|
hydroxyapatite |
1 |
|
hydroxyl-containing diamine |
1 |
|
hyperboloidal structure |
1 |
|
hyperbranched |
1 |
|
immunocompetent primary bacterial pneumonia |
1 |
|
immunocompromised secondary bacterial pneumonia |
1 |
|
immunoregulation |
1 |
|
immunotherapy |
1 |
|
infected wounds |
1 |
|
infection prevention |
1 |
|
inflammation |
1 |
|
interface tunnel |
1 |
|
interfaces |
1 |
|
interfacial engineering |
1 |
|
intravascular stents |
1 |
|
ir780 |
1 |
|
iron - chemistry |
1 |
|
irradiation |
1 |
|
lanthanide complex |
1 |
|
laser |
1 |
|
layered double hydroxides |
1 |
|
light color |
1 |
|
light illumination |
1 |
|
light responsive |
1 |
|
light-controlled |
1 |
|
lipopolysaccharide |
1 |
|
long-term immersions |
1 |
|
luminescence |
1 |
|
luminescent copolymer |
1 |
|
macrophage activation |
1 |
|
macrophage orchestration |
1 |
|
magnesium alloys |
1 |
|
magnetic nanoparticles |
1 |
|
magnetic polymer |
1 |
|
magnetic resonance imaging |
1 |
|
map kinase signaling system - drug effects |
1 |
|
martensite stabilization |
1 |
|
material-herbology |
1 |
|
materioherbology |
1 |
|
mechanical behavior |
1 |
|
mechanosensing |
1 |
|
mesenchymal stromal cells - cytology - metabolism |
1 |
|
metainterface |
1 |
|
metal implants |
1 |
|
metal oxide nanoparticles |
1 |
|
metal-organic framework |
1 |
|
metal–organic framework |
1 |
|
micelle |
1 |
|
microgel |
1 |
|
microgels |
1 |
|
microscopy, electron, scanning |
1 |
|
microscopy, electron, transmission |
1 |
|
microwave irradiation |
1 |
|
mir-29cb2 |
1 |
|
mitogen-activated protein kinases |
1 |
|
mitogen-activated protein kinases - metabolism |
1 |
|
mitophagy |
1 |
|
mno2 nanosheet |
1 |
|
mno2 nanosheets |
1 |
|
mos2 |
1 |
|
mos2 nanosheets |
1 |
|
mrsa |
1 |
|
multidrug‐resistant bacteria |
1 |
|
multifunction |
1 |
|
multiwalled carbon nanotube |
1 |
|
nano surface architecture |
1 |
|
nano-bio interactions |
1 |
|
nano-system |
1 |
|
nanocomposite hydrogels |
1 |
|
nanocomposites |
1 |
|
nanocrystalline |
1 |
|
nanograined surface |
1 |
|
nanohydroxyapatite |
1 |
|
nanoindentation |
1 |
|
nanomaterials |
1 |
|
nanomedicine |
1 |
|
nanostructure |
1 |
|
nanostructured film |
1 |
|
nanostructured tio2 biomaterials |
1 |
|
nanostructures |
1 |
|
nanotoxicity |
1 |
|
nanowire |
1 |
|
nanowires - chemistry - ultrastructure |
1 |
|
near-infrared light |
1 |
|
near-infrared photocatalysts |
1 |
|
nickel - chemistry - toxicity |
1 |
|
nickel concentrations |
1 |
|
nickel suppression |
1 |
|
nickel titanium shape memory alloy (niti sma) |
1 |
|
nir photocatalysis |
1 |
|
niti alloy |
1 |
|
niti shape memory alloy (sma) |
1 |
|
on-off phagocytosis |
1 |
|
optical imaging |
1 |
|
ortho-linked |
1 |
|
osteogenic immune microenvironment |
1 |
|
oxidation-reduction |
1 |
|
palladium hydride film |
1 |
|
peri-implantitis |
1 |
|
ph-responsive |
1 |
|
phagocytosis |
1 |
|
phase transformation |
1 |
|
phosphorus |
1 |
|
phosphorylation |
1 |
|
photocatalysis |
1 |
|
photocatalysts |
1 |
|
photochemistry - methods |
1 |
|
photodynamic therapy |
1 |
|
photoelectrocatalytic oxidation |
1 |
|
photoelectrons |
1 |
|
photon trap |
1 |
|
photoresponsive |
1 |
|
photosensitizer |
1 |
|
phototherapy |
1 |
|
photothermal |
1 |
|
photothermal and photodynamic |
1 |
|
photothermal therapy |
1 |
|
photothermal treatment |
1 |
|
phytic acid |
1 |
|
plasma |
1 |
|
plasma polymerization |
1 |
|
plasma sputtering |
1 |
|
plasma-enhanced chemical vapor deposition |
1 |
|
platelet adhesiveness - physiology |
1 |
|
pneumonia |
1 |
|
poly(dopamine) |
1 |
|
polycations |
1 |
|
polyether ether ketone |
1 |
|
polyimide |
1 |
|
polyimides |
1 |
|
polylactic acid |
1 |
|
polylactic-acid |
1 |
|
polymer film |
1 |
|
polymer membranes |
1 |
|
polymeric nanoarchitecture |
1 |
|
polymers |
1 |
|
polypropylene |
1 |
|
polypyrrole |
1 |
|
polyvinylidene fluoride |
1 |
|
porous |
1 |
|
portable spray |
1 |
|
probiotic-based nanoparticles |
1 |
|
prolonged chain segment |
1 |
|
properties |
1 |
|
protein drug carrier |
1 |
|
proton transfer |
1 |
|
puerarin |
1 |
|
puncture |
1 |
|
pyridine-containing diamine |
1 |
|
pyridine-containing polyimides |
1 |
|
pyridine-containing triamine |
1 |
|
quantum dots |
1 |
|
rabbits |
1 |
|
rapid sterilization |
1 |
|
rare earth |
1 |
|
rare earth complexes |
1 |
|
reactive oxygen species |
1 |
|
reactive polyimide |
1 |
|
red phosphorus |
1 |
|
red phosphorus nanoparticles |
1 |
|
release |
1 |
|
restoring host immunity |
1 |
|
rotator cuff regeneration |
1 |
|
scanning electron microscopy |
1 |
|
secondary biofilm infections |
1 |
|
self-assembly |
1 |
|
self-healing |
1 |
|
self-healing hydrogel |
1 |
|
shape memory alloys (sma) |
1 |
|
shape memory materials |
1 |
|
signaling pathway |
1 |
|
silicon |
1 |
|
silicon carbide nanowires |
1 |
|
silicon compounds - pharmacology |
1 |
|
simvastatin |
1 |
|
skin wound healing |
1 |
|
soft tissue sealing |
1 |
|
solubility |
1 |
|
sonothermal ability |
1 |
|
spark plasma sintering |
1 |
|
spin-coating |
1 |
|
spinal cord injury |
1 |
|
staphylococcus aureus |
1 |
|
storage and release of ros |
1 |
|
surface |
1 |
|
surface and interface |
1 |
|
surface bio-functionalization |
1 |
|
surface mechanical attrition treatment |
1 |
|
surface mechanical attrition treatment (smat) |
1 |
|
surface properties |
1 |
|
surface structure |
1 |
|
surfaces |
1 |
|
synergistic therapy |
1 |
|
synthesis |
1 |
|
tantalum oxide |
1 |
|
tea |
1 |
|
tea nanoclusters |
1 |
|
tendons - chemistry - pathology |
1 |
|
therapy |
1 |
|
thermal stability |
1 |
|
thermo-responsive |
1 |
|
thermosensitive |
1 |
|
thin films |
1 |
|
ti-based alloys |
1 |
|
ti3c2 mxene |
1 |
|
ti6al4v |
1 |
|
tio2 |
1 |
|
tissue integration |
1 |
|
tissue regeneration |
1 |
|
titania |
1 |
|
titania film |
1 |
|
titanium - chemistry - toxicity |
1 |
|
titanium alloys |
1 |
|
titanium oxide |
1 |
|
titanium oxide metastructure |
1 |
|
tpms |
1 |
|
transformation behavior |
1 |
|
transparency |
1 |
|
triamines |
1 |
|
tribological behavior |
1 |
|
triphenylpyridine |
1 |
|
type h vessels |
1 |
|
ultrafine grain |
1 |
|
ultrasound |
1 |
|
upconversion |
1 |
|
vascular stent |
1 |
|
vascularized bone regeneration |
1 |
|
vertical graphene |
1 |
|
viral-bacterial pneumonia |
1 |
|
water disinfection |
1 |
|
wear resistance |
1 |
|
wetting |
1 |
|
wnt/ca2+ signaling pathway |
1 |
|
xerogel |
1 |
|
z-scheme |
1 |
|
zinc |
1 |
|
zinc doped nano-hydroxyapatite |
1 |
|
zn alloys |
1 |
|
zno nanostructures |
1 |
|
zro2 |
1 |
|
β-lactam antibiotic |
1 |
|
β-type titanium |
1 |
