|
selectivity |
14 |
|
membrane fouling |
13 |
|
nanofiltration |
13 |
|
membrane |
12 |
|
funnel effect |
10 |
|
defects |
9 |
|
nanovoids |
9 |
|
reverse osmosis |
9 |
|
reverse osmosis (ro) membranes |
9 |
|
water treatment |
9 |
|
biofouling |
8 |
|
interfacial polymerization |
8 |
|
drinking water |
7 |
|
forward osmosis |
7 |
|
polyamide |
7 |
|
polyamide membrane |
7 |
|
water permeance |
7 |
|
coating |
6 |
|
organic micropollutants |
6 |
|
polydopamine |
6 |
|
polyelectrolyte |
6 |
|
water permeability |
6 |
|
antifouling |
5 |
|
desalination |
5 |
|
desalination pretreatment |
5 |
|
endocrine disrupting compounds (edcs) |
5 |
|
gutter effect |
5 |
|
nanocomposite membrane |
5 |
|
nanofibrous membrane |
5 |
|
polyamide film |
5 |
|
polyamide membranes |
5 |
|
polyamide nanovoids |
5 |
|
reverse electrodialysis (red) |
5 |
|
ro membrane |
5 |
|
stabilization effect |
5 |
|
surface modification |
5 |
|
surface roughness |
5 |
|
surfactant |
5 |
|
thin-film composite (tfc) membrane |
5 |
|
thin-film composite membrane |
5 |
|
water reuse |
5 |
|
alternative membrane materials |
4 |
|
anti-fouling |
4 |
|
asymmetrical selectivity |
4 |
|
bipolar membrane electrodialysis |
4 |
|
carbon nanotubes |
4 |
|
catalytic membrane |
4 |
|
composite and reactive substrates |
4 |
|
copper nanoparticles |
4 |
|
cosolvent-assisted interfacial polymerization |
4 |
|
crosslinking |
4 |
|
disinfection byproducts |
4 |
|
drinking water treatment |
4 |
|
electrochemical performance |
4 |
|
emulsion separation |
4 |
|
fouling |
4 |
|
growth of polyamide nanofilm |
4 |
|
interfacial vaporization |
4 |
|
interlayer |
4 |
|
materials characterization |
4 |
|
membrane fabrication |
4 |
|
membrane nanoarchitecture |
4 |
|
membrane performance |
4 |
|
membranes |
4 |
|
micropollutants |
4 |
|
mpd solubility |
4 |
|
nano-template |
4 |
|
nanofillers |
4 |
|
nanofiltration membranes |
4 |
|
nanovoid-containing roughness structure |
4 |
|
oil/water separation |
4 |
|
organic solvents |
4 |
|
perfluorooctane sulfonate (pfos) |
4 |
|
permeability |
4 |
|
polyamide formation models |
4 |
|
polyamide morphology |
4 |
|
polyamide nanofiltration membrane |
4 |
|
polyamide rejection layer |
4 |
|
polyamide reverse osmosis (ro) membranes |
4 |
|
promoted interfacial polymerization |
4 |
|
reverse electrodialysis |
4 |
|
salinity gradient power (sgp) |
4 |
|
scaling resistance |
4 |
|
silver vanadium oxides |
4 |
|
sol–gel method |
4 |
|
substrate pre-coated gutter layer |
4 |
|
substrate properties |
4 |
|
thin film composite |
4 |
|
thin film composite membrane |
4 |
|
transmission electron microscopy |
4 |
|
transport models |
4 |
|
acid mine drainage neutralization |
3 |
|
additive interfacial polymerization |
3 |
|
adsorption |
3 |
|
advanced reduction |
3 |
|
amides |
3 |
|
anti-restenosis |
3 |
|
anti-thrombosis |
3 |
|
carbon nanofiber membrane electrode |
3 |
|
carbon nanotube |
3 |
|
carbon nanotubes (cnts) |
3 |
|
carbonate chemistry |
3 |
|
ceramic membrane |
3 |
|
chemical potential energy harvesting |
3 |
|
co capture 2 |
3 |
|
confinement effects |
3 |
|
continuous mode |
3 |
|
crumpled morphology |
3 |
|
cu-mpd |
3 |
|
desalination membranes |
3 |
|
divalent to monovalent salts selectivity |
3 |
|
electrocatalytic oxidation of micropollutants |
3 |
|
electrospray |
3 |
|
emerging contaminants |
3 |
|
equivalent circuit model |
3 |
|
evaluation framework |
3 |
|
filtration |
3 |
|
generalized hybrid model |
3 |
|
graphene oxide |
3 |
|
graphene oxide catalytic membranes |
3 |
|
gravity-driven |
3 |
|
gravity-driven filtration |
3 |
|
green membrane |
3 |
|
haloacetic acids (haas) |
3 |
|
high permeance and high selectivity |
3 |
|
high-gain step-up dc/dc converter |
3 |
|
humic acid |
3 |
|
hydrophilicity |
3 |
|
interface engineering |
3 |
|
internal concentration polarization (icp) |
3 |
|
intrinsic water permeability |
3 |
|
ion selectivity |
3 |
|
leachate treatment |
3 |
|
lithium recovery |
3 |
|
mass transport |
3 |
|
membrane characterization |
3 |
|
membrane deformation |
3 |
|
membrane design |
3 |
|
membrane distillation |
3 |
|
metal-organic frameworks (mofs) |
3 |
|
microbial community |
3 |
|
minerals/haas selectivity |
3 |
|
nanobubble generation |
3 |
|
nanobubble retention |
3 |
|
nanofiltration-like forward osmosis |
3 |
|
nanofoaming |
3 |
|
nanoparticles |
3 |
|
nanorods |
3 |
|
nanovoid-containing roughness morphology |
3 |
|
novel materials |
3 |
|
nucleic acid structure |
3 |
|
organic polymers |
3 |
|
organic solvent nanofiltration |
3 |
|
oxyanions |
3 |
|
papermaking wastewater |
3 |
|
permeance-selectivity tradeoff |
3 |
|
ph-responsive |
3 |
|
poly vinyl chloride |
3 |
|
polyethyleneimine |
3 |
|
pressure retarded osmosis (pro) |
3 |
|
proton conductance |
3 |
|
quartz crystal microbalance with dissipation (qcmd) |
3 |
|
reactable substrate |
3 |
|
recycle mode |
3 |
|
regeneration |
3 |
|
removal |
3 |
|
resource recovery |
3 |
|
reverse osmosis membrane |
3 |
|
reverse osmosis membranes |
3 |
|
reverse osmotic-like forward osmotic |
3 |
|
roughness |
3 |
|
ruo2/tio2 heterojunction |
3 |
|
salinity gradient power |
3 |
|
selective separation |
3 |
|
separation performance |
3 |
|
solution chemistry |
3 |
|
substrate |
3 |
|
superhydrophobic |
3 |
|
tannic acid/iron complex |
3 |
|
tfc polyamide membrane |
3 |
|
thin film composite (tfc) polyamide membranes |
3 |
|
thin film composite polyamide |
3 |
|
thin-film composite |
3 |
|
thin-film composite polyamide |
3 |
|
ultrafiltration |
3 |
|
ultrathin film composite (utfc) |
3 |
|
ultrathin membrane |
3 |
|
ultrathin rejection layer |
3 |
|
upper bound |
3 |
|
wastewater treatment |
3 |
|
water transport pathway |
3 |
|
zero liquid discharge |
3 |
|
zone of influence |
3 |
|
β-cyclodextrin |
3 |
|
3d printing |
2 |
|
anaerobic membrane bioreactor |
2 |
|
anaerobic wastewater treatment |
2 |
|
anomalous wettability |
2 |
|
anti-drying |
2 |
|
anti-swelling |
2 |
|
antimicrobial |
2 |
|
antiwetting and antifouling |
2 |
|
aquaporin |
2 |
|
aquaporin membrane |
2 |
|
aquaporin membranes |
2 |
|
asymmetric structures |
2 |
|
asymmetrical polyamide nanofilm |
2 |
|
backwashing |
2 |
|
biochar |
2 |
|
biofoulingstructural parameter (s) |
2 |
|
biomacromolecule |
2 |
|
bovine serum albumin (bsa) |
2 |
|
carbon-based membranes |
2 |
|
cardiovascular stent coating |
2 |
|
cellulose triacetate (cta) |
2 |
|
challenges |
2 |
|
chitosan |
2 |
|
chlorhexidine gluconate (chg) |
2 |
|
chlorination |
2 |
|
chlorination mechanism |
2 |
|
co-location |
2 |
|
computational fluid dynamics (cfd) |
2 |
|
concentration polarization |
2 |
|
copper hydroxide nanorods (cunrs) |
2 |
|
covalent modified mos2 |
2 |
|
cross-sections |
2 |
|
degradation |
2 |
|
density functional theory |
2 |
|
direct microscopic observation |
2 |
|
doppler broadening energy spectroscopy (dbes) |
2 |
|
draw solution |
2 |
|
electricity-free |
2 |
|
electro-driven membrane reactor |
2 |
|
electrodialysis |
2 |
|
electrospun nanofibers |
2 |
|
endothelium-mimicking |
2 |
|
energy barrier |
2 |
|
external concentration polarization |
2 |
|
facile zif–8 interlayer |
2 |
|
fe (iii)–tannic acid |
2 |
|
feed spacer |
2 |
|
fertilizer |
2 |
|
film thickness |
2 |
|
filtration - instrumentation - methods |
2 |
|
forward osmosis (fo) |
2 |
|
forward osmosis membrane |
2 |
|
foulant layer |
2 |
|
fouling cake layer |
2 |
|
fouling control |
2 |
|
growth kinetics |
2 |
|
gutter layer |
2 |
|
halogenation |
2 |
|
heavy metal |
2 |
|
high flux reverse osmosis membranes |
2 |
|
high water and solvents permeance |
2 |
|
hollow fiber |
2 |
|
hybrid membrane process |
2 |
|
hydrodynamics |
2 |
|
hydrogen bonding |
2 |
|
hydrogen-ion concentration |
2 |
|
hydrophobic interaction |
2 |
|
hydrophobicity |
2 |
|
in situ embedment |
2 |
|
independent water and oil transmembrane passageway |
2 |
|
interlayered thin-film nanocomposite (tfni) |
2 |
|
internal concentration polarization |
2 |
|
ion exchange membrane |
2 |
|
ion separation |
2 |
|
ionic resource recovery |
2 |
|
ionic strength |
2 |
|
layer-by-layer (lbl) assembly |
2 |
|
layers |
2 |
|
lead |
2 |
|
localized flux |
2 |
|
long-term nitric oxide production |
2 |
|
mathematical model |
2 |
|
membrane biofouling |
2 |
|
membrane capacitive deionization |
2 |
|
membrane cleaning |
2 |
|
membrane filtration |
2 |
|
membrane materials |
2 |
|
membrane preparation |
2 |
|
membrane stability |
2 |
|
membrane-based technology |
2 |
|
membranes, artificial |
2 |
|
metal organic frameworks |
2 |
|
microelectronic wastewaters |
2 |
|
modeling |
2 |
|
molecular dynamics simulation |
2 |
|
monomer enrichment |
2 |
|
morphology |
2 |
|
mxene |
2 |
|
nanobubble features |
2 |
|
nanofiltration membrane |
2 |
|
nanofiltration polyamide membranes |
2 |
|
nanofiltrtion memrbane |
2 |
|
nanovoid |
2 |
|
natural organic matter |
2 |
|
new processes |
2 |
|
oil fouling |
2 |
|
omniphobic membrane |
2 |
|
opportunities |
2 |
|
organic fouling |
2 |
|
osmosis |
2 |
|
osmotic membrane bioreactor (ombr) |
2 |
|
osmotic power |
2 |
|
osmotic pressure |
2 |
|
osmotically enhanced recovery |
2 |
|
particle size |
2 |
|
perfluorinated compounds |
2 |
|
performance |
2 |
|
permselectivity |
2 |
|
ph |
2 |
|
pharmaceuticals |
2 |
|
polar solvent-assisted interfacial polymerization |
2 |
|
pore size |
2 |
|
porosity |
2 |
|
positive charge |
2 |
|
positively charged rejection layer |
2 |
|
power density |
2 |
|
pressure retarded osmosis |
2 |
|
principles |
2 |
|
re-endothelialization |
2 |
|
reaction kinetics |
2 |
|
rejection |
2 |
|
rejection performance |
2 |
|
reverse solute diffusion |
2 |
|
salinity gradient process |
2 |
|
salt accumulation |
2 |
|
selective adsorption |
2 |
|
self-gutter effect |
2 |
|
semi-aromatic polyamide film |
2 |
|
shear strength |
2 |
|
silica |
2 |
|
silica nanoparticle |
2 |
|
silver nanoparticles (agnps) |
2 |
|
simultaneous phase–inversion and crosslinking |
2 |
|
sodium hypochlorite |
2 |
|
structural parameter |
2 |
|
structure activity relationship |
2 |
|
superhydrophilic membrane |
2 |
|
surface area effect |
2 |
|
surface properties |
2 |
|
tfc membrane |
2 |
|
tfni |
2 |
|
therapeutic gas |
2 |
|
thickness |
2 |
|
thin film composite (tfc) |
2 |
|
thin film nanocomposite |
2 |
|
thin-film nanocomposite |
2 |
|
thin-film nanocomposite (tfn) |
2 |
|
thin–film nanocomposite membrane with an interlayer |
2 |
|
titanium dioxide nanorods |
2 |
|
tomography |
2 |
|
trace organic compounds (trocs) |
2 |
|
trace organic contaminant |
2 |
|
transport mechanism |
2 |
|
trimesoyl chloride |
2 |
|
ultra-permeable nanofiltration membranes |
2 |
|
ultrafiltration - methods |
2 |
|
under-water superoleophobic membrane |
2 |
|
water permeance enhancement |
2 |
|
water purification |
2 |
|
water purification - methods |
2 |
|
water reclamation |
2 |
|
water/wastewater treatment |
2 |
|
“oil-water-receiving” membrane |
2 |
|
1-naphthol |
1 |
|
2d co-mof |
1 |
|
2d materials |
1 |
|
2d metal organic framework membrane |
1 |
|
2d metal−organic framework |
1 |
|
2d metal−organic framework nanosheets |
1 |
|
absorbance spectroscopy |
1 |
|
acrylic resins - chemistry |
1 |
|
activity enhancement |
1 |
|
additive manufacturing |
1 |
|
adhesive energy |
1 |
|
advanced oxidation processes |
1 |
|
aeration |
1 |
|
aerogels |
1 |
|
aggregation-release demulsification |
1 |
|
alanine - chemistry - genetics - metabolism |
1 |
|
algae |
1 |
|
algal-rich water |
1 |
|
alginate |
1 |
|
alginates |
1 |
|
alginates - analysis |
1 |
|
alkaline draw solution |
1 |
|
alkaline stable |
1 |
|
alkanesulfonic acids - analysis - chemistry |
1 |
|
alkanesulfonic acids - chemistry |
1 |
|
aluminium oxide (al2o3) |
1 |
|
amine-modified latex nanoparticle |
1 |
|
amine-reduced graphene oxide |
1 |
|
amino acid substitution |
1 |
|
ammonia |
1 |
|
anaerobic bioreactor |
1 |
|
anaerobic treatment |
1 |
|
animals |
1 |
|
anion exchange membranes |
1 |
|
anti-adhesion |
1 |
|
anti-biofouling |
1 |
|
anti-fouling ability |
1 |
|
anti-fouling capability |
1 |
|
anti-fouling performance |
1 |
|
anti-scaling |
1 |
|
anti-scaling precursors |
1 |
|
antibacterial activity |
1 |
|
antibiotics separation |
1 |
|
antifouling performance |
1 |
|
antiscalant |
1 |
|
aqpz dual permeation states |
1 |
|
aquaporin z |
1 |
|
aquaporinbiomimetic membranes |
1 |
|
aquaporins - chemistry |
1 |
|
aquaporins - chemistry - genetics - metabolism |
1 |
|
aquaporins - chemistry - metabolism |
1 |
|
arginine - chemistry - genetics - metabolism |
1 |
|
arsenic |
1 |
|
arsenic - analysis |
1 |
|
asymmetric membranes |
1 |
|
atmospheric pressure atomic layer deposition |
1 |
|
atomic layer deposition (ald) |
1 |
|
back-diffusion |
1 |
|
bacterial activity |
1 |
|
bacterial community |
1 |
|
beams |
1 |
|
beyond superwetting surfaces |
1 |
|
biocake ecology |
1 |
|
biochar regeneration |
1 |
|
biodegradation |
1 |
|
bioelectrochemical system |
1 |
|
biofilm |
1 |
|
biofouling - prevention & control |
1 |
|
biological process |
1 |
|
biological transport |
1 |
|
biomimetic hollow fiber |
1 |
|
biomimetic materials - chemical synthesis |
1 |
|
biomimetic membrane |
1 |
|
biomimetic membranes |
1 |
|
biomimetic mineralization |
1 |
|
biomimetic nanofiltration (nf) membrane |
1 |
|
biomimetics |
1 |
|
biopolymers |
1 |
|
biotic-abiotic hybrid electrochemical process |
1 |
|
boltzmann distribution |
1 |
|
boric acids - chemistry |
1 |
|
boron |
1 |
|
boron - analysis |
1 |
|
boron rejection |
1 |
|
brine management |
1 |
|
brominating agents |
1 |
|
bromination |
1 |
|
buckling |
1 |
|
building codes |
1 |
|
cake enhanced concentration polarization |
1 |
|
cake-enhanced concentration polarization |
1 |
|
calcium |
1 |
|
calcium - chemistry |
1 |
|
calcium chloride - chemistry |
1 |
|
calcium compounds - chemistry |
1 |
|
capacitive deioniazation |
1 |
|
carbamazepine - chemistry - isolation & purification |
1 |
|
carbohydrate |
1 |
|
carbon-based materials |
1 |
|
catalyst activity |
1 |
|
catalytic cleaning membrane |
1 |
|
catalytic nanofibrous membrane |
1 |
|
cations |
1 |
|
cations, divalent |
1 |
|
cattle |
1 |
|
cave-like structure |
1 |
|
cell membrane - metabolism |
1 |
|
cell membrane permeability |
1 |
|
cells |
1 |
|
cellulose triacetate |
1 |
|
ceramic membrane filtration |
1 |
|
characterization of fluid dynamics |
1 |
|
charge effects |
1 |
|
charge-gated nanochannel |
1 |
|
chelating agent |
1 |
|
chemical cleaning |
1 |
|
chemical crosslinking |
1 |
|
chemical potential barrier |
1 |
|
chemical structure |
1 |
|
chemical vapor deposition |
1 |
|
chemotherapy |
1 |
|
chlorine |
1 |
|
chlorine - analysis |
1 |
|
chlorine - chemistry |
1 |
|
chromatography, liquid |
1 |
|
cleaning |
1 |
|
coal chemical waste salt |
1 |
|
coalescence demulsification |
1 |
|
coefficients |
1 |
|
collision attachment |
1 |
|
collision attachment theory |
1 |
|
colloidal fouling |
1 |
|
colloidal interaction |
1 |
|
colloidal size |
1 |
|
column |
1 |
|
columns |
1 |
|
combined fouling |
1 |
|
composite membranes |
1 |
|
composites |
1 |
|
comsol simulation |
1 |
|
concentrate |
1 |
|
concrete |
1 |
|
concrete, reinforced |
1 |
|
conductive nanofiltration membranes |
1 |
|
confocal laser scanning microscopy |
1 |
|
contact angle |
1 |
|
contact electrification |
1 |
|
conversion |
1 |
|
covalent organic framework |
1 |
|
critical concentration |
1 |
|
critical draw solution concentration |
1 |
|
critical flux |
1 |
|
critical performance |
1 |
|
cross-linking |
1 |
|
crosslinked layer-by-layer (xlbl) assembly |
1 |
|
crosslinked polyamide |
1 |
|
crystalline materials |
1 |
|
cyanobacteria - growth & development |
1 |
|
dbp treatment |
1 |
|
dechlorination |
1 |
|
deformation |
1 |
|
delamination |
1 |
|
desalination performance |
1 |
|
detachment probability |
1 |
|
diafiltration |
1 |
|
diclofenac - chemistry - isolation & purification |
1 |
|
different oxidation states |
1 |
|
digital printing |
1 |
|
disinfectants |
1 |
|
disinfection by-products (dbp) |
1 |
|
distillation |
1 |
|
donnan exclusion |
1 |
|
doppler optical coherence tomography |
1 |
|
double layer overlap |
1 |
|
double skin |
1 |
|
double-skinned |
1 |
|
double-skinned forward osmosis (fo) |
1 |
|
draw solute transmission |
1 |
|
draw solution chemistry |
1 |
|
draw solution reverse diffusion |
1 |
|
drops |
1 |
|
dually charged |
1 |
|
dye recovery |
1 |
|
dye rejection |
1 |
|
dye removal |
1 |
|
dye/salt binary mixture |
1 |
|
dye/salt fractionation |
1 |
|
dye/salt mixture |
1 |
|
dyeing and finishing wastewater |
1 |
|
eco-friendly membrane |
1 |
|
economic and social effects |
1 |
|
economics |
1 |
|
electric field |
1 |
|
electro-desalination |
1 |
|
electrochemical impedance spectroscopy |
1 |
|
electrochemical intercalation and exfoliation |
1 |
|
electrochemical oxidation |
1 |
|
electrodialysis (ed) |
1 |
|
electrolytes - chemistry |
1 |
|
electroplating wastewater |
1 |
|
electrospary |
1 |
|
electrospinning |
1 |
|
electrospray technique |
1 |
|
electrostatic interaction |
1 |
|
emerging micro-pollutants |
1 |
|
emerging pollutants |
1 |
|
empirical formula |
1 |
|
end-capping monomer |
1 |
|
end-of-life membrane |
1 |
|
endocrine disruptive compounds |
1 |
|
energy consumption |
1 |
|
energy efficiency |
1 |
|
energy generation |
1 |
|
energy harvesting |
1 |
|
energy saving |
1 |
|
energy self-sufficient desalination |
1 |
|
environmental desalination |
1 |
|
environmental pollutants - chemistry |
1 |
|
environmental pollution - prevention & control |
1 |
|
equipment design |
1 |
|
equipment failure |
1 |
|
equipment failure analysis |
1 |
|
escherichia coli - isolation & purification |
1 |
|
escherichia coli - metabolism |
1 |
|
escherichia coli proteins - chemistry |
1 |
|
escherichia coli proteins - chemistry - genetics - metabolism |
1 |
|
ethylenediaminetetraacetic acid (edta) |
1 |
|
evaporation |
1 |
|
exceptional volumetric capacity |
1 |
|
fabric-reinforced membrane |
1 |
|
feed composition |
1 |
|
finger-like pore structure |
1 |
|
finite element analysis |
1 |
|
fire resistance |
1 |
|
flat sheet membrane |
1 |
|
flat-sheet membrane |
1 |
|
fluorescence labeling |
1 |
|
fluorescent rhodamine wt tracer |
1 |
|
fluorine compounds |
1 |
|
fluorocarbons - analysis |
1 |
|
fluorocarbons - analysis - chemistry |
1 |
|
fluorocarbons - chemistry |
1 |
|
flushing velocity |
1 |
|
flux |
1 |
|
flux decline |
1 |
|
flux enhancement |
1 |
|
fo hollow fibers |
1 |
|
fo performance optimization |
1 |
|
fo water flux |
1 |
|
fo-mbr |
1 |
|
foldamer |
1 |
|
fombr membrane fouling |
1 |
|
forward osmosis (fo) membranes |
1 |
|
forward solute diffusion |
1 |
|
foulant-clean-membrane interaction |
1 |
|
foulant-fouled-membrane interaction |
1 |
|
foulant-membrane interaction |
1 |
|
foulant-membrane surface interaction |
1 |
|
fouling and cleaning |
1 |
|
fouling and secondary layer |
1 |
|
fouling mechanism |
1 |
|
fouling reversibility |
1 |
|
fractionation |
1 |
|
free volume |
1 |
|
glucuronic acid |
1 |
|
goethite |
1 |
|
grafting |
1 |
|
graphene |
1 |
|
graphene membrane |
1 |
|
graphene oxide membrane |
1 |
|
guanidinium |
1 |
|
gypsum |
1 |
|
gypsum scaling |
1 |
|
hairy structures |
1 |
|
haloacetic acids |
1 |
|
halogenating agents |
1 |
|
health risks |
1 |
|
heavy metals |
1 |
|
heterogeneous surface |
1 |
|
hexuronic acids |
1 |
|
hierarchical inorganic membrane |
1 |
|
high flux |
1 |
|
high performance |
1 |
|
high permeance |
1 |
|
hole |
1 |
|
hollow fiber membrane |
1 |
|
hollow fiber module |
1 |
|
human exposure |
1 |
|
humic substances |
1 |
|
humic substances - analysis |
1 |
|
hybrid process |
1 |
|
hybrid system |
1 |
|
hydraulic pressure |
1 |
|
hydrodynamic conditions |
1 |
|
hydrodynamic drag interaction |
1 |
|
hydrogel |
1 |
|
hydrographs |
1 |
|
hydrolysis |
1 |
|
hydrophilic modification |
1 |
|
hydrophobic and hydrophilic interactions |
1 |
|
hyperbranched polyester |
1 |
|
hypersaline wastewater |
1 |
|
hypochlorous acid |
1 |
|
hypochlorous acid - chemistry |
1 |
|
ibuprofen - chemistry - isolation & purification |
1 |
|
in situ cleaning |
1 |
|
initial flux |
1 |
|
inorganic surface modification |
1 |
|
interaction |
1 |
|
internal concentration polarisation |
1 |
|
intra-valence band |
1 |
|
ion channel gating |
1 |
|
ion exchange membranes |
1 |
|
ionic liquid |
1 |
|
ions/molecules separation |
1 |
|
iron compounds - chemistry |
1 |
|
iron flocs-h2o2 |
1 |
|
irreversible fouling |
1 |
|
isoporous membrane |
1 |
|
isothermal titration calorimetry |
1 |
|
janus membrane |
1 |
|
lamellar crosslinking reinforce |
1 |
|
layer-by-layer |
1 |
|
layer-by-layer (lbl) |
1 |
|
layer-by-layer adsorption |
1 |
|
layer-by-layer assembly |
1 |
|
layer-by-layer assembly (lbl) |
1 |
|
layer-stacked membrane |
1 |
|
layered double hydroxide |
1 |
|
limiting flux |
1 |
|
liquid food |
1 |
|
long-term mechanical stability |
1 |
|
long-term stable flux |
1 |
|
loose nanofiltration membrane |
1 |
|
loose nf membrane |
1 |
|
loose nf membranes |
1 |
|
macromolecules |
1 |
|
macromonomer |
1 |
|
magnesium chloride - chemistry |
1 |
|
magnéli-phase ti4o7 electrode |
1 |
|
mass transfer |
1 |
|
materials testing |
1 |
|
matrix effect |
1 |
|
md simulations |
1 |
|
membrane bioreactor |
1 |
|
membrane bioreactor (mbr) |
1 |
|
membrane bioreactors (mbrs) |
1 |
|
membrane defects |
1 |
|
membrane degradation |
1 |
|
membrane fusion |
1 |
|
membrane integrity |
1 |
|
membrane module |
1 |
|
membrane module design |
1 |
|
membrane orientation |
1 |
|
membrane oxidation |
1 |
|
membrane processes |
1 |
|
membrane recycling |
1 |
|
membrane technologies |
1 |
|
membrane thickness |
1 |
|
metagenomic analysis |
1 |
|
metal ions |
1 |
|
metal-organic frameworks |
1 |
|
metastable flux |
1 |
|
methane production |
1 |
|
methylimidazolium ionic liquid |
1 |
|
metronidazole removal |
1 |
|
microalgae |
1 |
|
microalgae separation |
1 |
|
microbial community analysis |
1 |
|
microfiltration |
1 |
|
microscopy - methods |
1 |
|
microscopy, atomic force |
1 |
|
microscopy, confocal |
1 |
|
microscopy, electron |
1 |
|
microscopy, electron, scanning |
1 |
|
microscopy, electron, transmission |
1 |
|
microscopy, electron, transmission - methods |
1 |
|
minerals |
1 |
|
mixed matrix membrane |
1 |
|
mixed matrix membrane (mmm) |
1 |
|
mixed matrix membranes |
1 |
|
model validation |
1 |
|
models, chemical |
1 |
|
models, molecular |
1 |
|
mof interlayer |
1 |
|
molecular chains observation |
1 |
|
molecular simulation |
1 |
|
molecular structure |
1 |
|
molybdenum disulfide |
1 |
|
monomer concentration |
1 |
|
monomer diffusion |
1 |
|
monovalent ions |
1 |
|
mullite-titania composite membrane |
1 |
|
multilayer assembly |
1 |
|
muramidase - chemistry |
1 |
|
mutant proteins - chemistry - metabolism |
1 |
|
mutation |
1 |
|
mwco |
1 |
|
mxene membranes |
1 |
|
mxene nanosheets |
1 |
|
mxene-based membranes |
1 |
|
nano-catalysthigh flux |
1 |
|
nanocomposite films |
1 |
|
nanocomposites |
1 |
|
nanoconfined fluidic channels |
1 |
|
nanofiber welding |
1 |
|
nanofibers |
1 |
|
nanofibrous membranes |
1 |
|
nanofiltration (nf) |
1 |
|
nanofiltration concentrate treatment |
1 |
|
nanofiltration membrane preparation |
1 |
|
nanofiltration-like rejection layer |
1 |
|
nanolaminate membranes |
1 |
|
nanomaterials |
1 |
|
nanoparticle separation |
1 |
|
nanoplastics |
1 |
|
nanostructures |
1 |
|
nanostructures - chemistry |
1 |
|
nanotechnology |
1 |
|
nanotechnology - methods |
1 |
|
nanotoxicity |
1 |
|
nanotubes, carbon - chemistry - ultrastructure |
1 |
|
naproxen - chemistry - isolation & purification |
1 |
|
natural organic matter (nom) |
1 |
|
network modeling |
1 |
|
neutralizing pond water |
1 |
|
nf-270 membrane |
1 |
|
nitrates - chemistry |
1 |
|
nitrogen - analysis |
1 |
|
nom |
1 |
|
non-ideal situation |
1 |
|
non-invasive imaging |
1 |
|
nonfouling emulsion separation |
1 |
|
nylons |
1 |
|
nylons - chemistry |
1 |
|
oil and water recovery |
1 |
|
oil pollution |
1 |
|
oil-in-water emulsion |
1 |
|
oily wastewater |
1 |
|
open circuit voltage |
1 |
|
operating stability |
1 |
|
optical coherence tomography (oct) |
1 |
|
optimization |
1 |
|
organic conjugated molecular crystals |
1 |
|
organic dye |
1 |
|
organic modification |
1 |
|
organic photocatalyst |
1 |
|
organic-based nanomaterials |
1 |
|
organic-inorganic fouling |
1 |
|
organometallics |
1 |
|
osmolar concentration |
1 |
|
osmotic driving force |
1 |
|
osmotic membrane bioreactor |
1 |
|
osmotically driven membrane processes (odmps) |
1 |
|
osmotically-driven membrane |
1 |
|
overcompensation |
1 |
|
oxidation potential |
1 |
|
oxide minerals |
1 |
|
oxygen - analysis |
1 |
|
pai membrane substrate |
1 |
|
palladium |
1 |
|
particle capture |
1 |
|
particulate matter |
1 |
|
passive and active enhancement modes |
1 |
|
pathogen removal |
1 |
|
pathogen removal mechanisms |
1 |
|
patterned membrane |
1 |
|
peptides |
1 |
|
performance limiting factors |
1 |
|
permeation flux |
1 |
|
peroxymonosulfate |
1 |
|
personal care products |
1 |
|
pervaporation |
1 |
|
pfos removal |
1 |
|
pharmaceutical preparations - chemistry - isolation & purification |
1 |
|
phase inversion |
1 |
|
phosphatidylcholines - chemistry |
1 |
|
photoelectron spectroscopy |
1 |
|
physico-chemical characterization |
1 |
|
physicochemical phenomena |
1 |
|
plasma |
1 |
|
pmf |
1 |
|
polarization |
1 |
|
poly(amide-imide) |
1 |
|
poly(hydroxyethyl methylacrylate) |
1 |
|
polyamide intrusion |
1 |
|
polyamide layer |
1 |
|
polyamide nanolayer |
1 |
|
polyamide thin film |
1 |
|
polyamide thin film composite (pa tfc) |
1 |
|
polyamides |
1 |
|
polyamines - chemistry |
1 |
|
polydopamine coating |
1 |
|
polydopamine healing |
1 |
|
polyelectrolyte crosslinking |
1 |
|
polyelectrolyte deposition |
1 |
|
polyelectrolyte draw solution |
1 |
|
polyethersulfone |
1 |
|
polyethylene glycol |
1 |
|
polyethylene glycols - analysis |
1 |
|
polymerization |
1 |
|
polystyrenes - chemistry |
1 |
|
polytetrafluoroethylene |
1 |
|
polyvinyl alcohol (pva) |
1 |
|
polyvinylidene fluoride |
1 |
|
polyvinylidene fluoride (pvdf) |
1 |
|
polyvinylidene fluoride membrane |
1 |
|
pore clogging enhanced internal concentration polarization |
1 |
|
pore plugging enhanced internal concentration polarization |
1 |
|
porous forward osmosis membranes |
1 |
|
porous interlayer |
1 |
|
porous matrix membrane (pmm) |
1 |
|
porous nanosheet |
1 |
|
positively-charged nanofiltration |
1 |
|
potable water |
1 |
|
power generation |
1 |
|
prebiotic chemistry |
1 |
|
precursors |
1 |
|
pressure assisted osmosis |
1 |
|
pressure retarded osmosis membrane |
1 |
|
protein |
1 |
|
protein conformation |
1 |
|
protein fouling |
1 |
|
protein sieving |
1 |
|
proteolipids - chemistry |
1 |
|
proteoliposome fusion |
1 |
|
pvdf membrane |
1 |
|
pvdf nanofibrous membrane |
1 |
|
qcm-d |
1 |
|
quaternary ammonium compounds |
1 |
|
rainfall |
1 |
|
rankine |
1 |
|
rapid prototyping |
1 |
|
reaction interface |
1 |
|
real-time measurements |
1 |
|
recovery |
1 |
|
recyclability |
1 |
|
reduction |
1 |
|
reinforced |
1 |
|
reinforced concrete |
1 |
|
rejection selectivity |
1 |
|
rejection-recovery tradeoff |
1 |
|
resource utilization |
1 |
|
reverse diffusion |
1 |
|
reverse diffusion of draw solution |
1 |
|
reverse osmosis (ro) |
1 |
|
reverse osmosis (ro) membrane |
1 |
|
reverse osmosis-like rejection layer |
1 |
|
reverse solute diffusion (rsd) |
1 |
|
reverse solute diffusion enhanced fouling |
1 |
|
reverse solute diffusion enhanced icp |
1 |
|
reverse solute flux |
1 |
|
reverse transport |
1 |
|
robust separation |
1 |
|
roughness factor |
1 |
|
salinity |
1 |
|
salinity gradient power generation |
1 |
|
salinity stability |
1 |
|
salt rejection |
1 |
|
salt transmission |
1 |
|
salts - chemistry |
1 |
|
scaling |
1 |
|
scaling control |
1 |
|
sdg11: sustainable cities and communities |
1 |
|
sdg7: affordable and clean energy |
1 |
|
seawater |
1 |
|
seawater - chemistry |
1 |
|
seawater desalination |
1 |
|
secondary effluent |
1 |
|
secondary layer |
1 |
|
self-assembly |
1 |
|
self-cleaning |
1 |
|
semiconductors |
1 |
|
serine - chemistry - genetics - metabolism |
1 |
|
serum albumin, bovine |
1 |
|
serum albumin, bovine - chemistry |
1 |
|
shear bond |
1 |
|
shear force |
1 |
|
shear rate |
1 |
|
shear-detachment model |
1 |
|
shewanella oneidensis |
1 |
|
silica gel (sg) |
1 |
|
silica nanopollens |
1 |
|
silica scaling |
1 |
|
silicon dioxide - chemistry |
1 |
|
silver |
1 |
|
silver - chemistry |
1 |
|
silver nanoparticles |
1 |
|
slenderness ratio |
1 |
|
small molecular organics |
1 |
|
soda ash |
1 |
|
sodium chloride - chemistry |
1 |
|
solar energy |
1 |
|
solid waste recycling |
1 |
|
solute permeability |
1 |
|
solute reverse diffusion |
1 |
|
solute transport |
1 |
|
solutions |
1 |
|
solvent purification |
1 |
|
solvent-thermal treatment |
1 |
|
spacer design |
1 |
|
span 80 |
1 |
|
specific cake resistance |
1 |
|
spectroscopy, fourier transform infrared |
1 |
|
spectrum analysis |
1 |
|
static electricity |
1 |
|
steel |
1 |
|
stretching |
1 |
|
structure |
1 |
|
structure-permeability relation |
1 |
|
substrate structure |
1 |
|
substrates |
1 |
|
sulfate removal |
1 |
|
sulfate-reducing bacteria |
1 |
|
sulfonated polysulfone |
1 |
|
sulfur recovery |
1 |
|
superhydrophilic |
1 |
|
superhydrophilic loose nf membranes |
1 |
|
superhydrophilicity |
1 |
|
superhydrophobic membrane |
1 |
|
superhydrophobicity |
1 |
|
superoleophilic |
1 |
|
supersaturation index |
1 |
|
support structure |
1 |
|
supported lipid membrane |
1 |
|
surface charges |
1 |
|
surface chemistry |
1 |
|
surface energy |
1 |
|
surface roughness enhancement |
1 |
|
surface segregation |
1 |
|
surfactant micelles |
1 |
|
sustainable energy extraction |
1 |
|
swimming pool water |
1 |
|
synergy |
1 |
|
tandem mass spectrometry |
1 |
|
tannic acid-fe3+ |
1 |
|
techno-economic evaluation |
1 |
|
tem |
1 |
|
temperature |
1 |
|
thermal pretreatment |
1 |
|
thin film composite (tfc) polyamide (pa) |
1 |
|
thin film composite (tfc) polyamide (pa) membrane |
1 |
|
thin film composite membrane (tfc) |
1 |
|
thin film composite polyamide (tfc pa) |
1 |
|
thin film composite polyamide membrane |
1 |
|
thin film composite reverse osmosis membrane (tfc-ro) |
1 |
|
thin film nanocomposite membranes |
1 |
|
thin films |
1 |
|
thin-film composite (tfc) |
1 |
|
thin-film composite (tfc) hollow fiber membrane |
1 |
|
thin-film composite membranes |
1 |
|
thin-film inorganic membrane |
1 |
|
thin-film-composite (tfc) polyamide (pa) |
1 |
|
three-dimensional printing |
1 |
|
three-dimensional simulations |
1 |
|
time factors |
1 |
|
titanium carbide |
1 |
|
titanium oxide nanotubes |
1 |
|
topography |
1 |
|
toxicity removal |
1 |
|
trace contaminants |
1 |
|
transmembrane pressure |
1 |
|
trichloroethylene |
1 |
|
tricot fabric |
1 |
|
ultimate strength |
1 |
|
ultrafiltration (uf) |
1 |
|
ultrafiltration membrane |
1 |
|
ultrasound |
1 |
|
unidirectional segregation |
1 |
|
uv/h2o2 process |
1 |
|
vesicle fusion |
1 |
|
vibration spectral analysis |
1 |
|
virus removal |
1 |
|
viscosity |
1 |
|
volumetric concentration factor |
1 |
|
waste disposal, fluid - methods |
1 |
|
wastewater |
1 |
|
wastewater reclamation |
1 |
|
wastewater sludge |
1 |
|
water |
1 |
|
water - chemistry |
1 |
|
water - chemistry - metabolism |
1 |
|
water - metabolism |
1 |
|
water activation |
1 |
|
water flux |
1 |
|
water lithium resources |
1 |
|
water microbiology |
1 |
|
water movements |
1 |
|
water pollutants - isolation & purification |
1 |
|
water pollutants, chemical - analysis |
1 |
|
water pollutants, chemical - chemistry |
1 |
|
water pollutants, chemical - chemistry - isolation & purification |
1 |
|
water pollutants, chemical - isolation & purification |
1 |
|
water purification - instrumentation - methods |
1 |
|
water vapor fumigation |
1 |
|
water-energy nexus |
1 |
|
webs |
1 |
|
wetting |
1 |
|
whey protein concentration |
1 |
|
wrinkled polyamide |
1 |
|
xdlvo-collision attachment |
1 |
|
xps |
1 |
|
zeolite nanoparticles |
1 |
|
zeta potential |
1 |
|
ε-polylysine |
1 |
|
ε-polylysine modified biochar |
1 |
