|
molybdenum disulfide |
7 |
|
peroxymonosulfate |
6 |
|
bacterial adhesion |
5 |
|
coal combustion |
5 |
|
flue gas |
5 |
|
grinding |
5 |
|
mercury |
5 |
|
regeneration |
5 |
|
solar cells |
5 |
|
surface roughness |
5 |
|
water permeability |
5 |
|
adsorption |
4 |
|
advanced oxidation processes |
4 |
|
atomic force microscope |
4 |
|
centrifugation |
4 |
|
centrifugation - methods |
4 |
|
completely decomposed granite |
4 |
|
dental ceramics |
4 |
|
dye-sensitized solar cells |
4 |
|
electrochemical performance |
4 |
|
escherichia coli |
4 |
|
escherichia coli k12 - physiology |
4 |
|
lateral detachment force |
4 |
|
layered double hydroxide |
4 |
|
lead removal |
4 |
|
lithium-ion battery |
4 |
|
magnesium leaching |
4 |
|
materials characterization |
4 |
|
microscopy, atomic force - methods |
4 |
|
nano-template |
4 |
|
nanocomposite membrane |
4 |
|
nanofiltration |
4 |
|
nanoparticles |
4 |
|
pulsed laser deposition |
4 |
|
reproducibility of results |
4 |
|
selectivity |
4 |
|
silver vanadium oxides |
4 |
|
sno2 |
4 |
|
soils |
4 |
|
sol–gel method |
4 |
|
spinel ferrite |
4 |
|
tung-oil |
4 |
|
tungsten carbide |
4 |
|
water repellency |
4 |
|
x-ray diffraction |
4 |
|
zinc oxide |
4 |
|
zirconiapolishing |
4 |
|
1,4-dioxane |
3 |
|
2-phenylbutyric acid |
3 |
|
abrasion |
3 |
|
acidic ph |
3 |
|
advanced oxidation |
3 |
|
air particle abrasion |
3 |
|
aluminum ions |
3 |
|
aluminum nitrate |
3 |
|
aluminum oxide |
3 |
|
aluminum sulfates |
3 |
|
anode |
3 |
|
anti-fouling membrane surface |
3 |
|
antibiotics |
3 |
|
arsenic adsorption |
3 |
|
bi-axial flexural strength |
3 |
|
biofouling |
3 |
|
biomineralization |
3 |
|
buffer layer |
3 |
|
calcification |
3 |
|
catalysis |
3 |
|
chemical vapor deposition |
3 |
|
chemistry |
3 |
|
chiral inversion |
3 |
|
circular economy |
3 |
|
co2 adsorption |
3 |
|
core/shell structure |
3 |
|
crystal nuclei |
3 |
|
cuco2o4 catalyst |
3 |
|
cumnti ternary mixed oxide |
3 |
|
density functional theory |
3 |
|
drinking water |
3 |
|
electrical and optical property |
3 |
|
elemental mercury |
3 |
|
enantioselective biodegradation |
3 |
|
epitaxial growth |
3 |
|
graphene oxide |
3 |
|
gravity-driven filtration |
3 |
|
hollow spheres |
3 |
|
hydrogen generation |
3 |
|
hydroides elegans |
3 |
|
hydrophobic interaction |
3 |
|
inorganic particle doping |
3 |
|
interlayer reconstruction |
3 |
|
linear alkylbenzene sulfonates |
3 |
|
lithium ion batteries |
3 |
|
lithium ion battery |
3 |
|
lithium ion battteries |
3 |
|
marine and aquatic sciences |
3 |
|
mechanochemistry |
3 |
|
membrane fabrication |
3 |
|
membrane filtration |
3 |
|
membrane fouling |
3 |
|
metal oxide nanostructures |
3 |
|
microemulsion |
3 |
|
mn2o3 |
3 |
|
morphology |
3 |
|
nano-photocatalyst |
3 |
|
nanofibrous membrane |
3 |
|
organometallic halide perovskite |
3 |
|
orientation control |
3 |
|
oxidation |
3 |
|
oxygen vacancy |
3 |
|
particle embedment |
3 |
|
perfluorooctane sulfonate (pfos) |
3 |
|
persulfate |
3 |
|
pfos |
3 |
|
phase transformation |
3 |
|
photodegradation |
3 |
|
polarity control |
3 |
|
porous adsorbents |
3 |
|
porous cubes |
3 |
|
porous structures |
3 |
|
precipitation |
3 |
|
pvdf |
3 |
|
pvdf membranes |
3 |
|
quantitative xrd |
3 |
|
red mud catalyst |
3 |
|
reduction |
3 |
|
removal |
3 |
|
renewable energy |
3 |
|
sandblasting |
3 |
|
sapphire substrate |
3 |
|
second metal doping |
3 |
|
selective catalytic reduction |
3 |
|
serpulid |
3 |
|
sorption |
3 |
|
spinel |
3 |
|
stability |
3 |
|
stabilization |
3 |
|
sulfadiazine |
3 |
|
sulfamethazine |
3 |
|
surface etching |
3 |
|
surface hydrophilicity |
3 |
|
surface reconstruction |
3 |
|
tetrapods |
3 |
|
tio2(b), solution treatment, tio2 composite |
3 |
|
transition-metal dichalcogenides |
3 |
|
tube ultrastructure |
3 |
|
two-dimensional materials |
3 |
|
visible light |
3 |
|
waste battery |
3 |
|
waste-to-value |
3 |
|
xanthobacter flavus |
3 |
|
xrd |
3 |
|
zeolitic imidazolate framework-8 |
3 |
|
zirconia |
3 |
|
zn-mof-74 |
3 |
|
znmn2o4 |
3 |
|
zno |
3 |
|
aluminum - chemistry |
2 |
|
ammonia |
2 |
|
biochar |
2 |
|
bisphenol a |
2 |
|
cadmium |
2 |
|
catalyst |
2 |
|
catalytic degradation |
2 |
|
catalytic oxidation |
2 |
|
cation |
2 |
|
ceramic |
2 |
|
ceramics - chemistry |
2 |
|
chemical stability |
2 |
|
coagulation |
2 |
|
controlled release |
2 |
|
copper - chemistry |
2 |
|
copper oxide |
2 |
|
copper slag |
2 |
|
copper sulfide |
2 |
|
corrosion |
2 |
|
crack pattern |
2 |
|
cryptic growth |
2 |
|
drying shrinkage |
2 |
|
ecc |
2 |
|
economic benefit |
2 |
|
electron transfer |
2 |
|
electrostatic interaction |
2 |
|
encapsulations |
2 |
|
environmental impact |
2 |
|
environmental pollutants - chemistry |
2 |
|
er-doped zno |
2 |
|
ferrous ions |
2 |
|
fiber surface treatment |
2 |
|
fosa |
2 |
|
functionalized flat-sheet ceramic membrane |
2 |
|
h2o2/o3 lysis |
2 |
|
hall effect measurement |
2 |
|
heavy metal |
2 |
|
heavy metals |
2 |
|
humic acid |
2 |
|
hybrid fibers |
2 |
|
hydroxyl radicals |
2 |
|
in-situ deformation modulus |
2 |
|
intercalation |
2 |
|
interplanar spacing |
2 |
|
intra-4f-transition emission |
2 |
|
kinetics |
2 |
|
la2o3 |
2 |
|
layered structure |
2 |
|
leaching |
2 |
|
lead halide perovskites |
2 |
|
lithium-ion batteries |
2 |
|
low temperature |
2 |
|
magnetic sorbent |
2 |
|
manganese oxide |
2 |
|
matrix |
2 |
|
mechanism |
2 |
|
membrane |
2 |
|
membranes |
2 |
|
mercury oxidation |
2 |
|
micromechanical modeling |
2 |
|
mofs |
2 |
|
ni sludge |
2 |
|
ocean acidification |
2 |
|
oms-2 |
2 |
|
partition |
2 |
|
pcma |
2 |
|
perfluorinated compounds |
2 |
|
peroxydisulfate |
2 |
|
persulfates |
2 |
|
pfhpa |
2 |
|
pfhxs |
2 |
|
phase evolution |
2 |
|
phosphorous recovery |
2 |
|
photoluminescence |
2 |
|
pilot experiment |
2 |
|
polyamide |
2 |
|
polyethylene terephthalate |
2 |
|
polyethylene terephthalate (pet) fibers |
2 |
|
polytitanium chloride |
2 |
|
polytriazine imides |
2 |
|
pyrite |
2 |
|
quantify |
2 |
|
quantitative x-ray diffraction |
2 |
|
reactive oxygen species |
2 |
|
recycling |
2 |
|
rietveld refinement |
2 |
|
rust |
2 |
|
selective pb removal |
2 |
|
selenide |
2 |
|
siderite |
2 |
|
single-atom catalyst |
2 |
|
sintering |
2 |
|
sludge |
2 |
|
sludge reduction |
2 |
|
solid waste recycling |
2 |
|
solid wastes recycling |
2 |
|
sorptivity |
2 |
|
steel reinforced concrete |
2 |
|
strain-hardening cementitious composite |
2 |
|
strain-hardening cementitious composite (shcc) |
2 |
|
struvite |
2 |
|
sulfamethoxazole |
2 |
|
sulfate radicals |
2 |
|
tensile performance |
2 |
|
transparent conducting oxide |
2 |
|
waste management - methods |
2 |
|
waste printed circuit board |
2 |
|
wastewater treatment |
2 |
|
waterproofing |
2 |
|
wetting property |
2 |
|
x-ray methods |
2 |
|
zirconolite |
2 |
|
18-crown-6 and derivatives |
1 |
|
1o2 |
1 |
|
acetanilides - chemistry |
1 |
|
acid attack |
1 |
|
acid orange ii |
1 |
|
acidic conditions |
1 |
|
acidic solutions |
1 |
|
acidic/alkaline attack |
1 |
|
acidithiobacillus ferrooxidans |
1 |
|
acidophilic bacteria |
1 |
|
actinide nuclides |
1 |
|
activated carbon |
1 |
|
activation barriers |
1 |
|
addition of al |
1 |
|
additive degradation |
1 |
|
adsorption capacities |
1 |
|
advanced oxidation process |
1 |
|
agglomeration |
1 |
|
agglomeration inhibition |
1 |
|
al2o3 |
1 |
|
al2o3 coating |
1 |
|
algae |
1 |
|
alkaline attack |
1 |
|
alkaline solutions |
1 |
|
alkanesulfonic acids - analysis |
1 |
|
alkanesulfonic acids - analysis - chemistry |
1 |
|
alkanesulfonic acids - chemistry |
1 |
|
alumina |
1 |
|
alumina precursor |
1 |
|
aluminate |
1 |
|
aluminate spinel |
1 |
|
aluminium |
1 |
|
aluminum oxide - chemistry |
1 |
|
amalgam |
1 |
|
amorphous content |
1 |
|
amorphous mose3 |
1 |
|
anatase |
1 |
|
anthraquinone-2,6-disulfonate |
1 |
|
aptamer |
1 |
|
apyrase |
1 |
|
aragonite |
1 |
|
arsenate |
1 |
|
arsenite |
1 |
|
artificial ponds |
1 |
|
as adsorption/decontamination |
1 |
|
asphalt rubber |
1 |
|
atrazine |
1 |
|
autocatalytic effect |
1 |
|
autunite |
1 |
|
ball milling |
1 |
|
batch adsorption experiments |
1 |
|
batch experiments |
1 |
|
batteries |
1 |
|
bead-electrode |
1 |
|
benzoic acid |
1 |
|
binding ability |
1 |
|
bio-oil |
1 |
|
bioleaching |
1 |
|
biomass valorization |
1 |
|
biostimulation |
1 |
|
boehmite |
1 |
|
bottom ash |
1 |
|
bottom surfaces |
1 |
|
bwr reactors |
1 |
|
c 3 n 4 |
1 |
|
c. x-raydiffraction |
1 |
|
ca decorated sludge carbon |
1 |
|
ca-bc |
1 |
|
cadmium aluminate silicates |
1 |
|
cadmium silicates |
1 |
|
calcium - analysis - chemistry |
1 |
|
calcium hydroxide |
1 |
|
calcium hydroxide - chemistry |
1 |
|
calcium silicate |
1 |
|
carbon dioxide |
1 |
|
carbon molecular sieve |
1 |
|
carbon nanomaterials |
1 |
|
carbon nanoparticle |
1 |
|
carbon nitride nanosheets |
1 |
|
carbonization |
1 |
|
carbothermal reduction |
1 |
|
catalytic |
1 |
|
catalytic graphitization |
1 |
|
catalytic oxidation process |
1 |
|
catalytic ozonation |
1 |
|
catalytic reaction |
1 |
|
cathode |
1 |
|
cathode material |
1 |
|
cathode ray tube |
1 |
|
cathode ray tube (crt) |
1 |
|
cathodes |
1 |
|
cation distributions |
1 |
|
cation effect |
1 |
|
cd-laden industrial sludge |
1 |
|
cement-bonded particleboard |
1 |
|
ceo2 |
1 |
|
ceramic disks |
1 |
|
ceramic materials |
1 |
|
ceramic membrane |
1 |
|
ceramic processing |
1 |
|
ceramic sintering |
1 |
|
ceramic supports |
1 |
|
ceramics |
1 |
|
ceria |
1 |
|
cerium oxide |
1 |
|
cesium |
1 |
|
challenge and prospective |
1 |
|
charge-balanced case |
1 |
|
chemical properties |
1 |
|
chemisorption |
1 |
|
chloramphenicol |
1 |
|
chlorination |
1 |
|
chloroacetanilide herbicides |
1 |
|
chromite ore processing residue (copr) |
1 |
|
chromium |
1 |
|
chromium - chemistry - isolation & purification |
1 |
|
chromium immobilization |
1 |
|
circular material flow |
1 |
|
clays |
1 |
|
clean-up |
1 |
|
cloud point extraction |
1 |
|
cms membranes |
1 |
|
cnts |
1 |
|
co oxidation |
1 |
|
co-mof |
1 |
|
co2 activation |
1 |
|
co2 sequestration |
1 |
|
coagulation behaviour |
1 |
|
coating |
1 |
|
cobalt phosphides |
1 |
|
congo red |
1 |
|
constant-ph leaching test (cplt) |
1 |
|
construction waste |
1 |
|
contamination |
1 |
|
continuous degradation |
1 |
|
conversion reaction |
1 |
|
copper |
1 |
|
copper - toxicity |
1 |
|
copper aluminate |
1 |
|
copper selenide |
1 |
|
copper(iii) periodate |
1 |
|
copper-iron bimetallic particles |
1 |
|
core-shell structure |
1 |
|
core–shell nanowires |
1 |
|
core–shell structure |
1 |
|
crt funnel glass |
1 |
|
crystal size |
1 |
|
crystal structure |
1 |
|
crystal structures |
1 |
|
crystal transformation |
1 |
|
crystalline structure |
1 |
|
crystallinity |
1 |
|
crystallization |
1 |
|
crystallization technique |
1 |
|
cu(fexal2-x)o4 spinel |
1 |
|
cu(ii)/fe(ii) ratio |
1 |
|
cu+ |
1 |
|
cu2o |
1 |
|
cu3+ |
1 |
|
cual2o4 |
1 |
|
cufe2o4 catalyst |
1 |
|
cupryl species |
1 |
|
curie weiss law |
1 |
|
d. crystalstructure |
1 |
|
d. thermalexpansion |
1 |
|
dechlorination products |
1 |
|
decomposition efficiency |
1 |
|
decomposition rate |
1 |
|
deep eutectic solvent |
1 |
|
degradation |
1 |
|
degradation mechanism |
1 |
|
densification |
1 |
|
depolymerization |
1 |
|
desorption |
1 |
|
detoxification |
1 |
|
dft calculation |
1 |
|
dft calculations |
1 |
|
diamond like carbon films |
1 |
|
dimethylnitrosamine - chemistry |
1 |
|
direct regeneration |
1 |
|
dispersion |
1 |
|
dissociation model |
1 |
|
dithionite |
1 |
|
dredged river sediments |
1 |
|
economic assessment |
1 |
|
effective degradation |
1 |
|
effective magnetic moments |
1 |
|
electroactive filtration |
1 |
|
electrochemical property |
1 |
|
electrode |
1 |
|
electromagnetic phenomena |
1 |
|
electronic waste |
1 |
|
electroplating sludge |
1 |
|
electrostatic precipitator |
1 |
|
electrostatic repulsion |
1 |
|
energy saving |
1 |
|
energy storage |
1 |
|
environmental assessment |
1 |
|
environmental monitoring |
1 |
|
environmental monitoring - methods |
1 |
|
environmental pollutants - toxicity |
1 |
|
environmental remediation |
1 |
|
environmental remediation - methods |
1 |
|
environmentally friendly |
1 |
|
epr |
1 |
|
ethanesulfonic acid |
1 |
|
ether electrolyte |
1 |
|
eutectic molten salt method |
1 |
|
evolutions of crystal structure |
1 |
|
fe |
1 |
|
fe(ii)-cu(ii) reaction |
1 |
|
fe-fc |
1 |
|
fe0@fe3o4 |
1 |
|
fe3+ |
1 |
|
fenton-like |
1 |
|
ferric compounds - chemistry |
1 |
|
ferrite |
1 |
|
ferrites |
1 |
|
ferrous compounds - chemistry |
1 |
|
ferryl ion |
1 |
|
fertilizer |
1 |
|
first principle |
1 |
|
first-principle calculations |
1 |
|
floc property |
1 |
|
flower-like greigite |
1 |
|
fluidized bed |
1 |
|
fluorescence |
1 |
|
fluorescence anisotropy |
1 |
|
fluorite-derived structures |
1 |
|
fluorocarbons - analysis |
1 |
|
fluorocarbons - analysis - chemistry |
1 |
|
fluorocarbons - chemistry |
1 |
|
fly ash |
1 |
|
formic acid |
1 |
|
free radicals |
1 |
|
free •oh |
1 |
|
free-stranding |
1 |
|
fukushima |
1 |
|
funnel glass |
1 |
|
gamma-aluminum oxide |
1 |
|
garnet |
1 |
|
gd2zr2o7 pyrochlore |
1 |
|
gels |
1 |
|
geologic sediments - analysis |
1 |
|
geometric configurations |
1 |
|
glass ceramic |
1 |
|
glass matrix |
1 |
|
glass-ceramic |
1 |
|
gold |
1 |
|
graphene |
1 |
|
graphitic carbon nitride |
1 |
|
graphitic carbon nitrides |
1 |
|
greater bay area |
1 |
|
gvl |
1 |
|
h2o2 |
1 |
|
hazardous metal |
1 |
|
hazardous metals |
1 |
|
hazardous pb |
1 |
|
hazardous substances - toxicity |
1 |
|
heat of mixing |
1 |
|
heavy metal fraction |
1 |
|
heavy metal removal |
1 |
|
heavy metal soil |
1 |
|
heavy metal stabilization |
1 |
|
herbicides - chemistry |
1 |
|
heterogeneous catalysis |
1 |
|
heterolysis |
1 |
|
hexagonal structures |
1 |
|
hexavalent chromium (cr(vi)) |
1 |
|
hierarchical pores |
1 |
|
high entropy fluorite oxides |
1 |
|
high temperature |
1 |
|
high temperature oxide melt solution calorimetry |
1 |
|
high-level liquid waste |
1 |
|
hong kong |
1 |
|
hot temperature |
1 |
|
hydration chemistry |
1 |
|
hydrogen bonds |
1 |
|
hydrogen peroxide |
1 |
|
hydrogenation reactions |
1 |
|
hydrophilic |
1 |
|
hydroxyapatite |
1 |
|
hydroxylamine |
1 |
|
hydroxylapatite |
1 |
|
immobilization |
1 |
|
in situ chemical oxidation (isco) |
1 |
|
in-situ coating |
1 |
|
in-situ epr |
1 |
|
incineration |
1 |
|
incineration ash |
1 |
|
incineration residue |
1 |
|
incorporation |
1 |
|
indium - chemistry |
1 |
|
industrial processing |
1 |
|
industrial sludge |
1 |
|
industrial waste |
1 |
|
industrial wastewater sludge |
1 |
|
initial coulombic efficiency |
1 |
|
inter-strata seepage |
1 |
|
interaction mechanisms |
1 |
|
interception |
1 |
|
interface stability |
1 |
|
interfacial stability |
1 |
|
intermediate phase |
1 |
|
intermediate phasis |
1 |
|
intrinsic resistance |
1 |
|
inverse spinel |
1 |
|
ion exchange |
1 |
|
ionic strength |
1 |
|
iron |
1 |
|
iron - chemistry |
1 |
|
iron oxide |
1 |
|
iron-based catalyst |
1 |
|
iron-doped g-c3n4 |
1 |
|
irradiation stability |
1 |
|
isatin |
1 |
|
isoeugenol |
1 |
|
isotherm |
1 |
|
isothermal titration calorimetry (itc) |
1 |
|
k-struvite |
1 |
|
kaolin |
1 |
|
kaolinite |
1 |
|
kaolinite. |
1 |
|
krill shell |
1 |
|
lactate |
1 |
|
land use type |
1 |
|
lattice defect |
1 |
|
lattice parameters |
1 |
|
lattice thermal expansion |
1 |
|
layered double hydroxides |
1 |
|
layered metal sulfides |
1 |
|
layered oxides |
1 |
|
lc/ms/ms |
1 |
|
leachability |
1 |
|
leaching behavior |
1 |
|
leaching performance |
1 |
|
leaching test |
1 |
|
lead |
1 |
|
lead ferrite |
1 |
|
lead immobilization |
1 |
|
lead recovery |
1 |
|
levulinic acid conversion |
1 |
|
lewis acid site |
1 |
|
li+ diffusion coefficient |
1 |
|
li/fe recycling |
1 |
|
li3v(moo4)3 |
1 |
|
lifepo4 |
1 |
|
ligand exchange |
1 |
|
lignin |
1 |
|
limestone calcinations |
1 |
|
lithium phosphate coating |
1 |
|
lithium storage |
1 |
|
lithium vanadium fluorophosphates |
1 |
|
lithium vanadium fluorphosphate |
1 |
|
long half-life radionuclides |
1 |
|
long-range electron transport |
1 |
|
long-term thermal stability |
1 |
|
low structural symmetry |
1 |
|
magnesium oxide |
1 |
|
magnesium oxide - chemistry |
1 |
|
magnetic activator |
1 |
|
magnetic adsorbent |
1 |
|
magnetic materials |
1 |
|
magnetic photocatalysts |
1 |
|
magnetism |
1 |
|
magnetite |
1 |
|
magnetoplumbite |
1 |
|
magnetron sputtering |
1 |
|
manganese slag |
1 |
|
membrane (technology) |
1 |
|
membrane distillation |
1 |
|
mercury selenide |
1 |
|
metal recovery |
1 |
|
metal stabilization |
1 |
|
metallurgy |
1 |
|
metals - chemistry |
1 |
|
metals - chemistry - toxicity |
1 |
|
metals, heavy - isolation & purification |
1 |
|
methane |
1 |
|
methylene blue |
1 |
|
microbial electrochemistry |
1 |
|
microplastic additives |
1 |
|
microplastic aging |
1 |
|
micropollutants |
1 |
|
microscopy, electron, scanning |
1 |
|
microstructure analysis |
1 |
|
microwave |
1 |
|
microwave-assisted polyol process |
1 |
|
microwave-heated polyol process |
1 |
|
microwaves |
1 |
|
mineral sulfide |
1 |
|
mineralization |
1 |
|
mn extraction |
1 |
|
mn/as |
1 |
|
models, statistical |
1 |
|
models, theoretical |
1 |
|
modified electrode |
1 |
|
molecular oxygen |
1 |
|
molecular oxygen activation |
1 |
|
molybdenum |
1 |
|
monte carlo simulation |
1 |
|
montmorillonite |
1 |
|
mullite |
1 |
|
multivariate analysis |
1 |
|
municipal sewage sludge ash |
1 |
|
municipal solid waste incineration |
1 |
|
n-doped graphitic carbon |
1 |
|
naalo2 |
1 |
|
nano-nio |
1 |
|
nano-zero valent iron |
1 |
|
nanoclusters |
1 |
|
nanomaterials |
1 |
|
nanosheets |
1 |
|
nanostructures |
1 |
|
natural mineral sulfides |
1 |
|
ni-rich cathode material |
1 |
|
nial2 |
1 |
|
nial2o4 |
1 |
|
nickel |
1 |
|
nickel - chemistry |
1 |
|
nickel - toxicity |
1 |
|
nickel ferrite |
1 |
|
nickel oxide |
1 |
|
nickel sludge |
1 |
|
nife2o4 |
1 |
|
nitrogen-doped carbon nanotubes |
1 |
|
non-radical mechanism |
1 |
|
non-radical-based oxidation |
1 |
|
nonradical degradation |
1 |
|
nonradical mechanism |
1 |
|
nuclear waste |
1 |
|
nuclear wastex |
1 |
|
nucleophilic reagent |
1 |
|
numerical modeling |
1 |
|
nutrient recovery |
1 |
|
oads |
1 |
|
octanoic acids - analysis - chemistry |
1 |
|
orange-red emission |
1 |
|
oxidation-reduction |
1 |
|
oxidation-reduction - drug effects |
1 |
|
oxidative degradation |
1 |
|
ozone |
1 |
|
palladium - chemistry |
1 |
|
pb-zn sludge |
1 |
|
pd/al2o3 |
1 |
|
pearl powder |
1 |
|
pentachlorophenol |
1 |
|
percentage stone covering |
1 |
|
perfluorochemical |
1 |
|
perfluorochemicals |
1 |
|
peroxone process |
1 |
|
persulfate activation |
1 |
|
pesticide detoxification |
1 |
|
pfbs |
1 |
|
pfoa |
1 |
|
ph |
1 |
|
phase compositions |
1 |
|
phase transformations |
1 |
|
phenol |
1 |
|
phosphate |
1 |
|
phosphorus |
1 |
|
phosphorus availability |
1 |
|
phosphorus recovery |
1 |
|
photocatalytic activity |
1 |
|
photocatalytic reduction |
1 |
|
photoelectron spectroscopy |
1 |
|
photogenerated electrons |
1 |
|
photoreduction |
1 |
|
piezoelectric technology |
1 |
|
pms activation |
1 |
|
pollution assessment |
1 |
|
polyethyleneimine |
1 |
|
polyvinylpyrrolidone (pvp) |
1 |
|
ponds |
1 |
|
porous carbon |
1 |
|
potassium |
1 |
|
potential ecological risk |
1 |
|
powder x ray diffraction |
1 |
|
powders: chemical preparation |
1 |
|
ppcp degradation |
1 |
|
pre-lithiation |
1 |
|
prediction model |
1 |
|
preferential carbon monoxide oxidation |
1 |
|
preparation procedure |
1 |
|
propachlor |
1 |
|
push-pull extraction system |
1 |
|
pyrolysis |
1 |
|
quantum chemistry simulation (qcs) |
1 |
|
radicals |
1 |
|
radioactive effluents |
1 |
|
radioactive waste |
1 |
|
radionuclide |
1 |
|
rainfall simulation |
1 |
|
rainfall simulator |
1 |
|
raman spectra |
1 |
|
rare earth element |
1 |
|
reaction sequences |
1 |
|
reclaimed water |
1 |
|
recovery |
1 |
|
recrystallization |
1 |
|
red mud |
1 |
|
reduced graphene oxides |
1 |
|
reductive dechlorination |
1 |
|
refractory organic pollutants |
1 |
|
refuse disposal - methods |
1 |
|
release dynamics |
1 |
|
reservoir |
1 |
|
resource recovery |
1 |
|
reuse |
1 |
|
reusing |
1 |
|
reversibility |
1 |
|
rheological properties |
1 |
|
rhodamine b |
1 |
|
rietveld quantitative analysis |
1 |
|
rietveld quantitative xrd |
1 |
|
river sediment |
1 |
|
rutile |
1 |
|
s-scheme heterojunction |
1 |
|
s2o82- |
1 |
|
sacs |
1 |
|
scanning electron microscopy |
1 |
|
sediment |
1 |
|
selected area electronic diffraction |
1 |
|
selective leaching |
1 |
|
selective oxidation |
1 |
|
selenization |
1 |
|
sensor |
1 |
|
separation |
1 |
|
separation factor |
1 |
|
sewage |
1 |
|
sewage - analysis |
1 |
|
sewage - chemistry |
1 |
|
sewage sludge |
1 |
|
sewage treatment |
1 |
|
sfca |
1 |
|
silicates |
1 |
|
silk cocoons |
1 |
|
silver |
1 |
|
sinx interlayer |
1 |
|
sio2 |
1 |
|
slope |
1 |
|
slow-releasing fertilizer |
1 |
|
sludge biochar |
1 |
|
sludge char |
1 |
|
sludge disposal |
1 |
|
sludge incineration residues |
1 |
|
sludge recovery |
1 |
|
sludge-based biochar |
1 |
|
so2 |
1 |
|
sodium-ion batteries |
1 |
|
soil iron cycle |
1 |
|
soil mineral |
1 |
|
soil pollution |
1 |
|
solid solutions |
1 |
|
solution combustion synthesis |
1 |
|
solvent extraction |
1 |
|
spatial pattern |
1 |
|
spent coffee grounds |
1 |
|
spent lithium-ion batteries |
1 |
|
spinels |
1 |
|
spray pyrolysis |
1 |
|
stone cover percentage |
1 |
|
storage |
1 |
|
stripping |
1 |
|
strontium |
1 |
|
structural transformation |
1 |
|
substitution mechanism |
1 |
|
sulfanilamide |
1 |
|
sulfate radical |
1 |
|
supported copper catalyst |
1 |
|
supported pd |
1 |
|
surface chemistry |
1 |
|
surface modifications |
1 |
|
surface properties |
1 |
|
surface runoff |
1 |
|
surface-bound radical |
1 |
|
surface-bound radicals |
1 |
|
surfactant |
1 |
|
synergetic effect |
1 |
|
synergistic effect |
1 |
|
synergistic effects |
1 |
|
temperature |
1 |
|
tempo |
1 |
|
thermal behavior |
1 |
|
thermal decomposition |
1 |
|
thermal expansion |
1 |
|
thermal factors |
1 |
|
thermal oxidation |
1 |
|
thermal reduction |
1 |
|
thermal treatment |
1 |
|
thermal/noise insulation |
1 |
|
thermally hydrolyzed sludge |
1 |
|
thermodynamics |
1 |
|
ti-loaded sludge |
1 |
|
timber waste |
1 |
|
time factors |
1 |
|
titanium dioxide |
1 |
|
transformation |
1 |
|
transformation ratio |
1 |
|
transformation ratio (tr) |
1 |
|
transition metal oxide |
1 |
|
transition metal oxides |
1 |
|
two-electron transfer |
1 |
|
u(iv)-doped magnetite |
1 |
|
ultrasound |
1 |
|
uranium |
1 |
|
uranium (vi) |
1 |
|
uranium removal |
1 |
|
uranium solubility |
1 |
|
uv irradiation |
1 |
|
value recovery |
1 |
|
value-added recycling |
1 |
|
vanadates |
1 |
|
vanadium fluorophosphates |
1 |
|
vanillin |
1 |
|
warm mix |
1 |
|
waste conversion |
1 |
|
waste disposal, fluid |
1 |
|
waste form |
1 |
|
waste forms |
1 |
|
waste materials |
1 |
|
waste recycling |
1 |
|
waste resource |
1 |
|
waste sawdust |
1 |
|
waste upcycling |
1 |
|
waste-to-resource |
1 |
|
wastes |
1 |
|
wastewater |
1 |
|
water - chemistry |
1 |
|
water -- purification -- membrane filtration. |
1 |
|
water environment protection |
1 |
|
water pollutants, chemical |
1 |
|
water pollutants, chemical - analysis - chemistry |
1 |
|
water pollutants, chemical - chemistry |
1 |
|
water purification - methods |
1 |
|
water vapor |
1 |
|
waterworks |
1 |
|
waterworks sludge |
1 |
|
willemite |
1 |
|
wood particleboard |
1 |
|
wwtp |
1 |
|
x-ray photoelectron spectroscopy (xps) |
1 |
|
xrd quantification |
1 |
|
zeolite |
1 |
|
zeolites |
1 |
|
zero valent iron |
1 |
|
zero-valent iron |
1 |
|
zero-valent iron (zvi) |
1 |
|
zif-8 |
1 |
|
zinc |
1 |
|
zinc - analysis - chemistry |
1 |
|
zirconolite-2m |
1 |
|
zirconolite-3o |
1 |
|
α-fe2o3 |
1 |
|
β-pbo submicron-particles |
1 |
|
π–π stacking interaction |
1 |
