|
acylnitrene transfer |
4 |
|
apoptosis |
4 |
|
clinical effectiveness |
4 |
|
controlled study |
4 |
|
cytotoxicity |
4 |
|
c−n bond formation |
4 |
|
drug effect |
4 |
|
porphyrinoids |
4 |
|
raman spectroscopy |
4 |
|
ruthenium |
4 |
|
ruv-imido complex |
4 |
|
aldehydes - chemical synthesis - chemistry |
3 |
|
chromophores |
3 |
|
computer simulation |
3 |
|
dimethoxybenzoin |
3 |
|
esters - chemical synthesis - chemistry |
3 |
|
p-hydroxyphenacyl cage |
3 |
|
photochemistry |
3 |
|
phototriggers |
3 |
|
quantum theory |
3 |
|
spectrometry, fluorescence |
3 |
|
time-resolved resonance |
3 |
|
time-resolved spectroscopy |
3 |
|
ultrafast spectroscopy |
3 |
|
cas-scf |
2 |
|
chemistry |
2 |
|
chlorination mechanism |
2 |
|
computational investigation |
2 |
|
electronic configuration |
2 |
|
geometrical distortion |
2 |
|
intersystem crossing |
2 |
|
ion exchange membrane |
2 |
|
organic chemistry |
2 |
|
reverse electrodialysis (red) |
2 |
|
salinity gradient power (sgp) |
2 |
|
sodium hypochlorite |
2 |
|
(diacetoxyiodo)benzene |
1 |
|
1,3-dienes |
1 |
|
1,4-dihydropyridine |
1 |
|
2,2'-dipyridyl - analogs and derivatives - chemistry |
1 |
|
3,5-dinitrobenzoic acid |
1 |
|
alcohols - chemistry |
1 |
|
aldehydes |
1 |
|
aldehydes - chemical synthesis |
1 |
|
aldol reaction |
1 |
|
alkenes |
1 |
|
alkyne isomerization |
1 |
|
alkynes |
1 |
|
allenones |
1 |
|
allyl alcohol |
1 |
|
amines |
1 |
|
amines - chemistry - metabolism |
1 |
|
appel reaction |
1 |
|
appel reactions |
1 |
|
aryl triflates |
1 |
|
asymmetric catalysis |
1 |
|
aza-wittig reactions |
1 |
|
azo compounds |
1 |
|
benzeneselenol |
1 |
|
benzoin condensation |
1 |
|
binding sites |
1 |
|
biochemistry |
1 |
|
biomimetic hydrogen source |
1 |
|
c-c coupling |
1 |
|
carbon dioxide |
1 |
|
catalysis |
1 |
|
catalyst |
1 |
|
catalytic oxidation |
1 |
|
chalcogens |
1 |
|
chiral phosphoric acid |
1 |
|
chloride peroxidase - metabolism |
1 |
|
cinnamates |
1 |
|
combinatorial chemistry techniques |
1 |
|
condensation |
1 |
|
conjugate reduction |
1 |
|
conjugate reduction reaction |
1 |
|
cross-linking reagents - chemistry |
1 |
|
cyanosilylation |
1 |
|
cyclic carbonate |
1 |
|
cyclic n-oxides - chemistry |
1 |
|
cycloaddition |
1 |
|
cyclopropanes - chemistry |
1 |
|
cyclopropylcarbinyl radical |
1 |
|
dienes |
1 |
|
dmap |
1 |
|
doebner-knoevenagel reaction |
1 |
|
doebner–knoevenagel reactions |
1 |
|
enol ethers |
1 |
|
enones |
1 |
|
epoxidation |
1 |
|
epoxide |
1 |
|
esterification reactions |
1 |
|
flow chemistry |
1 |
|
free radicals |
1 |
|
friedel-crafts reactions |
1 |
|
friedel−crafts reaction |
1 |
|
furans |
1 |
|
furans - chemistry |
1 |
|
green chemistry |
1 |
|
halogen bond |
1 |
|
halogenation |
1 |
|
hantzsch ester |
1 |
|
heterogeneous catalysis |
1 |
|
homocoupling |
1 |
|
hydrogen bonds |
1 |
|
hydrogen peroxide |
1 |
|
hydroxylation |
1 |
|
imines |
1 |
|
iminosugars |
1 |
|
immobilization |
1 |
|
indicators and reagents |
1 |
|
inorganic chemistry |
1 |
|
iodobenzene |
1 |
|
isomerization |
1 |
|
isomerization reactions |
1 |
|
isomers |
1 |
|
jandajel |
1 |
|
jandajel™ |
1 |
|
ketone |
1 |
|
kinetics |
1 |
|
lewis base |
1 |
|
lewis bases |
1 |
|
linker |
1 |
|
macroporous polystyrene |
1 |
|
magnetic resonance spectroscopy |
1 |
|
mcpba |
1 |
|
metallocenes |
1 |
|
methylococcaceae - enzymology |
1 |
|
microencapsulation |
1 |
|
mitosporic fungi - enzymology |
1 |
|
mitsunobu reaction |
1 |
|
mitsunobu reactions |
1 |
|
mizoroki-heck reactions |
1 |
|
molecular probes |
1 |
|
monomers |
1 |
|
morita-baylis-hillman reactions |
1 |
|
morita–baylis–hillman reaction |
1 |
|
mp2 calculations |
1 |
|
n-heterocyclic carbene |
1 |
|
natural products |
1 |
|
nitroalkanes |
1 |
|
nitroalkenes |
1 |
|
nitrone deoxygenation |
1 |
|
organic chemicals - chemical synthesis |
1 |
|
organic chemistry chemistry |
1 |
|
organocatalysis |
1 |
|
organocatalyst |
1 |
|
organometallic compounds - chemical synthesis |
1 |
|
organophosphorus |
1 |
|
ortho-lithiation |
1 |
|
oxidation reactions |
1 |
|
oxidation-reduction |
1 |
|
oximes |
1 |
|
oxygenases - metabolism |
1 |
|
p-toluenesulfonic acid |
1 |
|
palladacycles |
1 |
|
palladium |
1 |
|
peptide synthesis |
1 |
|
phenol |
1 |
|
phenols |
1 |
|
phosphane ligands |
1 |
|
phosphanes |
1 |
|
phosphine |
1 |
|
phosphine oxides |
1 |
|
phosphines |
1 |
|
phosphonium salt |
1 |
|
phosphorane |
1 |
|
phthalide |
1 |
|
physical chemistry biology |
1 |
|
poc-2014 |
1 |
|
poly(4-iodostyrene) |
1 |
|
polyether ether ketones |
1 |
|
polyethyleneimine |
1 |
|
polymer |
1 |
|
polymer support |
1 |
|
polymer supported reagents |
1 |
|
polymer-supported catalyst |
1 |
|
polymer-supported catalysts |
1 |
|
polymer-supported organocatalyst |
1 |
|
polymer-supported reagent |
1 |
|
polymer-supported reagents |
1 |
|
polymer-supported reagents; |
1 |
|
polymer-supported reducing agent |
1 |
|
polymers |
1 |
|
polymers - chemistry |
1 |
|
polymers - metabolism |
1 |
|
polystyrene |
1 |
|
polystyrenes |
1 |
|
povarov reaction |
1 |
|
ptoc esters |
1 |
|
rasta resin |
1 |
|
rearrangement |
1 |
|
redox esterification |
1 |
|
reduction |
1 |
|
reductive aldol reactions |
1 |
|
reductive amination |
1 |
|
resin |
1 |
|
resins |
1 |
|
resins, plant - metabolism |
1 |
|
selenium |
1 |
|
self-supported catalyst |
1 |
|
self-supported catalysts |
1 |
|
silanes |
1 |
|
solid-phase synthesis |
1 |
|
solubility |
1 |
|
spin-spin coupling |
1 |
|
substrate specificity |
1 |
|
sulfur |
1 |
|
sulfur ylides |
1 |
|
suzuki-miyaura coupling |
1 |
|
suzuki-miyaura reaction |
1 |
|
suzuki-miyaura reactions |
1 |
|
swern oxidation |
1 |
|
tandem reaction |
1 |
|
tert-butyl hydroperoxide |
1 |
|
tetrahydroquinolines |
1 |
|
thioanisole |
1 |
|
through-space interactions |
1 |
|
traceless linker |
1 |
|
trichlorosilane |
1 |
|
triflimide groups |
1 |
|
triphenylarsine reagents |
1 |
|
triphenylphosphine |
1 |
|
triphenylphosphine oxide |
1 |
|
trityl alcohols |
1 |
|
wittig reaction |
1 |
|
wittig reactions |
1 |
|
α-tosyloxyketone |
1 |
