Chemistry Reference
In-Depth Information
in situ and real time studies will certainly lead to important developments in
the future. The growing number of explorations of one-pot ''all-at-once''
multi-component reactions suggests that future research in metal-organic
mechanochemical synthesis will become increasingly dedicated to finding
routes to synthesizing complex products from the simplest possible react-
ants. In that light, the application of mechanochemistry to coordination
bond formation has brought the research in metal-organic materials
chemistry closer to the established traditions of synthetic organic synthesis:
of designing less expensive, more ecient, more elegant and less environ-
mentally harmful synthetic procedures.
Abbreviations
adc
acetylenedicarboxylate anion
AgOAc
silver(
I
) acetate
Alq
3
(8-hydroxoquinolinate)aluminium
ANA
analcime topology
API
active pharmaceutical ingredient
ba
barbituric acid
BET
Brunauer-Emmett-Teller
4,4
0
-dipyridyl
bipy
bpe
trans-1,2-bis(4-pyridyl)ethylene
CNacac
cyanoacetylacetonate ion
cnge
cyanoguanidine
Cp
cyclopentadienide anion
dabco
diazabicyclo[2.2.2]octane
dace
1,4-diaminocyclohexane
DMF
N,N-dimethylformamide
DMSO
dimethyl sulfoxide
dpn
diphenyl-(2-pyridyl)phosphine
etu
ethylenethiourea
FTIR
Fourier-transform infrared
H
2
adc
acetylenedicarboxylic acid
H
2
fum
fumaric acid
H
2
salen
bis(salicylidene)ethylenediamine
HCNacac
cyanoacetylacetone
Him
imidazole
Hina
isonicotinic acid
ILAG
ion- and liquid-assisted grinding
im
imidazolate ion
ina
isonicotinate ion
LAG
liquid-assisted grinding
MOF
metal-organic framework
NMR
nuclear magnetic resonance
NSAID
non-steroidal anti-inflammatory drug
OAc
acetate ion
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