1 2',3'-dideoxy nucleosides, by elimination of
hydrogen fluoride.
2 on accompanied by spontaneous elimination of
hydrogen fluoride.
3 Femtomolar concentrations of
hydrogen fluoride,
a decomposition component of nerve ag
4 to cesium hexafluosilicate by dissolution in
hydrogen fluoride and the addition of cesium chloride.
5 donor and proton acceptor of hydrogen-bonded
hydrogen fluoride binary complexes is investigated.
6 reement with NMR data, suggest a cyclic poly(
hydrogen fluoride)
bridged structure for DMEPHF.
7 ted using liquid as well as solid onium poly(
hydrogen fluoride)
catalysts.
8 Polymeric solid amine:poly(
hydrogen fluoride)
complexes are excellent solid HF equi
9 al calculations of stable dialkyl ether/poly(
hydrogen fluoride)
complexes are reported.
10 The liquid poly(
hydrogen fluoride)
complexes of amines are typical ionic
11 y chemically synthesized (AO)7 and anhydrous
hydrogen fluoride-
deglycosylated d(AO)51.
12 Dimethyl ether/poly(
hydrogen fluoride) (
DMEPHF), are stable complexes of par
13 was released from the cell wall with aqueous
hydrogen fluoride (
HF) and purified by gel filtration ch
14 Hydrogen fluoride (
HF) and selected nonbasic and weakly
15 In this process, anhydrous
hydrogen fluoride (
HF) is used to remove the side chain
16 gel treatment of the separated proteins with
hydrogen fluoride (
HF).
17 s anthracis vegetative cell walls by aqueous
hydrogen fluoride (
HF).
18 MCs and exposed to varying concentrations of
hydrogen fluoride in humid air.
19 We report the encapsulation of
hydrogen fluoride inside C60 using molecular surgery to
20 show increased availability of antigen after
hydrogen fluoride or cellulase treatment and decreased a
21 ilable reagents (m-chloroperbenzoic acid and
hydrogen fluoride pyridine) and a simple chiral aryl iod
22 cent stain and chemical dephosphorylation by
hydrogen fluoride-
pyridine enabled us to identify differ
23 Homologous dialkyl ether/poly(
hydrogen fluoride) (
R(2)O/[HF](n,), R = Et, nPr) systems
24 Treatment with potassium
hydrogen fluoride smoothly converted these to the corres
25 Hydrogen fluoride treatment of 89I LOS to remove phospha
26 with that of the LOS after O-deacylation and
hydrogen fluoride treatment.
27 captoethyl auxiliary was stable to anhydrous
hydrogen fluoride used to cleave and deprotect peptides
28 The approach is applied to model
hydrogen fluoride,
which in experiments exhibits unusual
29 ormed amide bond by treatment with anhydrous
hydrogen fluoride,
yielding a full-length unmodified pol