ライフサイエンスコーパス: salt in

1 enhanced by high aerosol salt molality, or "salting-in".

2 oil susceptibility is 0.19 dS/m per grams of salt in 1 m(3) of soil, and the average resulting relati

3 diversity loss is 5.7 x 10(-2) per grams of salt in 1 m(3) of soil.

4 The chemically stable solution of this salt in 1,2-dichloroethane can be used as "diazonium ink

5 in the presence of 2.5 mol % of borohydride salts in 10 min at room temperature in air.

6 nerated over ten linear steps as the formate salt in 17% overall yield using standard amide coupling

7 ich we isolated as its [Na-kryptofix-221](+) salt in 22% yield and characterized by single-crystal x-

8 HPLC, yielding triethylammonium or ammonium salts in 32% to 92% yield from [PPN](2)[P(4)O(11)].

9 h 11b gave an azulisapphyrin dihydrochloride salt in 35% yield, and this also showed a strong diatrop

10 ocess to assemble aryl(isoquinoline)iodonium salts in 40-94 % yields from mesoionic carbene silver co

11 3 which is isolated as the dicyclohexylamine salt in 45% overall yield and in 91-95% ee.

12 derivative, isolated as the triethylammonium salt in 54% yield.

13 )Nuc(1)](3-)) as mixed PPN and alkylammonium salts in 59% to 99% yield.

14 as its bis(triphenylphosphine)iminium (PPN) salt in 70% yield and phosphorylates nucleophiles with e

15 ethylmagnesium chloride to a dimethyliminium salt in 71% overall yield.

16 , which was isolated as its hydrogen sulfate salt in 75% yield and >97% ee.

17 Fe(6)S(9)(SH)(2)](3)(-) (7) as the Et(4)N(+) salt in 86% yield.

18 ical into the oxoammonium salt (1, Bobbitt's salt) in 88% yield, with an overall yield of 75%.

19 e; this simple procedure affords the oxoacid salt in 94% yield.

20 fragments was suppressed in the presence of salt in a concentration above 100 microM in the sample s

21 osed of a dinonylnaphthalenesulfonate (DNNS) salt in a plasticized polyurethane matrix, it is shown t

22 to water but, unexpectedly, also respond to salt in a ppk301-independent fashion.

23 either as the free-base or the hydrochloride salt in a telescoped process.

24 of 0.2-4mM octreotide or leuprolide acetate salts in a 0.1M HEPES buffer, pH7.4, with polymer partic

25 Ionic liquids, organic salts in a liquid state below 100 degrees C, have tradit

26 d by both the nature and concentration of co-salts in a manner that follows the Hofmeister series.

27 turn when in complex with monovalent cation salts in a methanol environment.

28 e the solubility of N-substituted pyridinium salts in a non-aqueous solvent.

29 olar cycloadditions, alkynylation of iminium salts in a three-component (A(3)) condensation, and conj

30 utant plants was more permeable to water and salts in a zone complementary to that affected by the Ca

31 nce of oxygen, light, and redox active metal salts, in a conventional oven, microwave oven and pressu

32 fer resistance to Pb(II), Zn(II), and Cd(II) salts, in a manner similar to ZntA.

33 Cx46 with Cx32 or Cx43 rectify in symmetric salts in accordance with the differences in the charges

34 es from quinoline N-oxides and aryldiazonium salts in acetonitrile under microwave irradiation is rep

35 redominant bile salt, whereas the major bile salts in adult liver were sulfated C27 bile alcohols.

36 0 mg (free acid; equivalent to 170 mg sodium salt) in adults was associated with the highest proporti

37 ng of phenolic compounds with FBBB diazonium salt in alkali pH.

38 (myo-inositol-1,2,3,4,5,6-hexakisphosphate) salts in all three compartments, although they differ in

39 cial formulation, fumagillin is present as a salt in an equimolar quantity with dicyclohexylamine (DC

40 lpha-methoxybenzyl-3,4,5-trimethylthiazolium salt in an intermolecular reaction in the absence of a m

41 When a mixture of two salts in an aqueous solution contains a weakly and a str

42 HCl, H(2)SO(4), H(3)PO(4), and various metal salts in an eight-component mixed waste stream.

43 In response to pulses of acid or bile salts in an ex vivo organ culture system, COX-2 expressi

44 electrocyclization reactions of keteniminium salts, in an effort to form a variety of heterocyclic sy

45 To better understand the influence of salting-in and salting-out salts (classified on the basi

46 ies and concentrations used, suggesting that salting-in and salting-out salts could increase or inhib

47 s investigated for both reduction of Fremy's salt in aqueous solution using direct electron spin reso

48 ee advantages over solutions of paramagnetic salts in aqueous or organic solutions: (i) negligible va

49 (M(-1) s(-1)), of a series of 20 triazolium salts in aqueous solution at 25 degrees C and ionic stre

50 rehalose to alter the activity of monovalent salts in aqueous solution.

51 etal ions, including lanthanide and actinide salts in aqueous solution.

52 ding and autocatalytic reduction of platinum salts in aqueous surfactant solution using ascorbic acid

53 Specifically, without added salt in assembly conditions, glucose diffusion was signi

54 by dissolving the corresponding imidazolium salts in basic 2,2,2-trifluoroethanol.

55 edge, the most direct observation to date of salting-in behavior in a protein-salt solution.

56 cantly to anion binding or the corresponding salting-in behavior of the biopolymer.

57 lium salts includes the application of these salts in biological systems, and several areas of bio-ap

58 lude elevated biomarkers of aspiration (bile salts) in bronchoalveolar lavage fluid (BALF).

59 ggregated by electrostatic interactions with salt in buffer solution, and the aggregates displayed en

60 egulator, CbrR, modulates resistance to bile salts in C. jejuni.

61 co-catalyst to common oxidants, e.g., Cu(II) salts, in C-H bond activation and Wacker oxidation proce

62 were treated with a 10-fold excess of NOBF4 salt in chloroform.

63 5 and commercially available NO(+)SbF(6)(-) salt in chloroform.

64 1) have been measured for tetraethylammonium salts in chloroform by employing a variation of Cram's e

65 actam macrocycle for 11 different Q(+).Cl(-) salts in chloroform solution.

66 p and the functional ability to excrete bile salts in cholestatic models in the rat.

67 2-chloro-6-(substituted-imidazol-1-yl)purine salts in cold acetonitrile and the chlorosugar in cold d

68 fluorinated boronic acid-appended pyridinium salts in combination with (19)F NMR spectroscopy.

69 By using primary amine hydrochloric acid salts in combination with 2,4,6-collidine, or free prima

70 its ability to decrease injury-inducing bile salts in combination with Aspirin to mitigate the conseq

71 omparison of solubility of aryl(TMP)iodonium salts in common organic solvents.

72 he alpha-effects for the series of sulfonium salts in completion reactions for 3-ClNMBH anions and 3-

73 acid and salt concentrations, C(acid) and C(salt), in concentrated aqueous LiCl-HCl, CaCl2-HCl, and

74 xpression profiling under conditions of high salt, in conjunction with the microbial antibiotics novo

75 ate that the presence of alkali metal halide salts, in conjunction with low copper concentration and

76 egulators, and clinicians should "mind their salts" in considering differences among supposedly equiv

77 Besides, the role of dinitrate salt in Crivello's protocol has been now clarified, whic

78 These cells respond vigorously to beryllium salts in culture by producing proinflammatory Th1-type c

79 d production of CmeABC, the presence of bile salts in culture media resulted in increased resistance

80 e thin-films, obtained adequate rejection of salts in desalination applications.

81 ylammonium (quaternary and primary) chloride salts in dichloromethane (DCM) solution and in the solid

82 highly nucleophilic pyridinamide phosphonium salts in dichloromethane, we show that asymmetric aggreg

83 The role of this cosolvent and salt in disrupting the ordered water surrounding the pro

84 ation properties of the corresponding sodium salts in DMF and DMSO are generalized with respect to an

85 and a series of anions as tetrabutylammonium salts in DMSO and MeCN were studied by (1)H and (11)B NM

86 heterocycles 1a-l using potassium and cesium salts in DMSO is described.

87 suggests a synergistic effect between pH and salt in DNA attachment and reveals the fundamental kinet

88 lacing NaCl by KGlu, the primary cytoplasmic salt in E. coli, results in a decrease of the diffusion

89 viscosity increase of the cheese matrix and "salting in" effect of protein.

90 ic compounds from water and salts which show salt-in effects had no influence on the oligomerization

91 Salts in electrolytes enlarge the viscosity significantl

92 ine formulation (free-base vs. protonated or salt) in electronic cigarette (E-cig) liquid affects use

93 The regular salt in enrolled households was retrieved and replaced,

94 nes that produce hypersensitivity to cadmium salts in Escherichia coli, random transposon mutagenesis

95 ts substantially faster than the 1-adamantyl salt in ethanol and the gas phase.

96 onsisting of dissolved cobalt and molybdenum salts in ethanol.

97 the phase-changing behavior of the carbanion salts in ether solutions upon reacting with CO(2), avoid

98 e reaction of isatins and 2-chloropyridinium salts in EtOH at room temperature for 5 min.

99 ion of Hg as a polynuclear chloromercury(II) salt in ettringite as the primary immobilization mechani

100 n of highly fluorescent pentacyclic ammonium salts in excellent yields.

101 romatization, leading to N-arylquinazolinium salts in excellent yields.

102 titative MS analysis even in the presence of salts in excess.

103 e that interactions of sulfates and chlorine salts in fine-grained soils on Mars could absorb water,

104 nthesis, indicating that elevated serum bile salts in Fut2(-/-)(high) mice were not explained by chol

105 leavage from the resin, delivers the desired salts in good yield and high purity.

106 scalable approach to access the imidate HCl salt in high yield.

107 The formation of these salts in high conversion, coupled with the observed kine

108 readily prepared and isolated as the oxalate salts in high yield and high purity.

109 he dicarboxylic acids are isolated as sodium salts in high yields (up to 77%) by direct precipitation

110 f 2-acyl-1,1,3,3-tetracyanopropenides (ATCN) salts in high yields and excellent purities starting fro

111 r further cleanup, while HILIC separates the salts in HILIC-MS.

112 n in the concentration of urea compared with salt in homogenized renal inner medullas of UT-B null mi

113 chenodeoxycholate (GCDA), the two major bile salts in humans.

114 ) has been proposed as a potential target of salt in immune cells, we fed a HSD to CD4(Cre)SGK1(fl/fl

115 , N-Me-Phe(4), Gly(5)-ol]-enkephalin acetate salt in inhibiting presynaptic GABA release.

116 ]i was determined using microinjected fura 2 salt in intact muscles, whereas the myofilaments of chem

117 A nonspecific salting-in interaction is known to occur between simple

118 m of de novo synthesis and secretion of bile salts in intestine after developmental biliary atresia,

119 el quantifies the negative implications that salts in irrigation water have on soil quality, in terms

120 of the hydrophobic interaction, analogous to salting-in, is induced by low-charge-density ions that e

121 cally characterized as a [K(2,2,2-crypt)](+) salt in [K(2,2,2-crypt)](3)[Fe@Ge(10)]*2en.

122 and NaCl and find that glyoxal consistently "salts-in" (KS of -0.16, -0.06, -0.065, -0.1 molality(-1)

123 d(CG) sequence length, DNA supercoiling, and salt in left-handed Z-DNA formation, plasmids containing

124 bis(oxalato)borate (LiBOB) as the secondary salt in LiNO(3)/diglyme electrolytes synergistically imp

125 sibility of effective application of lithium salts in lithium-ion batteries leading to a fundamental

126 1), Pd (2), Ni (3)) as the [K(2,2,2-crypt)]+ salts in low (Ni) to good (Pt) yields.

127 and decreased biliary concentrations of bile salts in LXR-activated mice led to an increased choleste

128 s on trans fats, and compulsory reduction of salt in manufactured food products.

129 Inorganic salts in marine aerosols play an active role in atmosphe

130 clearly demonstrate the role of high dietary salt in mediating cardiovascular and renal morbidity and

131 thyleneimmonium iodide (Eschenmoser's iodide salt) in methanol gives alpha-substituted acrylate methy

132 The dediazoniation of aryldiazonium salts in mixed solvents proceeds by a borderline SN1 and

133 dates the critical role of calcium chelating salts in modulating casein hydration and dispersion and

134 inearly with both increasing temperature and salt-in-moisture content, whereas solubility of CO(2) in

135 Moisture loss, salt-in-moisture, fat and protein contents increased.

136 ated by incubation at 37 degrees C with zinc salts in morpholinepropanesulfonic acid-buffered culture

137 Chloride ion, the majority salt in nature, is approximately 52% faster than sodium

138 d after dissolving tiny amounts of palladium salts in neat benzyl alcohols, to catalyze their direct

139 hether HNO is in fact released from Angeli's salt in neutral, aerobic solution.

140 methylphosphonium and octylammonium chloride salts in nonpolar solvents.

141 ve to the corresponding sodium and potassium salts in nucleophilic displacement reactions.

142 A modified Setschenow plot confirmed that "salting-in" of glyoxal is responsible for the increased

143 l/mol for EYPC) despite the presence of bile salts in one or both membrane hemileaflets, suggesting s

144 lae that had been micro-injected with fura-2 salt, in order to investigate the mechanism by which twi

145 Cl, [C4mim]Br, [C4mim]I, or potassium halide salts in order to validate the new method and standard.

146 anions, including the sulfate anion (TBA(+) salts), in organic media (CD2Cl2).

147 observations on the incorporation of halide salts in organolithium reagents.

148 ies that 'Methanonatronarchaeia' employ the 'salt-in' osmoprotection strategy.

149 t neurons that responded to all three of the salts in our taste array ("Salt Sensitive") exhibited a

150 paraformaldehyde, react with arene diazonium salts in Pd-catalyzed Matsuda-Heck arylation to the phar

151 The role of magnesium salts in phosphorylation of methanol by ATP was also exa

152 nding the uptake and transport properties of salt in plants is crucial to evaluate their potential fo

153 Total bile salts in plasma were extremely elevated (up to 1,500 muM

154 s as additives or as replacements for common salts in polymer-based ABS are also presented and discus

155 Here, salt-in-polymer fibers with NaF salt inlaid in polylacti

156 (Dietary Salt in Postural Tachycardia Syndrome; NCT01547117).

157 uses of aryl-, alkenyl-, and alkynyliodonium salts in preparative and synthetic organic chemistry.

158 tive and positive electrodes, we propose the salt-in-presalt (SIPS) electrolyte formulation strategy.

159 The roles of lithium salts in preventing the disproportionation of lithium be

160 pressure, but for most individuals, 'hidden' salt in processed foods disconnects salt intake from dis

161 Mandatory regulation of salt in processed foods, in particular, is highly recomm

162 ates to the bis-(acetylguanidinium)ferrocene salt in pure water.

163 mary and secondary 2,4,6-triphenylpyridinium salts in radiochemical conversion (RCC) up to 86% and a

164 sence and absence of tri- and dihydroxy bile salts in rats, WT mice, and CELKO mice.

165 Z-alkene and erythro-beta-hydroxyphosphonium salt) in reactions involving aldehydes bearing heteroato

166 Application of road salts in regions with colder climates is leading to grou

167 support an important beneficial role of bile salts in regulation of mucosal integrity.

168 ild-type Salmonella grown in the presence of salt in rich media.

169 Extended-release mixed amphetamine salts in robust doses along with cognitive behavioral th

170 hronic toxicity study of the HBED monosodium salt in rodents and have evaluated the iron excretion in

171 Here, a "salt-in-salt" strategy is applied to boost the LiNO(3) s

172 Deprotonation of the air-stable salts in situ with triethylamine releases the correspond

173 ticles (NPs) as acyl hydrazide reduces metal salts in situ.

174 mparison was made using FeSO4 as a precursor salt in solution (homogeneous system) and an Fe-loaded i

175 he stability of trifluoromethylhydrazine HCl salt in solution and in solid form and identified a shor

176 well as the salt concentration, the type of salt in solution, and nucleotide cofactors, the PriA hel

177 e, as well as salt concentration and type of salt in solution, the helicase has only a single, strong

178 ghly dependent on the type of virus, type of salts in solution (cation, anion.

179 tion and resulting emissive state of organic salts in solution has not been widely investigated.

180 in complex structure through the addition of salts in solution prior to desorption/ionization.

181 MS) is inherently susceptible to nonvolatile salts in solution, due to ion formation resulting from t

182 ns depend on the types and concentrations of salts in solution.

183 were elevated 15- to 30-fold by GB plus high salt in sporulation media, GB levels did not affect spor

184 Salt-in strategists, mainly represented by haloarchaea,

185 munity also had pI distributions similar to 'salt-in' strategists.

186 I) for all predicted proteins, suggesting a 'salt-in' strategy for osmotic balance.

187 diversity of viruses and predominance of a 'salt-in' strategy to balance the high osmotic pressure o

188 n used in combination with various palladium salts in Suzuki, Sonogashira, and Heck couplings of aryl

189 logarithm of salt concentration (dT(m)/d ln[salt]) in terms of [salt] and nucleic acid structural qu

190 pound is exceptional for a [H2NB2(C6F5)6](-) salt in that it contains a monatomic solute-free cation.

191 sulting from the excess concentration of the salt in the aqueous phase balances the osmotic pressure

192 In addition, the use of minimal or no salt in the carrier solutions enabled the analysis of di

193 Increasing salt in the coatings caused a reduction in optimum cooki

194 es were applied, using KIO(3)-enriched table salt in the cooking water.

195 The concentration of salt in the dispersed water droplets in butter was deter

196 ure, in which high-concentration clusters of salt in the EA solvent were surrounded by mobile DCM dil

197 ae require near-saturating concentrations of salt in the external environment and in their cytoplasm,

198 e in subsurface transport of mass, heat, and salt in the global ocean.

199 d to approximate the concentration of cerium salt in the graphene liquid cell.

200 Since the concentration of salt in the interstitial fluid surrounding renal inner m

201 y acidic environment in the stomach and bile salt in the intestine.

202 alginate production on the concentration of salt in the medium, were used to examine the effects of

203 the 1-2 um pits, leading to the dilution of salt in the microsized wood channels.

204 ations indicate that as the concentration of salt in the particles, the advance of the crystallizatio

205 nterplay between myeloid cells, T cells, and salt in the pathogenesis of essential hypertension.

206 Hofmeister ions salt out nonpolar groups and salt in the peptide group.

207 Use of salt in the preparation of solar dried Jameed also led t

208 a Pd(0) or Pd(II) source and an imidazolium salt in the presence of a base, KO(t)Bu or NaOH, was tes

209 on of a click triazole with a diaryliodonium salt in the presence of a copper catalyst under neat con

210 fonyl radical, generated from aryl diazonium salt in the presence of DABSO, is developed.

211 re easily formed with the triplet sensitizer salt in the range of 0.1 to 10%.

212 y cooks, as estimated by using the amount of salt in the recipe for each dish and the amount of each

213 lower agricultural productivity globally is salt in the soil.

214 cid with 9 does not form an ionic pyridinium salt in the solid state, rather, the product 10 is a mol

215 is highly dependent on the concentration of salt in the solution.

216 nally, we show that the role of DNA and high salt in the stimulation of the ATPase of RecA is to stab

217 It was found that the presence of salt in the subphase could induce the reorganization of

218 The concentration of salt in the thin layer of fluid at the surface of large

219 The salt in the Ti(3)C(2)T(x) colloidal suspension reduces s

220 not compromised even when the total load of salt in the vaporizer reached approximately 38.5 mg (equ

221 The presence of salt in the water can mitigate the effect of freezing on

222 robenzo[f]quinoxaline-7-sulfonamide disodium salt) in the BLA (0, 0.3, or 1.0 mug/0.3 mul).

223 -dichloro-1,2,3-dithiazolium chloride (Appel salt) in the presence of Hunig's base (2 equiv) to give

224 ely form a phosphonium cation-thiolate anion salt, in the presence of four or more water molecules, t

225 icient Gamma(salt) = d ln(k(cat)/K(m))/d ln [salt] in the concentration range examined.

226 c acid interactions at salt concentrations ([salt]) in the physiological range.

227 c strengths of either monovalent or divalent salts in the absence of a growth substrate.

228 c enamides was achieved using diaryliodonium salts in the absence of base/additive at ambient tempera

229 nd NO(3)(-) but will bind these other cesium salts in the absence of fluoride, both in solution and i

230 In contrast, reduction of palladium salts in the absence of the cages form structure less ag

231 ity due to the accumulation of water-soluble salts in the agricultural soil profile, allowing differe

232 uss mixtures of weakly and strongly hydrated salts in the anionic Hofmeister series and mixtures of u

233 lty for the dissociation of certain ammonium salts in the apolar micellar core.

234 odide anions as parts of quaternary ammonium salts in the arm region, we found that C(70)[>M(C(3)N(6)

235 e to the presence of non- or medium volatile salts in the background electrolyte (BGE), online CZE-ES

236 of these approaches-the addition of ammonium salts in the CHCA matrix followed by one postcrystalliza

237 Importantly, the presence of secondary bile salts in the circulation suggested residual enterohepati

238 een synthesized, and examined with magnesium salts in the coupling of the ribose unit to various nucl

239 The inclusion of buffers or inorganic salts in the dispersing medium had only a minor effect i

240 h urine exposure, cisternae communicate with salts in the external solution.

241 It was also found that a high B accumulates salts in the feed, leads to the oversalinization of the

242 m a biochemical imbalance of lipids and bile salts in the gallbladder bile.

243 etabolism of cholesterol, bilirubin, or bile salts in the gallbladder or biliary tract.

244 ride, sodium chloride, or magnesium chloride salts in the gel.

245 electrochemical process with aryl diazonium salts in the high conversion regime (D/G ratio >1), and

246 Resistance to high concentrations of bile salts in the human intestinal tract is vital for the sur

247 by increasing the content of calcium or iron salts in the incubation medium.

248 that CmeABC, by mediating resistance to bile salts in the intestinal tract, is required for successfu

249 stomach, various digestive enzymes and bile salts in the intestine threaten their viability and func

250 on of the biosynthesis and transport of bile salts in the liver and intestine.

251 tly related to the initial concentrations of salts in the packing solution.

252 ng the proposed "carrier effect" of chloride salts in the particle transport process.

253 etals, and crystallized as the corresponding salts in the presence of 18-crown-6 ether.

254 usters, which are cross-linked with platinum salts in the presence of a cetyltriethylammonium cationi

255 yl electrophiles can be accomplished with Ni salts in the presence of a chiral diamine ligand.

256 reactions with functionalized aryldiazonium salts in the presence of copper(I) chloride and DBU.

257 nutes at room temperature with aryldiazonium salts in the presence of ionic liquids (ILs) and K(2)CO(

258 ilanes and catalytic quantities of copper(I) salts in the presence of Lewis bases such as DMF.

259 Thermolysis of each of the diazonium salts in the presence of mesitylene again gave mainly tr

260 a selective capture of gold(III) and gold(I) salts in the presence of other metal cations typically f

261 o-aryl isothiocyanates with amino acid ester salts in the presence of triethylamine (TEA).

262 tions occurred upon irradiation of solid POM salts in the presence of water vapor.

263 gastric treatments and the presence of bile salts in the release and bioaccessibility of encapsulate

264 effect, due to the presence of proteins and salts in the saliva.

265 LDI) analysis is the presence of nonvolatile salts in the sample.

266 presence of certain compounds and inorganic salts in the sample.

267 of protein fragments required the absence of salts in the samples, while the presence of salt was key

268 he presence of sodium, potassium and calcium salts in the scale material that mediate the penetration

269 Trp, and Leu-Gln-Lys-Trp, and different bile salts in the submicellar or micellar state was investiga

270 ute to the greater stability conferred by Rb salts in the synthesis of FA-based perovskites.

271 The rich legacy of arenediazonium salts in the synthesis of unsymmetrical biaryls, built a

272 e treated effluent; however, accumulation of salts in the wastewater due to water flux and loss of dr

273 -stoichiometric amounts of copper or rhodium salts, in the presence of ethyl diazoacetate, giving eth

274 Meat industry needs to reduce salt in their products due to health issues.

275 h gave spatial distributions of moisture and salts in their various hydration states, visualized usin

276 ver, APR enzyme activity was not affected by salt in these plants.

277 reflecting increased concentrations of bile salts in these conditions.

278 r pK's of monomeric contact ion pair lithium salts in THF from our previous studies give good correla

279 ositions of conformational equilibria of the salts in THF, particularly of the dianion, were found to

280 incided with the initial application of road salt in this region.

281 anocrystals by utilizing an optimized molten-salt In-to-Ga cation exchange protocol to yield bright I

282 ated to exploring the utility of formic acid salts in various photochemical reactions.

283 of brining involves the dissolution of road salt in water and the application of the resulting brine

284 The investigation of salts in water at extreme conditions is crucial to under

285 The presence of salts in water deactivates the existing photocatalysts,

286 The solubility of these salts in water was determined by measuring the boron con

287 riazol-4-yl)ethanedisulfonate) with iron(II) salts in water yields the trimeric species [Fe3(mu-L)6(H

288 The CO(2)/salt-in-water electrolyte not only inherits the wide ele

289 osition pathways in the "water-in-salt" and "salt-in-water" regimes using synchrotron X-rays, which p

290 tional aqueous contexts like 1 m solutions ("salt-in-water").

291 article, we describe a series of new complex salts in which electron-donating cis-{Ru(II)(NH3)(4)}(2+

292 We describe a series of nine new complex salts in which electron-rich Ru(II) or Fe(II) centers ar

293 article, we describe a series of new complex salts in which electron-rich transition-metal centers ar

294 his article, we describe a series of complex salts in which electron-rich {Fe(II)(CN)(5)}(3)(-) cente

295 Electrides, i.e. salts in which electrons serve as anions, are promising

296 chiometric complex between PLA2 and any bile salts in which it forms a stable complex.

297 xcitation of a ground-state conformer of the salts in which the ammonium group sits over the pyrenyl

298 A series of tin(II) triflate and chloride salts in which the cations are complexed by either cycli

299 F solution unless in the presence of lithium salts, in which case they are indefinitely stable at roo

300 aryl amination using ligand-free nickel(II) salts, in which facile reductive elimination from the ni