ライフサイエンスコーパス: hydroxide

1 ite and other minerals (e.g., clays, Fe-(oxy)hydroxides).

2 ivity and attrition) features of the product hydroxide.

3 ance when the Ag is provided as OVA-aluminum hydroxide.

4 eins in the absence and presence of aluminum hydroxide.

5 ene in the presence of 10 equiv of potassium hydroxide.

6 ecific antibodies in the absence of aluminum hydroxide.

7 t metallic configuration of transition-metal hydroxides.

8 e spacing similar to those of double-layered hydroxides.

9 catalyst coupled with bulky nickel or copper hydroxides.

10 TMSH (trimethylsulfonium hydroxide, 0.2 mol/l in methanol) was used as a trans-es

11 gth of 1 mm, we were able to suppress 100 mM hydroxide @ 100 nL/min (10 neq/min).

12 urolite A530E (104 mg/g), and layered double hydroxides (28 mg/g).

13 chloride (5.0g.L(-1)), citrate (6.5g.L(-1)), hydroxide (4.0g.L(-1)), hypochlorite (0.2g.L(-1)), starc

14 ed of chloroform:methanol:water:25% ammonium hydroxide (70:30:4:2 v/v/v/v), derivatization with Carr-

15 of chloroform:methanol:acetone:25% ammonium hydroxide (75:15:10:1.6 v/v/v/v), derivatization with Dr

16 of the anodic peak for amorphous nickel oxy/hydroxide (a-NiOx) films in basic media was investigated

17 -like components bind on freshly formed iron hydroxides, a process that affects both DOC stability in

18 is, the growth of a self-assembled metal oxy(hydroxide) active layer.

19 are inhibited by formation of an oxoammonium hydroxide adduct.

20 were sensitized with rBet v 1 plus aluminium hydroxide adjuvant and intranasally challenged with birc

21 he particle size of the traditional aluminum hydroxide adjuvant into nanometers represents a novel an

22 , double-blind trials of ZPIV with aluminium hydroxide adjuvant.

23 20 mug dose [of each serotype] of aluminium hydroxide-adjuvanted investigational vaccine) or placebo

24 We tested a human-safe, aluminum hydroxide-adjuvanted whole-cell T. vaginalis vaccine for

25 of orthophosphate to WEOM-adsorbed iron (oxy)hydroxide AFM tips suggesting that the molecular mass of

26 Aluminum hydroxide (AH) salts are the most widely used adjuvants

27 se reduction through adsorption to aluminium hydroxide (Al) is a promising option, and establishing i

28 nge accompanied by precipitation of aluminum hydroxide allows progress of the cation exchange reactio

29 osphonates to allow adsorption onto aluminum hydroxide (alum), a formulation commonly used in vaccine

30 iocarbamate, a metal ionophore; and aluminum hydroxide (alum), an immunological adjuvant.

31 erichia coli or subcutaneously with aluminum hydroxide (Alum)-adsorbed rBet v 1.

32 ith MF59 (n=48), VaxGen rgp120 with aluminum hydroxide (alum; n=49), or placebo (n=19) between 0 and

33 Aqueous miscible organic layered double hydroxides (AMO-LDHs) can act as organophilic inorganic

34 nto the germ structure to 2.1 w/w of calcium hydroxide and 9h steeping time.

35 ts which indicated a first order reaction in hydroxide and a full negative charge in the rate-determi

36 spectroscopic studies of a 3:1 Ni:Fe layered hydroxide and a hydrous Fe oxide electrocatalyst.

37 ) is used that can recognize and extract the hydroxide and carbonate anions as their cesium salts, as

38 , to produce chalcones, is the final loss of hydroxide and formation of the C horizontal lineC bond.

39 lic aromatic substitution reactions with the hydroxide and hydrosulfide anions as nucleophiles are al

40 Under slightly basic conditions, hydroxide and hypochlorite are primary reactants and the

41 with the in situ generated nickel-iron oxide/hydroxide and iron oxyhydroxide catalysts at the surface

42 of the growth rate on the concentrations of hydroxide and metal ions is approximately linear and qua

43 s an accelerated digestion step using sodium hydroxide and nitric acid in combination to digest all o

44 Its component ions-hydroxide and protons-diffuse much faster than other ion

45 hat the main Cr-bearing product is a Cr(III)-hydroxide and that Fe remains in the clay structure afte

46 Primary alcohols have been reacted with hydroxide and the ruthenium complex [RuCl2(IiPr)(p-cymen

47 small set of adsorption reactions for uranyl hydroxide and uranyl carbonate complexes to surface site

48 tuning of the structure of transition-metal hydroxides and oxides by controlling chemical reactions

49 Controlled synthesis of transition-metal hydroxides and oxides with earth-abundant elements have

50 phy-tandem mass spectrometry (LC-MS/MS) were hydroxides and their keto tautomers, sulfates, sulfoxide

51 employed to fabricate well-defined iron oxy-hydroxides and transitional metal doped iron oxy-hydroxi

52 hepatitis B vaccine adjuvanted with aluminum hydroxide, and a human papillomavirus vaccine adjuvanted

53 mixed aggregate containing enolate, lithium hydroxide, and HMPA in a 4:2:4 ratio, [(LiOPin)4.(LiOH)2

54 insights on interactions among quartz, iron hydroxide, and metal ions.

55 resins, molecular complexes, layered double hydroxides, and pure inorganic and metal-organic materia

56 formaldehyde-, hydrogen peroxide-, citrate-, hydroxide- and starch-adulterated samples was implemente

57 aled that some fundamental properties of the hydroxide anion in those once thought straightforward re

58 the strong Lewis-acidic Zr(IV) and bridging hydroxide anions led to ultrafast half-lives for these s

59 Charge balancing is achieved by hydroxide anions, which are hydrogen bonded within the p

60 ADO) with hydrogen atom donors yields ferric hydroxide ((Ar) L)Fe(OH)(AZAD).

61 (kappa(1) -TEMPO) reacts to give a diferrous hydroxide [((Ar) L)Fe]2 (mu-OH)2 , the reaction of four-

62 , and selectivity for chloride, nitrate, and hydroxide are also reported.

63 tions, and lithium hydroperoxide and lithium hydroxide are identified as predominant discharge produc

64 Nickel-iron oxides/hydroxides are among the most active electrocatalysts fo

65 e important as Fe-containing Co- and Ni-(oxy)hydroxides are the fastest OER catalysts known.

66 the abundance of precipitated iron(III) (oxy)hydroxides, are hot spots for the removal and redissolut

67 guanidine, NaOEt, or benzyltrimethylammonium hydroxide as a base.

68 a family of thin-film transition metal (oxy)hydroxides as OER catalysts.

69 was present in the soil as Zn-layered double hydroxide, as tetrahedral and octahedral sorbed Zn speci

70 er, and involves a rate-limiting attack by a hydroxide at a MIDA carbonyl carbon.

71 itial deprotonation and nitrite elimination, hydroxide attachment accompanied by cycle cleavage, and

72 cts caused by a series of C-N bond ruptures, hydroxide attachments, and proton transfers.

73 ohol to the metal, beta-hydride elimination, hydroxide attack on the coordinated aldehyde, and a seco

74 irect switching occurs with triflic acid and hydroxide base.

75 ting the wings with the corresponding alkali hydroxide before spotting of analyte.

76 the study of silicate clays, layered double hydroxides, believed to be common on the early Earth, ha

77 rs due to reductive dissolution of Fe/Mn(oxy)hydroxides below the SWI.

78 Common descriptors such as the substrate-hydroxide binding energy and the interactions in the dou

79 equires an activation step, likely forming a hydroxide bridge at a dinuclear Mn(II) site.

80 ow that of type 1 Cu(II/I) by formation of a hydroxide-bridged binuclear complex, Mn(II)(mu-OH)Mn(II)

81 Inspired by biology, in which a bimetallic hydroxide-bridged zinc(II)-containing enzyme is utilized

82 cally controlled by the precipitation of REE hydroxides but also likely affected by the formation of

83 re as an intrinsic catalyst for oxidation of hydroxide by an inner-sphere mechanism.

84 eover, we found selective removal of Fe (oxy)hydroxides by aggregation at increasing salinity, while

85 duction of tolerance to proteins in aluminum hydroxide can be achieved in Foxp3-deficient mice using

86 num salts (i.e., up to ~1%, w/v, of aluminum hydroxide) can be converted into a dry powder by thin-fi

87 ncentrations of key chemical species such as hydroxide, carbonate and bicarbonate ions.

88 Other bases (e.g., hydroxide, carbonate) additionally contributed to the ob

89 Copper inorganic complexes (hydroxides, carbonates) played a role in metal bioavaila

90 Fe(4+) species were detected in the NiFe hydroxide catalyst during steady-state water oxidation,

91 These sterically crowded nickel and copper hydroxides catalyze the key aldol coupling reaction of a

92 The transition state for the hydroxide-catalyzed hydrolysis of 4-nitrophenyl alpha-d-

93 The hydroxide-catalyzed hydrolysis of aryl 1,2-trans-glycosi

94 Potassium hydroxide caused a total reduction of aflatoxins, while

95 th human and mouse DPCs treated with calcium hydroxide (CH) or mineral trioxide aggregate (MTA) showe

96 vel sorbent, lithium aluminum layered double hydroxide chloride (LDH), is synthesized and characteriz

97 (IV) and Mo(VI), are anchored as metal-oxide,hydroxide clusters to NU-1000 followed by Co(II) ion dep

98 with polyvinyl chloride (PVC) with lanthanum hydroxide co-precipitation.

99 Specifically, the Co-doped iron oxy-hydroxides (Co0.54Fe0.46OOH) show the excellent electroc

100 igated the stability of Cr(III)-Fe(III)-(oxy)hydroxides, common Cr(VI) remediation products, with a r

101 anoplates of cobalt-manganese layered double hydroxide (CoMn LDH) are a highly active and stable oxyg

102 h hydrogen-atom transfer, forming the copper hydroxide complex [LCuOH](*+) and concomitantly a CH2F(*

103 the challenge in preparing a suitable metal-hydroxide complex at the correct oxidation level.

104 Above this pH, the iron(IV) hydroxide complex transitions to a new species (pKa = 13

105 The hydroxide complex was found to be a competent electrocat

106 he rates of HAT by the corresponding Cu(III)-hydroxide complexes from substrates with C-H bonds of va

107 rn oil deterioration were 2.1 w/w of calcium hydroxide concentration and 9h of steeping time.

108 2.11min, 71.23 degrees C and 4.5g for sodium hydroxide concentration, extraction time, temperature, a

109 , the polymers provide AEMs with exceptional hydroxide conductivity at relatively low ion-exchange ca

110 An unprecedented hydroxide conductivity of 164.4 mS cm(-1) is obtained at

111 zed corn flours as a function of the calcium hydroxide content (from 0 to 2.1 w/w) and steeping time

112 1) to receive HPV 16/18 vaccine or aluminium hydroxide control, with an internet-based system.

113 Terminal hydroxide coordination to CuIV in the CuZ degrees interm

114 concentrated from the sample matrix via iron hydroxide coprecipitation and measured sequentially with

115 b the overall electronics of the copper(III)-hydroxide core and the resulting effects on the thermody

116 Here we examine the role that layered hydroxides could have played in prebiotic peptide format

117 s of environmental relevance, i.e., chromium hydroxide Cr(OH)3(s), chromium oxide Cr2O3(s), and coppe

118 tempts to recycle spent Cu/Fe layered double hydroxide (Cu/Fe-LDH) which is generated from the adsorp

119 give the S-nitrosothiol RSNO and copper(II) hydroxide [Cu(II)]-OH.

120 Metallic copper (Cu), cupric oxide/hydroxide (Cuox), and copper sulfide (CuxS) NPs were inv

121 thus detected against a low diethylammonium hydroxide (DEAOH) background (5-31 muS/cm) as negative p

122 confirm the positions of oxygen vacancy and hydroxide defect states within the optical band gap of i

123 rrelated to the number of oxygen vacancy and hydroxide defects present in the system.

124 with tert-butyl hydroperoxide and potassium hydroxide, demonstrating that this type of structure is

125 t, the nature of the reactants, an aluminium hydroxide dimer and silicic acid, second, the reaction p

126 ng in-lake P immobilization by aluminum (Al) hydroxide due to decreasing leaching of ionic Al from th

127 duction of dithiothreitol (DTT) and ammonium hydroxide, each disulfide-containing peptide eluted out

128 olycrystalline) electrodes in 0.1 M alkaline hydroxide electrolytes (LiOH, NaOH, KOH, RbOH, CsOH) bet

129 A suppressed hydroxide eluent anion chromatograph effluent flows thro

130 th the charge on the ion and (b) at the same hydroxide eluent concentration, retention is greatly dep

131 though CO2 introduction is possible prior to hydroxide eluent generation, this configuration causes c

132 oncentrations, paving the way for suppressed hydroxide eluent ion chromatography (IC), which is discu

133 , InsP4, InsP5, InsP6) was carried out using hydroxide eluent ion chromatography.

134 thin a factor of 2-3 of best case suppressed hydroxide eluent operation.

135 sulfate films in aqueous tetramethylammonium hydroxide enables extreme UV lithographic patterning of

136 , high-performance platinum-group-metal-free hydroxide exchange membrane fuel cell is hindered by the

137 ecently, however, an alternative technology, hydroxide exchange membrane fuel cells (HEMFCs), has gai

138 rformance in comparison to the pure iron oxy-hydroxide (FeOOH) catalysts, originate from the branch s

139 Hydroxide, formed when 1'' cleaves H2O, reacts rapidly w

140 n dispersed in an aqueous solution, aluminum hydroxide forms particulates of 1-20mum.

141 ent from that of freshly precipitated ferric hydroxide from ferric chloride solutions.

142 networked and layered structure of graphene hydroxide (GH) was investigated.

143 se of a tetramethylammonium hydroxide-sodium hydroxide gradient.

144 Here we report platinum-nickel hydroxide-graphene ternary hybrids as a possible solutio

145 Layered Fe(II)-Fe(III) hydroxides (green rusts, GRs) are promising reactants fo

146 mics of water's constituent ions, proton and hydroxide, has been a subject of numerous experimental a

147 Cobalt oxides and (oxy)hydroxides have been widely studied as electrocatalysts

148 enes, thromboxanes, isoprostanes, resolvins, hydroxides, hydroperoxides, coming from eicosapentaenoic

149 Results indicated that hydroxide, hypochlorite, and their protonated forms coul

150 The growth of Fe(III) hydroxide implies a volumetric change and a strain withi

151 The sample was introduced into the sodium hydroxide impregnated sample zone of the muPAD.

152 of epichlorohydrin with concentrated sodium hydroxide in hexane under phase transfer conditions has

153 reaction with methyl iodide and solid sodium hydroxide in methyl sulfoxide was used for the first tim

154 ine with and without gp140 boost in aluminum hydroxide in rhesus macaques.

155 N-O bond homolysis to ferrous or ferric iron hydroxides in the presence of 1,4-cyclohexadiene.

156 ed vaccine antigens formulated with aluminum hydroxide induced antibodies with opsonophagocytic and f

157 ions are needed for scission to occur, (ii) hydroxide-induced amide link scission is a strong functi

158 for the growth of peptides at layered double hydroxide interfaces in an early Earth environment.

159 r, to predict the mechanism of conversion of hydroxide ion (OH(-)) to OH(*) or H2O2 (hydrogen peroxid

160 hydronium ion is produced, the corresponding hydroxide ion adds to MV(2+) to form a covalently bound

161 The enzyme operates by hydroxide ion attack, which is intrinsically associated

162 mote the nucleophilic attack of a zinc-bound hydroxide ion onto the ceramide amide carbonyl.

163 pled with elimination of the benzylic OH (as hydroxide ion) gave zwitterions (formal m-quinone methid

164 c amide, regenerating SP after eliminating a hydroxide ion.

165 enzimidazoles (HMT-PMBI), charge balanced by hydroxide ions (IEC from 2.1 to 2.5 mequiv/g), and comme

166 atinum ultramicroelectrode (UME), generating hydroxide ions (OH(-)) by the oxygen reduction reaction

167 Barium, sodium, and hydroxide ions and water molecules are found in the chan

168 a high concentration of partially desolvated hydroxide ions around the bound guest arising from ion-p

169 fully prevent recombination of hydronium and hydroxide ions at 3-coordinate bridgehead sites.

170 This method relies on in situ formation of hydroxide ions by electro mediated water reduction at a

171 e, dynamics, and transport of the proton and hydroxide ions in different aqueous environments, rangin

172 low populated species such as hydronium and hydroxide ions in water.

173 azole in the cavity and (2) polar binding of hydroxide ions to sites on the cage surface, both of whi

174 Hydroxide ions were detected uniformly throughout the ox

175 ates aldehyde disproportionation promoted by hydroxide ions, which leads to the formation of the corr

176 rbed monomer dissociates and forms a pair of hydroxide ions.

177 tion of the tris(pyrazolyl)borate copper(II) hydroxide [(iPr2) TpCu]2 (mu-OH)2 with triphenylsilane u

178 nds on the amount of P-PONb present); and c) hydroxide is far less active against the above simulants

179 Iron hydroxide is found in a wide range of contexts ranging f

180 A bridging hydroxide is in optimal position for nucleophilic attack

181 ynergetic effect of nickel, colloidal nickel hydroxide islands, and the enhanced surface area of the

182 reatment confirmatory testing with potassium hydroxide (KOH) stain followed by periodic acid-Schiff (

183 ositively charged delaminated layered double hydroxide lactate nanosheets (LDH-lactate-NS) with a 0.5

184 igner, non-toxic, degradable, layered double hydroxide (LDH) clay nanosheets.

185 Layered double hydroxide (LDH) nanomaterial has emerged as a novel deli

186 rmed secondary Fe(II)-Al(III)-layered double hydroxide (LDH) phases during reaction with the Al-oxide

187 y demonstrates that ultrathin layered-double-hydroxide (LDH) photocatalysts, in particular CuCr-LDH n

188 Layered double hydroxide (LDH)-based nanomaterials are considered as pr

189 was immobilized in Mg2Al-NO3 Layered Double Hydroxides (LDH) and the electrochemical detection was a

190 Layered double hydroxides (LDHs) have been considered as effective phas

191 ic dyes from wastewater using layered double hydroxides (LDHs) through their formation is presented.

192 Layered double hydroxides (LDHs) with their highly flexible and tunable

193 eatures show that CuZ degrees has a terminal hydroxide ligand coordinated to CuIV, stabilized by a hy

194 u-oxo diamond core structure with a terminal hydroxide ligand to the Mn(IV).

195 e is pentacoordinate when ferrous and in the hydroxide-ligated form when ferric, even at neutral pH.

196 and lithium iodide (LiI) additives, lithium hydroxide (LiOH) being the predominant discharge product

197 ted electrochemical decomposition of lithium hydroxide (LiOH) likely occurs through a different mecha

198 ation of the epoxyglycidyl ether with sodium hydroxide may be operative and an alpha deprotonation fo

199 The hydroxide-mediated cleavage of ketones into alkanes and

200 ry measurements of the growth of a manganese hydroxide membrane in a microfluidic channel, and this e

201 for two extraction methods [methanol/sodium hydroxide (MeOH/NaOH) and methanol/ammonium hydroxide (M

202 hydroxide (MeOH/NaOH) and methanol/ammonium hydroxide (MeOH/NH4OH)].

203 tion metal oxides, silicates, layered double hydroxides, metal(iv) phosphates and phosphonates, espec

204 ntigens adsorbed on the traditional aluminum hydroxide microparticles of around 9.3mum.

205 reference peat soil material to an iron (oxy)hydroxide mineral surface.

206 dissolved organic matter (DOM) to metal (oxy)hydroxide mineral surfaces is a critical step for C sequ

207 ic matter (WEOM) for adsorption to iron (oxy)hydroxide mineral surfaces is an important factor in det

208 he environmentally significant carbonate and hydroxide mineral surfaces.

209 of rapid weathering of calcium silicate and hydroxide minerals derived from the demolition of concre

210 Layered (oxy) hydroxide minerals often possess out-of-plane hydrogen a

211 ith NS1 combined with aluminum and magnesium hydroxide, monophosphoryl lipid A + AddaVax, or Sigma ad

212 s, 2,2'-dipyridyl and tetra-n-butyl ammonium hydroxide (n-Bu4NOH or TBAH), are encapsulated in an eth

213 i0.18 Mn0.45 Co0.37 Ox ) or core-shell metal hydroxide nanoflowers ([Ni0.15 Mn0.15 Co0.7 (OH)2 ](NO3

214 oxides and transitional metal doped iron oxy-hydroxides nanomaterials, which show good catalytic perf

215 of amino acid (L-Cysteine) capped lanthanum hydroxide nanoparticles [Cys-La(OH)3 NPs] towards the fa

216 Fe(III) hydroxide nanoparticles are an essential carrier for aqu

217 at protein antigens adsorbed on the aluminum hydroxide nanoparticles induced a stronger antigen-speci

218 thermic interactions of Cu, Ni, and Rh oxide/hydroxide nanoparticles with the silicate and poor resis

219 Defect-rich ultrathin ZnAl-layered double hydroxide nanosheets are successfully prepared.

220 The incorporation of highly defective nickel hydroxide nanostructures is believed to play the decisiv

221 sulfonic acid (CHES) and 5 mmol L(-1) sodium hydroxide (NaOH).

222 ical component of record-activity Ni/Fe (oxy)hydroxide (Ni(Fe)OxHy) oxygen evolution reaction (OER) c

223 s the conversion of the film from nickel(II) hydroxide ([Ni(II)-OH](-)) to a higher valent nickel per

224 vel system of nickel-aluminum double layered hydroxide (NiAl-LDH) nanoplates on carbon nanotubes (CNT

225 cted ultrafine amorphous NiFe-layered double hydroxide (NiFe-LDH) (<5 nm) and nanocarbon using the mo

226 Ga(NO3)3 in HNO3) to avoid precipitation of hydroxides of the standard element and to obtain a stabl

227 monia coexist with their ionic counterparts, hydroxide (OH(-)) and ammonium [Formula: see text] ions.

228 multiple spectroscopic methods to react with hydroxide (OH(-)) but not with water molecules to produc

229 Hydroxide (OH(-))-exchange membranes (HEMs) are importan

230 proposal is the nucleophilic attack by water hydroxide on a pendant Mn horizontal lineO moiety, thoug

231 S) to quantify nucleation and growth of iron hydroxide on quartz in 0.1 mM Fe(NO3)3 solution in the p

232 the precipitation of positively charged iron hydroxide on quartz.

233 ission takes place by nucleophilic attack of hydroxide on the ketone followed by fragmentation of the

234 in as a model antigen adsorbed onto aluminum hydroxide or aluminum phosphate, a commercially availabl

235 Titration of indole with sodium hydroxide or ammonium hydroxide yields an increasing vis

236 y (ILIT) with MAT-Feld1 adsorbed to aluminum hydroxide or just aluminum hydroxide (placebo) in a doub

237 on, Bet v 1 COPs (50 and 100 mug in aluminum hydroxide) or placebo (saline and aluminum hydroxide) we

238 synthesis of well-dispersed amorphous cobalt hydroxide/oxide-modified graphene oxide (CoOxH-GO) posse

239 the interactions in the double layer between hydroxide-oxides and H---OH are found to control individ

240 This work explores the proton/hydroxide permeability (PH+/OH-) of membranes that were

241 anodic operation in 1.0 M aqueous potassium hydroxide (pH 14) in the presence of simulated sunlight,

242 ueous AlAl12(7+) ion to solid aluminum (oxy)-hydroxide phases, we found that this ion lies closer in

243 ts role as a precursor to amorphous aluminum hydroxide phases.

244 with the recent determination of an iron(IV)hydroxide pK(a) approximately 12 in the thiolate-ligated

245 orbed to aluminum hydroxide or just aluminum hydroxide (placebo) in a double-blind setting.

246 , polyhydroxylethylmethacrylate, and calcium hydroxide (PPCH) plus polyanhydride (PA); PPCH graft; an

247 is is likely due to the formation of a Np(V) hydroxide precipitate preventing incorporation into the

248 hese regimes created similar Cr(III)-Fe(III) hydroxide precipitates as the predominant Cr(VI) reducti

249 formation of nickel aluminium-layered double hydroxide precipitates at the mineral-water interface in

250 Aggregates (flocs) of hydroxide precipitates can be rather weak and are easily

251 Particularly, iron hydroxide precipitation on mineral surfaces can immobili

252 e functionalized MMSNs were uranyl or uranyl hydroxide, rather than uranyl carbonates as expected.

253 n interface methods in iron-sulfide and iron-hydroxide reaction systems.

254 lkene intermediate which, upon activation by hydroxide, reacts with a second aldehyde to the unsymmet

255 Layered-double hydroxides remained stable during extractions and repres

256 lutes capable of forming complexes with iron hydroxides retarded Fe(VI) decay.

257 e than one U(VI) species (UO2(2+) and uranyl hydroxide(s) and/or carbonate(s)) and calculated the res

258 Moreover, unlike resins and layered double hydroxides, SBN is fully reusable and displays 96% regen

259 ells transferred in vivo to OVA and aluminum hydroxide-sensitized mice also maintained IL-17 secretio

260 an oxygen vacancy and a Lewis basic surface hydroxide site in In2O3-x(OH)y become more acidic and ba

261 ion through the use of a tetramethylammonium hydroxide-sodium hydroxide gradient.

262 l ligands on the dissolution of Cr(III)-(oxy)hydroxide solids and associated Cr isotope fractionation

263 -soluble pectin fraction (DASS), a 1M sodium hydroxide-soluble hemicellulose fraction (1MASS), a 4M s

264 hemicellulose fraction (1MASS), a 4M sodium hydroxide-soluble hemicellulose fraction (4MASS) and a c

265 uble pectin fraction (ChSS), a dilute sodium hydroxide-soluble pectin fraction (DASS), a 1M sodium hy

266 and CO2 collected by absorption into sodium hydroxide solution provide excellent time-integrated rec

267 a derivatization with an ethanolic potassium hydroxide solution resulted in fluorescent coumarin zone

268 parabens from chloroform into a 50mM sodium hydroxide solution within 10s facilitated their direct i

269 bated in either phosphate buffer or ammonium hydroxide solutions at 40 and 60 degrees C for up to 48h

270 ircumvents the slow dissociation of a ferric hydroxide species, which slows down native CcO (bovine 5

271 anically complexed Fe, and colloidal Fe (oxy)hydroxides, stabilized by surface interactions with OM.

272 determined that HPC-II exists in an iron(IV) hydroxide state up to pH 11.

273 prepare phenols with benzaldehyde oxime as a hydroxide surrogate.

274 g force between orthophosphate and iron (oxy)hydroxide that was coated onto atomic force microscopy (

275 a rational synthesis of X-ray amorphous IrOx hydroxides that contain a favorable arrangement of struc

276 Upon addition of 1 equiv of sodium hydroxide, the [Co(III)4] cubane is regenerated with sto

277 thylacetal (DMF-DMA) and tetramethylammonium hydroxide (TMAH) as methylating agents.

278 um pyrophosphate (TSPP), tetramethylammonium hydroxide (TMAH)), soil-to-reagent ratio, homogenization

279 ngle- or multiple-component transition-metal hydroxide (TMH) nanosheets with thickness below 5 nm.

280 p elimination reaction of benzisoxazole with hydroxide to form 2-cyanophenolate) in the cavity of a w

281 ne, which was further treated with potassium hydroxide to get stable colored complex.

282 hase transformation from amorphous iron (oxy)hydroxide to goethite, resulting in pyrite surface passi

283 Under electron irradiation, iron hydroxide transforms to iron oxide, during which bubbles

284 HA(3x)-IAA1 proteins was sensitive to sodium hydroxide treatment, indicative of ubiquitin oxyester fo

285 maize samples were incubated with potassium hydroxide, trifluoromethanesulfonic acid and several enz

286 ion with tetanus toxoid adsorbed to aluminum hydroxide (TT/Alum).

287 ple (previously alkalinized with 0.5% sodium hydroxide) using 5mL acetonitrile.

288 f K(g) concentrations in saturated potassium hydroxide vapor in the temperature range 950-1200 K show

289 Potassium hydroxide was deposited on the muPADs (0.5 muL, 1.5 M),

290 Preformed ferric hydroxide was less effective than freshly dosed ferric c

291 s, epoxides and aldehydes); the formation of hydroxides was clearly favoured over that of hydroperoxi

292 part of the testing, hydrated lime (calcium hydroxide) was injected upstream of the scrubber.

293 Surfactant-free mixed-metal hydroxide water oxidation nanocatalysts were synthesized

294 basic pH cis-12-OH-TBOH decayed quickly via hydroxide/water addition, behavior that theory attribute

295 m hydroxide) or placebo (saline and aluminum hydroxide) were administered as 5 subcutaneous injection

296 al ions that balanced OH(-), producing metal hydroxide, which transformed CO2 in situ into (bi)carbon

297 o-located with aluminium and iron oxides and hydroxides, which are known to strongly adsorb P.

298 nalization (SUCNs-SF) converted from layered hydroxides with inheritance of included anion groups (OH

299 of indole with sodium hydroxide or ammonium hydroxide yields an increasing visible fluorescence as w

300 midazolate framework-67/Ni-Co layered double hydroxides yolk-shelled structures are first synthesized