ライフサイエンスコーパス: antimony

1 t sample spiked with 1 mug g(-1) arsenic and antimony.

2 veloped for the extraction and speciation of antimony.

3 sure to the trivalent metalloids arsenic and antimony.

4 leishmaniasis (CL) treated with pentavalent antimony.

5 ucing near-cure by itself and synergism with antimony.

6 tes (NBSs) and a binding site for arsenic or antimony.

7 tivated by salts of the semimetal arsenic or antimony.

8 on arsenic, chromium, selenium, mercury, and antimony.

9 logical fitness once they are exposed to the antimony.

10 spectrometry (ICP-MS) for the speciation of antimony.

11 Antimony-119 ((119)Sb) is one of the most attractive Aug

12 Antimony 2.4 and JSim 2.10 provide translation capabilit

13 Urinary antimony (2.69%, 0.45, 4.99) and mercury (1.91%, 0.42, 3

14 to anthropogenic releases from waste rich in antimony, a component used in batteries, electronics, am

15 ontrast, drug-resistant parasites exposed to antimony activated a highly selective translation of onl

16 Antimony-alloyed bismuth vanadate, which is identified a

17 For films containing 75% antimony and 25% iron, the metastable compound FeSb(3) w

18 with composition between 70 and 90 atomic % antimony and below this critical layer thickness, the me

19 Low-valent antimony and bismuth have emerged as novel platforms for

20 en stibnite (Sb2S3) into pure (99.9%) liquid antimony and sulfur vapour.

21 L-DLLME) method for preconcetration of trace antimony and tin in beverage samples.

22 or osmium; and X is phosphorus, arsenic, or antimony) and represent a new approach to creating impro

23 red at mercury electrodes (except of copper, antimony, and bismuth itself).

24 Mercury, arsenic, manganese, antimony, and crystalline silica exposures pose addition

25 -block elements such as phosphorus, arsenic, antimony, and even bismuth.

26 lated, and permethylated species of arsenic, antimony, and tin is described using Tedlar bags.

27 exafluorophosphate salts, and 3) fluorinated antimony- and arsenic- compounds.

28 into the alloying mechanism of high-capacity antimony anodes for sodium-ion batteries.

29 n trivalent inorganic arsenic (arsenite) and antimony (antimonite), we hypothesized that common intra

30 compensated by oxygen only, as the iron and antimony are both very close to their pristine states.

31 The trivalent lanthanides and pentavalent antimony are found to be fully ordered in the double-per

32 Because arsenic and antimony are related metalloids, and arsenical resistant

33 These represent the first antimony argyrodites to date.

34 and cadmium while positively associated with antimony, arsenic and lead.

35 acterial taxa were associated with levels of antimony, arsenic, and mercury, after adjusting for mult

36 , and vanadium), and 12 with known toxicity (antimony, arsenic, barium, beryllium, cadmium, cesium, l

37 Metal/metalloid levels, including aluminum, antimony, arsenic, cadmium, cobalt, chromium, copper, ir

38 media illustrate the favorable attributes of antimony as a central element.

39 transformation illustrates the viability of antimony as an element from which a halogen can be photo

40 Consequentially, the desire to use zinc and antimony as framework elements to encage rattling cation

41 The presence of antimony, as a dopant in the colloidal growth reaction f

42 crystallized from indium droplets exposed to antimony, as well as their interface with a GaAs (100) s

43 D40 and anti-CTLA-4 synergistically enhanced antimony-associated killing.

44 correlated to the +V oxidation state of the antimony atom as the parent trivalent stibines show no h

45 a selective catalysis strategy to stabilize antimony atom-cluster (Sb(SA-AC)) anode/electrolyte inte

46 tic properties of unpinned Dirac states make antimony atomic layers a new type of 2D Dirac semimetals

47 the observation of novel 2D Dirac states in antimony atomic layers with phosphorene structure.

48 The performances of these antimony-based Lewis acids in the domain of anion sensin

49 now targeting complexes bearing polycationic antimony-based Z-type ligands.

50 astically hinders the development of aqueous antimony batteries.

51 Bismuth-antimony (Bi-Sb) alloy is a promising material for therm

52 in a microfluidic device with an integrated antimony/bismuth thermopile sensor and had a limit of de

53 to report one-, two- and three-fold thorium-antimony bonds, thus introducing polar covalent actinide

54 The relative bioavailability of arsenic, antimony, cadmium, and lead for the ingestion pathway wa

55 ollections in 1990, 1996, and 1999: arsenic, antimony, cadmium, chromium, lead, manganese, mercury, a

56 In this work, the concentrations of Arsenic, Antimony, Cadmium, Chromium, Lead, Selenium and Vanadium

57 Pure micrometric antimony can be successfully used as negative electrode

58 ate (PAT) and, more importantly, pentavalent antimony-carbohydrate complexes, such as sodium stiboglu

59 nfluence of the dopant on shape is indirect; antimony catalyzes the incorporation of gallium, which i

60 introduction of organic substituents to the antimony center and its oxidation from the + III to the

61 T-shaped geometry and is separated from the antimony center by only 2.76 A.

62 The increased coordination number of the antimony center in this anionic complex ([2](-)) does no

63 Bindung of the fluoride anion to the antimony center induces a change in denticity of the tri

64 einforced by the dicationic character of the antimony center.

65 chloride ligand by the adjacent Lewis acidic antimony center.

66 ed chalcogen bonds are at least as active as antimony-centered pnictogen bonds, whereas iodine-center

67 gives rise to the first example of a neutral antimony-centered radical characterized in solution.

68 rms fluoride anion chelation between the two antimony centers.

69 le or no bulky-substituent protection at the antimony centre.

70 en initiated by the discovery of bismuth and antimony chalcogenide bulk topological insulators (TIs;

71 e synthase reactivity, and responsiveness to antimony chemotherapy were also enhanced in knockout mic

72 Ab-induced killing, including synergism with antimony chemotherapy, required endogenous IL-12 and/or

73 pleen cells, and (v) a deficient response to antimony chemotherapy.

74 izes reactive Sb(3+) ions via forming robust antimony-chloride complexes.

75 the distibene complex results in loss of the antimony-component and multimetallic activation and clea

76 n of LmAQP1 provides resistance to trivalent antimony compounds and increased expression of LmAQP1 in

77 Pentavalent antimony compounds have been the mainstay of antileishma

78 n of LmAQP1 provides resistance to trivalent antimony compounds whereas increased expression of LmAQP

79 air toxics such as acrylic acid, phosphine, antimony compounds, and benzyl chloride was associated w

80 ultiple bonds are more covalent than thorium-antimony congeners, due to superior spatial and energy m

81 These experiments suggest that antimony containing arylstibonic acids are promising lea

82 Here we report a group of pentavalent antimony-containing small molecule compounds, NSC 13778

83 After 1 course of antimony, cure was achieved in 73% of patients with norm

84 covered, whereas the source of the desirable antimony-decolourised Roman glass remains an enigma.

85 , while the ratio of potassium and cesium to antimony decreased rapidly within the film.

86 esponding doubly bonded, neutral arsenic and antimony derivatives.

87 e, whereas three-electron reduction gives an antimony diatomic species capped by two carbenes.

88 cally to the layers with sulfonate oxygen to antimony distances beyond the covalent range.

89 The zinc oxide-capped, antimony-doped Bi(2)Se(3) nanostructures provide an attr

90 Here we report an increased performance for antimony-doped lead selenide with a thermoelectric figur

91 MOSI) that stabilized the metal particles on antimony-doped tin oxide (ATO) in sustained lower Ir oxi

92 is a charged oxygen species, incorporated in antimony-doped tin oxide supports can effectively contro

93 tural redox partner (putidaredoxin) using an antimony-doped tin oxide working electrode.

94 port the surface-state-dominant transport in antimony-doped, zinc oxide-encapsulated Bi(2)Se(3) nanor

95 dramatic differences in mRNA translation in antimony drug-resistant and sensitive strains at the ful

96 Upon infecting macrophages separately with antimony drug-sensitive and -resistant L. donovani, we n

97 ation with two pH-metric catheters contained antimony electrodes - the distal was positioned 3 cm abo

98 us and -arsenic multiple bonds, and none for antimony, even in spectroscopic scenarios.

99 nce of various variables and their impact on antimony extraction using different statistical tools AN

100 The Dirac states in the antimony films are located at generic momentum points.

101 osphatases in resistance to methotrexate and antimony, for ergosterol and phospholipid metabolism gen

102 ation but mechanically prevents shrinkage as antimony forms voids during delithiation.

103 performance, stability and variability make antimony ([Formula: see text]) a promising contact techn

104 idization of energy bands with semi-metallic antimony ([Formula: see text]) through strong van der Wa

105 r spatial and energy matching of uranium and antimony frontier orbitals, but comparison to isostructu

106 he addition of small amounts (~0.25 mol%) of antimony generates extensive nanoscale precipitates, whe

107 r more full courses of treatment with sodium antimony gluconate (SAG).

108 interferon-gamma (IFN-gamma; n = 9), sodium antimony gluconate (SAG; n = 8), or amphotericin B lipid

109 new family of phase change material based on antimony has recently been explored for applications in

110 Silver(I) ethylxanthate [AgS(2)COEt] (1) and antimony(III) ethylxanthate [Sb(S(2)COEt)(3)] (2) have b

111 Antimony(III) is a rare electroactive specie present on

112 xanthato)copper(II) and tris(O-ethylxanthato)antimony(III), without the use of solvent or capping lig

113 ACN/H(2)O and MeOH/H(2)O, revealed that the antimony(III)-tartrate dianion associates to solvent rea

114 ation-mass spectrometry (ESI-MS) analysis of antimony(III)-tartrate in frequently used solvent system

115 tavalent salts of the metalloids arsenic and antimony in cells of Escherichia coli.

116 tavalent salts of the metalloids arsenic and antimony in cells of Escherichia coli.

117 veloped for the determination of arsenic and antimony in fish samples by using Fe3O4 magnetic nanopar

118 ted for the extraction and identification of antimony in food and water samples using hydride generat

119 antimony species in water samples and total antimony in fruit juices.

120 responsible for reduction of the pentavalent antimony in Pentostam to the active trivalent form of th

121 of halogen bonds to phosphorus, arsenic and antimony in the solid state.

122 the trivalent inorganic forms of arsenic and antimony into cells of Escherichia coli is facilitated b

123 A solid phase extraction method using antimony ion imprinted polymer (IIP) sorbent combined wi

124 Antimony is one of the hydrogen evolution poison and cop

125 The toxicity of the metalloids arsenic and antimony is related to uptake, whereas detoxification re

126 Pentavalent antimony is the conventional treatment; however, resista

127 Antimony K-edge EXAFS spectroscopy indicates that these

128 Antimony K-edge EXAFS spectroscopy revealed that surface

129 Antimony K-edge EXAFS spectroscopy reveals coprecipitati

130 Antimony K-edge extended X-ray absorption fine structure

131 The Antimony language provides a way for a researcher to use

132 the initial interdiffusion between iron and antimony layers in an elementally modulated reactant res

133 ultaneous determination of selenium, silver, antimony, lead, and bismuth in liquid microsamples (20 m

134 elements (arsenic, barium, nickel, cadmium, antimony, lead, mercury, aluminium) were determined by I

135 ode, a molten salt electrolyte, and a liquid antimony-lead alloy positive electrode, which self-segre

136 Here we describe a lithium-antimony-lead liquid metal battery that potentially meet

137 rix complexity of fruit juices and their low antimony level requires sensitive, cost-effective instru

138 ncident and prevalent patients' chromium and antimony levels exceeded established accepted upper limi

139 Further, antimony levels were associated with the presence of dec

140 sigma-accepting properties of the dicationic antimony ligand and its activating impact on the gold ce

141 trate that the coordination non-innocence of antimony ligands can be exploited for the purpose of ele

142 A high-temperature (700 degrees C) magnesium-antimony (Mg||Sb) liquid metal battery comprising a nega

143 Antimony migration from polyethylene terephthalate (PET)

144 ethotrexate and five major antileishmanials (antimony, miltefosine, paromomycin, amphotericin B, and

145 let > quinaldine red > ascorbate reduction > antimony-modified ascorbate reduction, although only a f

146 ched in trace metal(loid)s, such as arsenic, antimony, molybdenum, and tungsten.

147 ical calculations suggest that these uranium-antimony multiple bonds are more covalent than thorium-a

148 in a half-cell configuration in which 15-nm antimony nanocrystals have a consistently higher Coulomb

149 microscopy, we show that sufficiently small antimony nanocrystals spontaneously form uniform voids o

150 Thus, antimony naturally evolves to form optimal nanostructure

151 of a composite of crystalline and amorphous antimony networks.

152 Substituting antimony or bismuth for lead achieves maximum power fact

153 Cadmium doped antimony oxide (Cd-doped Sb2O4) nanostructures (CAO-NSs)

154 For the present compound, the antimony oxide hydroxide layers are positively charged a

155 The as-obtained ultrathin antimony oxide single crystals exhibit high dielectric c

156 ccessfully synthesize high-quality ultrathin antimony oxide single crystals via a substrate-buffer-co

157 te oxidase (Aio) in complex with arsenic and antimony oxyanions and the structures determined corresp

158 For tungsten and antimony, oxyanions typically dominated and thioanions w

159 , we show that topological surface states of antimony penetrate such barriers with high probability.

160 using a variety of chemical oxidants such as antimony pentachloride and triethyloxonium and nitrosoni

161 with the liquid superacid hydrofluoric acid-antimony pentafluoride (HF-SbF5) under pressure and was

162 aromatic-acid chlorides with the Lewis acids antimony pentafluoride and pentachloride, gallium trichl

163 of the precipitates as two different calcium-antimony phases (Ca2Sb2O7).

164 of iridium, osmium, helium, gold, ruthenium, antimony, platinum, palladium, rhenium, rhodium and chro

165 At the bottom of the cell liquid antimony pools beneath cathodically polarized molten sti

166 A series of antimony porphyrins with varying axial ligands were synt

167 and molybdates ions where ascorbic acid and antimony potassium tartrate are added and serve as reduc

168 sphorus without the use of ascorbic acid and antimony potassium tartrate as reducing agents (as used

169 s, such as sodium arsenite, sodium arsenate, antimony potassium tartrate, and cadmium chloride.

170 emistry and maximizing the reactivity of the antimony precursor.

171 in cross-resistance to the related metalloid antimony, present in the pentavalent state as a complex

172 t for the separation and preconcentration of antimony prior to its determination by ET-AAS.

173 r lead (Ptrend = 0.10), 1.72 (1.27-2.33) for antimony (Ptrend < 0.01), 0.76 (0.51-1.13) for thallium

174 Antimony reacted to give a solid which analyzed as Sb(OM

175 el analysis, and translation between XML and Antimony representations of SBML models.

176 he goal of this study was to find markers of antimony resistance in Leishmania donovani clinical isol

177 gle nucleotide variants were associated with antimony resistance.

178 l drugs (antimony sensitive strain Sb-S; and antimony resistant Sb-R).

179 The genomes of sensitive and antimony-resistant clinical isolates were sequenced.

180 tion activity both in the drug sensitive and antimony-resistant L. donovani clinical isolates.

181 The emergence of antimony-resistant L. donovani strains appears to be a c

182 Infection with antimony-resistant Leishmania donovani (Sb(R)LD) induces

183 The molecular mechanism of antimony-resistant Leishmania donovani (Sb(R)LD)-driven

184 reatment in kala-azar patients infected with antimony-resistant Leishmania donovani (Sb(R)LD).

185 rinking water in this region has resulted in antimony-resistant Leishmania parasites.

186 nucleotide insertion in its AQP1 gene led to antimony-resistant parasites.

187 ian kala-azar might be due to infection with antimony-resistant strains of Leishmania donovani has no

188 replication was unrestrained, and except for antimony responsiveness, measured Th1 cell-dependent eve

189 The antimony-rich precipitates are endotaxial in lead seleni

190 This demonstration of the extended nature of antimony's topological surface states suggests that such

191 efficient ligand exchange strategy, using an antimony salt, to displace organic ligands from the surf

192 complexing agent increases the solubility of antimony salts and shifts the reduction potentials of co

193 leishmaniasis (CL) in Brazil by pentavalent antimony (Sb v) is associated with a high rate of failur

194 ania braziliensis in Brazil with pentavalent antimony (Sb(v)) is associated with a high rate of failu

195 a difficult to cure disease and pentavalent antimony (Sb(v)) is used as standard treatment, its high

196 r indication of the presence of silver (Ag), antimony (Sb) and sulfur (S) in material, suggesting tha

197 chromium (Cr), arsenic (As), selenium (Se), antimony (Sb) and uranium (U) mobility during a series o

198 the same response also permits conventional antimony (Sb) chemotherapy to express its leishmanicidal

199 rasite killing, and synergy with pentavalent antimony (Sb) chemotherapy.

200 mania donovani infection and the efficacy of antimony (Sb) chemotherapy.

201 atomic-resolution observation of individual antimony (Sb) dopant atoms in crystalline Si, and identi

202 an important scavenger for arsenic (As) and antimony (Sb) in acid mine drainage (AMD) and acid sulfa

203 Antimony (Sb) in lead bullets poses a major environmenta

204 lfur (S), selenium (Se), tellurium (Te), and antimony (Sb) in the silicate Moon can instead reflect c

205 Antimony (Sb) is a metalloid that has been exploited by

206 The environmental mobility of antimony (Sb) is controlled by interactions with iron (F

207 for which systemic therapy with pentavalent antimony (Sb) is effective but with side effects.

208 Foods produced on soils impacted by antimony (Sb) mining activities are a potential health r

209 Among them, antimony (Sb) stands out with a high capacity (660 mAh g

210 imonial drugs and higher elimination rate of antimony (Sb) than adults.

211 osphide (GaP) when alloyed with just 1-2 at% antimony (Sb) utilizing both density functional theory b

212 effect of conventional therapy, pentavalent antimony (Sb), also requires T cells and endogenous IFN-

213 luted, and (iii) leishmanicidal responses to antimony (Sb), amphotericin B (AmB), and miltefosine wer

214 Peatlands and other wetlands are sinks for antimony (Sb), and solid natural organic matter (NOM) ma

215 lid-state reaction that used trace elements [antimony (Sb), bismuth (Bi), lead, or tellurium] to stab

216 ironment, determinations of arsenic (As) and antimony (Sb), is of unquestionable importance.

217 f toxic metalloids, such as arsenic (As) and antimony (Sb), on larval amphibians are not well-underst

218 g), nickel (Ni), molybdenum (Mo), lead (Pb), antimony (Sb), tin (Sn), and thallium (Tl) were measured

219 igh intrinsic mobility of holes in monolayer antimony (Sb), which is ~1330 cm(2) V(-1) s(-1) at room

220 r arsenic (As), cadmium (Cd), lead (Pb), and antimony (Sb).

221 he release of formaldehyde, acetaldehyde and antimony (Sb).

222 organic matter (NOM) are important sinks for antimony (Sb).

223 nd sediments that can interact strongly with antimony (Sb).

224 ss to conventional chemotherapy (pentavalent antimony [Sb]) requires a T-cell-dependent mechanism.

225 ent inherent resistance to antimonial drugs (antimony sensitive strain Sb-S; and antimony resistant S

226 inant Wnt5a caused a decrease in the load of antimony-sensitive and -resistant parasites, thus confir

227 and amastigote forms of Sb(R)LD, but not the antimony-sensitive form of LD, express a unique glycan w

228 e mammalian hosts as compared with ones with antimony-sensitive L. donovani (Sb(S)LD) infection.

229 SbTe(m+2) or LAST-m materials (LAST for Lead Antimony Silver Tellurium) with different m values at th

230 Porous carbon nanofiber (CNF)-supported tin-antimony (SnSb) alloys are synthesized and applied as a

231 To assess toxicity, antimony speciation was performed by HPLC-ICP-MS and HG-

232 MeSnH3, Me2SnH2, Me3SnH, Me4Sn, BuSnH3), and antimony species (SbH3, MeSbH2, Me2SbH, Me3Sb) have been

233 tical preconcentration/speciation method for antimony species determination in bottled mineral water

234 nt extraction (CPE) for the determination of antimony species in biological and beverages samples has

235 y applied to the speciative determination of antimony species in the samples.

236 successfully applied to the determination of antimony species in water samples and total antimony in

237 In this study, antimony species such as antimonite [Sb(III)], antimonat

238 The antimony species were individually detected by FAAS.

239 ynthesis, separation and preconcentration of antimony such as desorption solvent type, concentration

240 An evaluation using submicrometer antimony suggests that our emission estimates are reason

241 t the novel synthesis of tetrahedrite copper antimony sulfide (CAS) nanocrystals (Cu12Sb4S13), which

242 Copper antimony sulfide (Cu-Sb-S) has recently been proposed as

243 Copper antimony sulfide (CuSbS2) is a ternary layered semicondu

244 Here, we report a wide-bandgap PCM antimony sulfide (Sb(2)S(3))-clad silicon photonic platf

245 nol and tetracene, or poisonous agents, like antimony sulfide and barium nitrate, are also used.

246 2)S(3)) and several phases of ternary copper-antimony-sulfide (Cu(2x)Sb(2(1-x))S(y), where 0 <= x <=

247 nstructed the CuSn alloy co-catalysts on the antimony sulfides with a highly selective PEC ammonia an

248 Chemotherapy with trivalent potassium antimony tartrate (PAT) and, more importantly, pentavale

249 the quaternary ammonium analogue, tetrabutyl antimony (TBSb), a compound that is sufficiently electro

250 vice made of our material and p-type bismuth antimony telluride (Bi(0.5)Sb(1.5)Te(3)) has produced a

251 ermoelectric figure of merit (ZT) in bismuth antimony telluride (BiSbTe) bulk alloys has remained aro

252 g the crystallization of amorphous germanium antimony telluride (Ge2Sb2Te5).

253 on of radial heterostructures composed of an antimony telluride (Sb2Te3) core and a germanium telluri

254 The scandium antimony telluride (Sc0.2Sb2Te3) compound that we design

255 We report results for both bismuth telluride/antimony telluride and chromel/alumel structures as exam

256 c nanocrystals functionalized with molecular antimony telluride complexes belonging to the family of

257 p into the bulk of pure and Cr-doped bismuth antimony telluride films, we provide signatures related

258 Heterostructures that consist of a germanium antimony telluride matrix and cobalt germanide precipita

259 While electrodeposited antimony telluride thin films with silver contents demon

260 ase compaction in Bi(0.5)Sb(1.5)Te3 (bismuth antimony telluride) effectively scatter midfrequency pho

261 ptimizing doping and annealing conditions of antimony tellurides for near-room-temperature thermoelec

262 these materials (particularly the germanium antimony tellurium alloy Ge2Sb2Te5) exploited the revers

263 , cadmium, cobalt, cesium, molybdenum, lead, antimony, thallium, tungsten, and uranium with diabetes

264 uranium moving from phosphorus to arsenic to antimony the spatial overlap term reduces but the orbita

265 Antimony therapy with Glucantime (Sanofi-Aventis; 20 mg/

266 The efflux of antimony through multidrug resistance protein (MDR)-1 is

267 obabilities of topological surface states of antimony through naturally occurring crystalline steps s

268 uctive metal oxide film--indium tin oxide or antimony tin oxide--coated with a thin outer shell of Ti

269 first sodiation breaks down the crystalline antimony to form first a-Na(3-x)Sb and, finally, crystal

270 hifts the reduction potentials of copper and antimony toward each other, enabling the direct depositi

271 A retrospective field study on a cohort of antimony-treated patients with VL was performed in an ar

272 ssembly, high-level infection persisted, and antimony-treated transgenic mice also relapsed.

273 ant predictors of the failure of pentavalent antimony treatment for cutaneous leishmaniasis caused by

274 Antimony trihalide catalysis was highly beneficial.

275 serve as a novel route for the production of antimony trioxide microcrystals of commercial significan

276 of antimonite [Sb(III)] as microcrystals of antimony trioxide.

277 Technetium-99m-antimony trisulfide colloid was the radiopharmaceutical

278 Molybdenum, antimony, tungsten, and uranium were positively associat

279 Molybdenum, antimony, tungsten, and uranium were positively associat

280 rasite load, observed in hosts infected with antimony-unresponsive-LD (LD-R) as compared to their sen

281 [Sb(III)], antimonate [Sb(V)] and trimethyl antimony(V) (TMeSb) were separated in less than 8min usi

282 ,beta-tetraolate ligand that bridges the two antimony(V) centers.

283 e with a bidentate Lewis acid containing two antimony(V) centers.

284 uction with alkali metals and oxidation with antimony(V) halides, respectively.

285 Antimony(V) reduction in Searsville Lake sediments was n

286 rolled protonolysis and reduction of the bis(antimony(V)) alpha,alpha,beta,beta-tetraolate complex ba

287 tion of the often considered electroinactive antimony(V).

288 Total antimony was determined after the reduction of Sb(V) to

289 Total antimony was determined with previous sample treatment u

290 An inverse association for antimony was observed among non-Hispanic Black women.

291 By tuning the ratio of bismuth to antimony, we are able to reduce the bulk carrier density

292 Higher quartiles of barium, molybdenum, and antimony were associated with greater HOMA of insulin re

293 ated elemental reactants containing iron and antimony were found to react at low temperature (T < 200

294 Limits of detection for arsenic and antimony were in the range of 0.01-0.06 mug g(-1) and 0.

295 Arsenic, cadmium, manganese, lead, and antimony were measured in urine collected during pregnan

296 nsically elevated Lewis acidic properties of antimony, which greatly favor the addition of halide ani

297 Antimony, which has damaging effects on the human body a

298 re required for the sodiation of crystalline antimony, which reacts to form a-Na(3-x)Sb without the f

299 to respond to antileishmanial chemotherapy (antimony), while in normal animals, anti-CD40 and anti-C

300 ng a high-melting-point, high-voltage metal (antimony) with a low-melting-point, low-cost metal (lead

301 By tuning the molar ratio of copper and antimony xanthates, single-phases of either chalcostibit