ライフサイエンスコーパス: cesium

1 between the sym-triazine radical cation and cesium.

2 its remarkable ion-exchange selectivity for cesium.

3 m or the permeability of calcium relative to cesium.

4 g altered current kinetics and inhibition by cesium.

5 el blockers barium and amantadine but not by cesium.

6 NH4 subset Rh4Ru3 has a higher affinity for cesium.

7 activated GIRK currents that were blocked by cesium.

8 ective potassium channel blockers barium and cesium.

9 nteraction studies in atomic systems such as cesium.

10 Iheat) that is antagonized by extracellular cesium.

11 ion and increased permeability to sodium and cesium.

12 inc but increased with the monovalent cation cesium.

13 local application of the Ih channel blocker, cesium.

14 thin-film systems containing corannulene and cesium.

15 ommendation can be made for or against using cesium-131 or HDR monotherapy.

16 The methodology, which has been applied to cesium-134 and cesium-137 deposits within 80-km of the n

17 significant fission product radionuclides of cesium ((135)Cs and (137)Cs) at concentrations found in

18 The largest concern on the cesium-137 ((137)Cs) deposition and its soil contaminati

19 Cesium-137 ((137)Cs) with a half-life of 30.1 y causes t

20 -Dawley rats were exposed to 10 Gy WBI using Cesium-137 as the radiation source.

21 with stage IIB or IIIB disease treated with cesium-137 brachytherapy followed by a parametrial exter

22 gy, which has been applied to cesium-134 and cesium-137 deposits within 80-km of the nuclear site, pr

23 mg/kg diet) and radiation exposure (0.375 Gy cesium-137 every other day for 16 d) on markers of oxida

24 e light from a synchrotron X-ray source or a cesium-137 gamma-ray source.

25 e light from a synchrotron X-ray source or a cesium-137 gamma-ray source.

26 We first tested cytotoxicity of cesium-137 irradiation plus venetoclax in 14 B-NHL cell

27 efficiency of 3.9% measured with an intense cesium-137 source.

28 Cesium-137 was deposited mostly in Pacific and Atlantic

29 We report here that treatment of cesium-137-irradiated Ptch1+/- mice with immunosuppressi

30 Lithium, sodium, potassium, rubidium, and cesium 2-benzoyl-1,1,3,3-tetracyanopropenides were chara

31 blocked by the extracellular application of cesium (3-9 mM) or ZD 7288 (10-100 microM) but was insen

32 Extracellular application of cesium (3-9 mM) or ZD 7288 (25-100 microM) blocked Ih an

33 In the presence of 2 mmol/L cesium, a blocker of I(f), the rebound decrease in pacem

34 Intracellular perfusion of cesium acetate (CsAc) and the sodium/potassium channel b

35 Cesium acetate was employed as a cationizing agent.

36 We concluded that cesium actions on LTD and cesium-induced epileptiform ac

37 estigated the cellular mechanisms underlying cesium actions.

38 Cesium added to D5W in group 1 also significantly reduce

39 Cesium adsorption onto Illite has been widely studied, b

40 iate that dominates in the cross-coupling of cesium alkenylsilanolates.

41 In addition, intracellular cesium also blocked the inward current, suggesting the i

42 endent potassium channels with intracellular cesium altered membrane potential shifts.

43 ocaine [a sodium channel blocking agent] and cesium [an outward potassium channel blocking agent]) in

44 Addition of cesium, an inhibitor of gpIRK1 activity, results in an i

45 l sensitivity to potassium channel blockers (cesium and barium) and sudden current-voltage profile ch

46 ere blocked with the combination of internal cesium and external barium, opioid and alpha2 agonists h

47 ne (NBQX, 1 microM), but not by inclusion of cesium and N-(2, 6-dimethylphenylcarbamoylmethyl) trieth

48 ifying mixed cationic conductance blocked by cesium and potassium conductances blocked by 4-aminopyri

49 rystal structures of complexes of FTHFS with cesium and potassium ions were examined and monovalent c

50 m classic empirical IMS data of atomic ions, cesium and potassium, each showing its own distinct form

51 Thus, cesium and rubidium are ten-coordinate, whereas potassiu

52 of freeze-thaw cycles on the mobilization of cesium and strontium in association with colloids in int

53 ively, increased and decreased the dissolved cesium and strontium, but both treatments increased the

54 Two intact cores were contaminated with cesium and strontium.

55 but both treatments increased the colloidal cesium and strontium.

56 wn blockers of these ion channels (barium or cesium and ZD 7288, respectively).

57 of formamidinium (FA), methylammonium (MA), cesium, and rubidium lead halides which provide power co

58 ferential flow paths through which colloids, cesium, and strontium were mobilized.

59 diological dispersal devices (RDDs), cobalt, cesium, and strontium, were studied by DMS to demonstrat

60 sham-irradiated or irradiated with (1)(3)(7)Cesium at a dose of 10Gy.

61 3.51 electron volts) lower than that of the cesium atom (which has the lowest gas-phase ionization e

62 A single cesium atom trapped within the mode of an optical cavity

63 rd quantum limit for sensing the motion of a cesium atom.

64 formed by collisional electron transfer from cesium atoms to protonated peptides HAL, AHL, and ALH at

65 The motion of individual cesium atoms trapped inside an optical resonator is reve

66 A cesium base not only promoted alkylation of primary amin

67 With the cesium-based diode-pumped alkali laser and remote plasma

68 diamines, and polyamines was developed using cesium bases in order to prepare secondary amines effici

69 cyclic sulfate 12 and its ring opening with cesium benzoate followed by saponification of the benzoa

70 es are obtained for potassium, rubidium, and cesium; binding wells are shallow and the central barrie

71 Cesium bis(perfluoro-triphenylborane)amide, Cs[H2NB2(C6F

72 Cesium blocked glial inwardly rectifying potassium chann

73 an ion-pair receptor for cesium chloride and cesium bromide in nitrobenzene solution.

74 /mol larger for cesium chloride than for the cesium bromide.

75 Interneurons lacking Ih were not affected by cesium but developed a depolarizing response when drug a

76 icating the formation of an ion-paired 1:1:1 cesium:calix[4]pyrrole:halide complex.

77 rticle also highlights the first use of mild cesium carbonate as a cesium source for the construction

78 nd method involves the use of aryl chloride, cesium carbonate base, n-butyl-di-1-adamantylphosphine l

79 Cesium carbonate catalyzed hydrolysis then generated the

80 Subsequent aromatization using cesium carbonate gave rise to isopropylidene-protected h

81 s in the presence of copper(II) chloride and cesium carbonate in acetonitrile solvent is reported.

82 able ketones, and nitro groups provided that cesium carbonate is employed as the base.

83 ridine (secondary amine) in combination with cesium carbonate is necessary for effective direct aryla

84 nylmethanephosphonate (1) in the presence of cesium carbonate undergoes efficient 1,4-addition to Mic

85 ing in aqueous solution of two cesium salts, cesium carbonate, and cesium nitrate.

86 anol and glyoxal (trimeric form) mediated by cesium carbonate, which affords in crystalline form 3-ni

87 Cesium carbonate-mediated reaction of 2-hydroxybenzaldeh

88 l was reproducible and dominated by cesiated cesium carboxylates [RCOOCs + Cs]+.

89 hese consists of a contact ion pair with the cesium cation and chloride anion both being bound within

90 n the calix[4]pyrrole-halide complex and the cesium cation are nearly the same within experimental un

91 e NH protons of a calixpyrrole subunit and a cesium cation sandwiched between two cone shaped calix[4

92 was not observed in the absence of a cobound cesium cation; however, it was seen in this solvent mixt

93 used to achieve direct ion exchange of large cesium cations for the small sodium cations found in the

94 Exceptionally high affinity for cesium cations was achieved in aqueous solution using tw

95 For example, sodium and cesium cations were studied to represent metal ions, tet

96 nitrido ligand bridging two uranium and one cesium cations.

97 f QX314 and D890, intracellular injection of cesium caused little or no change in the Down state and

98 showed that brief (2 min) bath exposures to cesium caused pyramidal cell hyperpolarization associate

99 Extracellular cesium causes synchronous, interictal-like bursting and

100 The cesium chloride (CsCl) density gradient profile of virus

101 Mucins were isolated by cesium chloride (CsCl) gradient centrifugation and size

102 nt density and can be purified by banding in cesium chloride (CsCl) gradients.

103 x[4]pyrrole acts as an ion-pair receptor for cesium chloride and cesium bromide in nitrobenzene solut

104 HOX proteins regulate transcription we used cesium chloride centrifugation-based chromatin purificat

105 Cesium chloride density gradient centrifugation demonstr

106 tion followed by additional separation using cesium chloride density gradient centrifugation.

107 Mucins were separated by cesium chloride density gradient centrifugation.

108 this recombinant preparation was purified by cesium chloride density gradient centrifugation.

109 clease (85%) or to sediment to a pellet in a cesium chloride gradient (61%).

110 lexes following isopycnic sedimentation in a cesium chloride gradient (85%).

111 detected in Et743-treated CEM cells by using cesium chloride gradient centrifugation followed by top1

112 s substantially more effective than standard cesium chloride gradient purification.

113 ithout relying on tedious and time-consuming cesium chloride gradient separations and extractions.

114 purified adenovirus preparations to repeated cesium chloride gradient separations.

115 egree of precision and good agreement with a cesium chloride gradient/SDS-PAGE quantitation method of

116 Upon purification through three cesium chloride gradients and DNase I treatment, capsid-

117 are resistant to heat and have a density in cesium chloride gradients that is indistinguishable from

118 etermined by sedimentation through isopycnic cesium chloride gradients.

119 100S, have a buoyant density (1.28 g/ml) on cesium chloride similar to that of HCV capsids from othe

120 le was found to be about 7 kJ/mol larger for cesium chloride than for the cesium bromide.

121 was that HGV was consistently more stable in cesium chloride than HCV.

122 t density of formaldehyde-fixed ribosomes in cesium chloride was 1.41 g/cm(3).

123 formations: from B1 (sodium chloride) to B2 (cesium chloride) crystal structures above 0.36 TPa, and

124 radient centrifugation, isopycnic banding in cesium chloride, and saline density flotation centrifuga

125 .0:1.6 blend of tetrabutylammonium chloride, cesium chloride, and the ionic liquid 1-butyl-3-methylim

126 Ribonucleic acid was isolated using the cesium chloride-guanidine method and was reverse transcr

127 The cesium chloride-isolated spores were further purified us

128 ion in hydrogen fluoride and the addition of cesium chloride.

129 It involves doping the sample with cesium chloride.

130 The analysis of both cesium concentration monitoring in the source reservoir

131 the rock sample, the slower the decrease of cesium concentration, and the thinner the penetration de

132 A sharp increase in the pH and cesium concentrations in the receiving phase is observed

133 Cesium-coordinated oligosaccharides do not fragment as r

134 beta-diketones in THF, 1-3, with lithium and cesium counterions.

135 tage-clamp recordings (n = 90) indicate that cesium (Cs) (5 mM) blocked 77.2% of the I(h) current, an

136 nts that form when an ultracold ground-state cesium (Cs) atom becomes bound within the electronic clo

137 The effect of external potassium (K) and cesium (Cs) on the inwardly rectifying K channel ROMK2 (

138 , surpassing the current best evaluations of cesium (Cs) primary standards.

139 We measured the effects of changing internal cesium (Cs+) and external sodium (Na+) concentrations on

140 eading to complete block of the channel when cesium (Cs+) is the current carrier.

141 eprotonation in cyclohexylamine catalyzed by cesium cyclohexylamide.

142 be impossible for the open-field radioactive cesium decontamination applications.

143 The effective diffusion coefficient (De) for cesium decreased from 18.5 x 10(-11) m(2) s(-1) at full-

144 Consistent with this effect, cesium decreased the early component of the IPSP recorde

145 itrobenzene was determined from plots of the cesium distribution ratios vs cesium salt and receptor c

146 2)(OH)(12)], Cs(2)1, was prepared by heating cesium dodecahydro-closo-dodecaborate(2-), Cs(2)[closo-B

147 Cesium does not appear to create any electronic effects

148 of the larger formamidinium with the smaller cesium, due to octahedral tilting.

149 4) revealing the roles of the CsF base (and "cesium effect") in the Pd(0)/PCy3-catalyzed intermolecul

150 pressed in a subpopulation of cells and that cesium effects on interneurons expressing Ih are compara

151 owever, outward current (carried by internal cesium) elicited by depolarizations to > +100 mV was eit

152 The cesium enolate of 6-phenyl-alpha-tetralone (CsPAT) has a

153 y to equilibria and reactions of lithium and cesium enolates in THF.

154 Crack pattern analyses revealed that the cesium-exchanged material exhibited a significantly lowe

155 idium-exchanged material, and lowest for the cesium-exchanged material.

156 The results showed that cesium exhibited a clear trend related to the saturation

157 ng of thick corannulene layers on top of the cesium film leads to the formation of a stable film comp

158 show that Ar4000+ bombardment combined with cesium flooding enhances secondary ion signals by a fact

159 The use of cesium flooding for the imaging of cells was also invest

160 Hence, cesium flooding has also a vast potential for SIMS analy

161 ination of ion bombardment with simultaneous cesium flooding is valid not only for monatomic ion bomb

162 erformed with only the presence of catalytic cesium fluoride and a stoichiometric amount of a disilan

163 CF3) in the presence of catalytic amounts of cesium fluoride have been studied.

164 ibition was attenuated by loading cells with cesium fluoride.

165 ve to the [Formula: see text] line of atomic cesium for [Formula: see text] atoms trapped along the P

166 ng an optical frequency comb referenced to a cesium fountain primary frequency standard.

167 tory released to the environment relative to cesium from venting Units 1 and 3 to be approximately 0.

168 The body-centered cubic A15-structured cesium fulleride Cs3C60 is not superconducting at ambien

169 Reduction of M(CNXyl)(6)I by cesium graphite gave the respective Cs[M(CNXyl)(6)], whi

170 lowed during spike trains, and block by 1 mM cesium had no effect on firing frequency.

171 evelopment, microwave atomic clocks based on cesium have achieved fractional uncertainties below 1 pa

172 The silicon dioxide is converted to cesium hexafluosilicate by dissolution in hydrogen fluor

173 analysis is accomplished by decomposing the cesium hexafluosilicate with concentrated sulfuric acid

174 etter cesium platinide, Cs2 Pt, and the salt cesium hydride CsH according to Cs9 Pt4 H identical with

175 (I)Cl complexes 2(R) (R = (i)Pr, (t)Bu) with cesium hydroxide in THF leads to the corresponding monom

176 honidinium bromide catalyst 9 (10 mol %) and cesium hydroxide provided S-alkylation products 2 at -35

177 In the presence of cesium hydroxide, molecular sieves, and DMF, benzenesele

178 low the cross-coupling of both potassium and cesium hydroxides with (hetero)aryl halides to afford a

179 pectrometry (SIMS), the beneficial effect of cesium implantation or flooding on the enhancement of ne

180 oscopic origins of the structural effects of cesium in styrene epoxidation on silver catalysts.

181 Low coverages of cesium induce a (1 x 2) missing-row reconstruction of th

182 We concluded that cesium actions on LTD and cesium-induced epileptiform activity were not attributab

183 d on the Ag(111) microfacets produced by the cesium-induced reconstruction, which leads to selectivit

184 ng, high-resolution multielement images of a cesium-infiltrated Opalinus clay rock were recorded usin

185 ntials was a tetrodotoxin-insensitive (TTX), cesium-insensitive, voltage-independent, cationic flux c

186 m hippocampal slice astrocytes revealed that cesium interfered with glial electrical responses during

187 Using cesium iodide cluster signals, we show that the mass ran

188 Interpretation of SID spectra for cesium iodide clusters was greatly simplified with IM pr

189 flat-panel x-ray detector with a structured cesium iodide scintillator layer and an amorphous silico

190 monolithic glass substrate with a structured cesium iodide scintillator layer and an amorphous silico

191 mance is assessed using both particle-phase (cesium iodide, glycine) and gas-phase (dimethylamine, di

192 ations as low as 10(2) ng m(-3)) composed of cesium iodide, levoglucosan, and levoglucosan within a c

193 ient, probably because of its chelation with cesium ion.

194 icient (Kd) for absorbing of the radioactive cesium ion.

195 reaching optimum conditions for the largest cesium ion.

196 electivity of this extraction process toward cesium ions and the use of a sacrificial cation exchange

197 In particular, cesium ions are found to induce pentameric assembly of D

198 resulting in either expulsion or trapping of cesium ions depending on the anion employed.

199 Solvent extraction of cesium ions from aqueous solution to hydrophobic ionic l

200 in leucite are exchangeable for rubidium or cesium ions, leading to rubidium leucite or cesium leuci

201 r zero levels of potassium, rubidium, and/or cesium ions.

202 ial for selectively trapping the radioactive cesium ions; its high tendency to form stable colloids i

203 rradiated (14 Gy total body irradiation in a cesium irradiator).

204 re subjected to 12 Gy gamma-irradiation in a cesium irradiator.

205 h 12 Gy of whole-body gamma-irradiation in a cesium irradiator.

206 fucose moiety increases, indicating that the cesium is involved in a coordination complex that stabil

207 lar behavior could have been expected, since cesium is known to diffuse in the same parts of the pore

208 D) appeared to be higher for iodine than for cesium isotopes.

209 , AMADs for (131)I were about half those for cesium isotopes.

210 The cesium lead bromide (CsPbBr3 ) created using a new poly(

211 Cesium lead halide (CsPbX3) perovskite nanocrystals (NCs

212 All-inorganic cesium lead halide (CsPbX3, X = Br(-), I(-)) perovskites

213 ful synthesis of brightly emitting colloidal cesium lead halide (CsPbX3, X = Cl, Br, I) nanowires (NW

214 synthesis of quantum confined all inorganic cesium lead halide nanoplates in the perovskite crystal

215 he low-temperature, solution-phase growth of cesium lead halide nanowires exhibiting low-threshold la

216 tical properties of presynthesized colloidal cesium lead halide perovskite nanocrystals (NCs), from g

217 y of their pure inorganic counterparts, like cesium lead halides (CsPbX3), lags far behind.

218 e materials are known for their instability, cesium lead halides offer a robust alternative without s

219 Herein, we report that cesium lead iodide perovskite quantum dots (CsPbI3 QDs)

220 cesium ions, leading to rubidium leucite or cesium leucite (pollucite).

221 small crystals as well as larger rubidium or cesium leucite crystals.

222 either tetragonal rubidium leucite or cubic cesium leucite.

223 was to evaluate the effects of rubidium and cesium leucites on thermal expansion, microstructure, cr

224 ergy profiles for potassium-, rubidium-, and cesium-like cations exhibit no broad barriers; the lipid

225 Improvements required to obtain a cesium-limited frequency measurement are described and a

226 Using a cesium matter-wave interferometer near a spherical mass

227 in hexamethylphosphoramide with potassium or cesium metal.

228 ne metals including barium, cadmium, cobalt, cesium, molybdenum, lead, antimony, thallium, tungsten,

229 raphene oxide (GO) with Cs(2)CO(3) to afford Cesium-neutralized GO (GO-Cs), GO derivatives with appro

230 porcelain powder was mixed with rubidium or cesium nitrate and heat-treated.

231 n of two cesium salts, cesium carbonate, and cesium nitrate.

232 obilization of historic (pre-Fukushima) (137)cesium observed concurrently in these soils suggests tha

233 The adsorption of a small amount of cesium on Ag(110) redirects the partial oxidation produc

234 Thus, the effects of cesium on CA1 synchronization and synaptic plasticity ap

235 The effect of cesium on defibrillation threshold values was similar be

236 There was no effect of either 10 mM K or cesium on the high open probability (P(o) = 0.97 +/- 0.0

237 rred as soon as ROMK was exposed to external cesium or 10 mM K.

238 medium-sized neuron and was blocked by 1 mm cesium or 15 microm ZD7288.

239 It was minimally affected by external cesium or cobalt, suggesting no involvement of either th

240 ow concentrations, selected cations (such as cesium or rubidium ions) exhibit an effective reduction

241 polymers (BCP)) using either ultralow energy cesium or the more recently introduced C60(++) (under NO

242 e as a cesium source for the construction of cesium organometallic scaffolds.

243 cation, positive reversal potential, limited cesium permeability, and sensitivity to SOCE channel blo

244 ons over sodium (PK/PNa = 2.68 +/- 0.21) and cesium (PK/PCs = 1.39 +/- 0.03) ions.

245 This cesium platinide hydride can formally be considered as a

246 lt of the "alloy" cesium-platinum, or better cesium platinide, Cs2 Pt, and the salt cesium hydride Cs

247 e considered as a double salt of the "alloy" cesium-platinum, or better cesium platinide, Cs2 Pt, and

248 the stable stoichiometries and structures of cesium polynitrides at high pressures.

249 re similar with pipette solutions containing cesium, potassium, or sodium.

250 idated this hypothesis through the prototype cesium-potassium system investigated experimentally by D

251 refer the CF(3) end of the molecule, whereas cesium prefers the Br end of the molecule.

252 ot achieve the same quality of images as the cesium primary ion source used to produce negative secon

253 Higher AMAD for cesium probably results from higher AMAD observed at the

254 cobalt (Ptrend = 0.59), 1.31 (0.90-1.91) for cesium (Ptrend = 0.29), 1.76 (1.24-2.50) for molybdenum

255 A new family of mixed anion cesium rare earth silicates exhibiting intense scintilla

256 and a (3 x 5) surface oxide structure on the cesium-reconstructed Ag(110) surface.

257 Highly radioactive cesium-rich microparticles (CsMPs) released from the Fuk

258 ring in the source reservoir and post-mortem cesium rock concentration profile of the samples was car

259 ng the van der Waals repulsive force between Cesium Rydberg atoms located inside different cavities i

260 m plots of the cesium distribution ratios vs cesium salt and receptor concentration, indicating the f

261 The addition of KClO(4) to these cesium salt complexes leads to a novel type of cation me

262 In this study, we have chosen the cesium salt of BiEDTA (CsBiEDTA) and have investigated t

263 The cesium salt of the icosahedral borane anion dodecahydrox

264 pe and position of the anion employed in the cesium salt, the enhanced strength of Tl...pi vs Cs...pi

265 ious N-heterocycles 1a-l using potassium and cesium salts in DMSO is described.

266 r(-), and NO(3)(-) but will bind these other cesium salts in the absence of fluoride, both in solutio

267 Specifically, the sodium and cesium salts of complexes of Bi/EDTA, Pb/EDTA, Cd/EDTA,

268 the hydroxide and carbonate anions as their cesium salts, as confirmed by (1) H NMR spectroscopic ti

269 y the structuring in aqueous solution of two cesium salts, cesium carbonate, and cesium nitrate.

270 eceptor forms stable complexes with the test cesium salts, CsCl and CsNO(3), in solution (10% methano

271 he liquid-liquid extraction-based removal of cesium salts, specifically CsOH and Cs2 CO3 , from highl

272 methyl-11H-benzo[b]fluorene, has a pK on the cesium scale of 23.39.

273 ur Li scale, pK(Li) = 22.09, compared to the cesium scale, pK(Cs) = 28.60.

274 s from the observation that superfusion with cesium selectively reduces IR and eliminates resonance i

275 as caused by the activation of a barium- and cesium-sensitive inwardly rectifying potassium channel.

276 arinic receptor genes, tsA cells expressed a cesium-sensitive inwardly rectifying potassium conductan

277 Three new cesium silver(I) copper(I) cyanides with three-dimension

278 The structural transformations between cesium silver-copper cyanides under modest conditions, b

279 the first use of mild cesium carbonate as a cesium source for the construction of cesium organometal

280 mpared to the conventional duoplasmatron and cesium sources.

281 The cesium stabilizes the oxametallacycle intermediate and h

282 eproducibility exceeding that of the primary cesium standard.

283 ertainty within a factor of 3 of that of the cesium standard.

284 CPL activity ever measured was observed for cesium tetrakis(3-heptafluoro-butylryl-(+)-camphorato) E

285 When the oligosaccharide is complexed to cesium, the threshold for the removal of the fucose moie

286 Cesium, through potassium blockade, reverses lidocaine-i

287 Comparable performance is also achieved for cesium tin iodide solar cells with en loading, demonstra

288 e the alkali metals potassium, rubidium, and cesium transform to metals that have a d1 electron confi

289 and in the presence of trimethylamine and of cesium, two competitive inhibitors.

290 KMS-1 displays significant cesium uptake both under strongly acidic (pH 0.7-2.6) or

291 However, when cesium was added to lidocaine in group 3, the elevated d

292 e of defibrillation threshold reduction when cesium was added to lidocaine was similar to the defibri

293 the defibrillation threshold reduction when cesium was added to placebo.

294 hemical-transport code where the sorption of cesium was described by a multisite ion-exchange model.

295 Complexation of cesium was evidenced by (133)Cs NMR spectroscopy and by

296 g transition between the 6S and 7S states of cesium was precisely measured with the use of a spin-pol

297 The diffusion of cesium was studied in an unsaturated core of Callovo-Oxf

298 For diastolic blood pressure, urinary cesium was tentatively replicated; however, this factor

299 on, and the thinner the penetration depth of cesium was.

300 nalysis indicated that the concentrations of cesium, zinc, and selenium were significantly reduced in