ライフサイエンスコーパス: iodine

1 alogen (total organic chlorine, bromine, and iodine).

2 situ by the reaction of aryl hydrazine with iodine.

3 y to extant methods that rely on hypervalent iodine.

4 heteroarylation was easily accomplished with iodine.

5 luoro enol silyl ethers based on hypervalent iodines.

6 Iodine-129 is one of three key risk drivers at several U

7 onths between a low administered radioactive iodine ((131)I) dose (1.1 GBq) and the standard high dos

8 ies reporting the performance of radioactive iodine ((131)I) therapy in differentiated thyroid cancer

9 Radioactive iodine ((131)I) therapy may be used to treat thyroid can

10 ultrafast XUV transient absorption measuring iodine 4d core-to-valence transitions.

11 by using attosecond transient absorption on iodine 4d(-1)6p transitions around 55 eV.

12 entration of gadolinium was much higher than iodine (8.5 +/- 3.9 mg/mL versus 0.7 +/- 0.1 mg/mL) cont

13 ntiated thyroid cancer requiring radioactive iodine ablation (performance status 0-2, tumour stage T1

14 ever, recurrence rates following radioactive iodine ablation have previously only been reported in ob

15 e among patients who had 1.1 GBq radioactive iodine ablation was not higher than that for 3.7 GBq, co

16 treated with antithyroid drugs, radioactive iodine ablation, or thyroidectomy.

17 Median (range) fractional iodine absorption across the 3 conditions was 91 (51-145

18 n cow milk is iodide and although fractional iodine absorption from milk decreases with increasing do

19 Iodine absorption was calculated as the ratio of urinary

20 ncentrations in S. japonica caused increased iodine accumulation in abalone, accompanied by reduced s

21 Kelp are main iodine accumulators in the ocean, and their growth and p

22 t IONO(2) does not react directly with these iodine acids, but forms an unusual kind of interaction w

23 significantly enhanced upon deprotonation of iodine acids, indicating that these halogen bonds are fa

24 e quantum chemical calculations to study the iodine acids-iodine nitrate [HIO(x) (x = 2 and 3)-IONO(2

25 by aerosol surfaces, leading to particulate iodine activation.

26 nation is successful with just 0.55 equiv of iodine and 0.50 equiv of peroxide.

27 indole scaffold in the presence of catalytic iodine and air at 40 degrees C in the 1,1,1,3,3,3-hexafl

28 by an I O halogen bond between an outer ring iodine and Asp211, consistent with Dio3 selectivity for

29 eaweeds are known to accumulate the halogens iodine and bromine.

30 In this work, we investigated iodine and carbon speciation in three humic acid (HA)-I

31 tally determined and theoretically predicted iodine and epoxy values indicates the robustness of the

32 ithm was used to fit experimentally obtained iodine and epoxy values of epoxidized perilla oil.

33 the influence the SML exerts on emissions of iodine and potentially other volatile species.

34 lecular wires terminated asymmetrically with iodine and thiomethyl to show that the dative Au-I conta

35 ntial trace elements (iron, copper, zinc and iodine) and establish their speciation in human milk.

36 received sICM (7.2 g iodine) or rICM (5.4 g iodine) and underwent 100-kVp CT or dual-energy CT (80/1

37 ) were synthesized from tetraryl olefins via iodine- and iron chloride-catalyzed oxidative cyclodehyd

38 Organic compounds bearing radioisotopes of iodine are widely used for biological research, diagnost

39 nctionalization has been developed employing iodine as a catalyst and dimethyl sulfoxide as an oxidan

40 c guanidine (DNG) oligonucleotides that uses iodine as a mild and inexpensive coupling reagent is rep

41 Herein, we report iodine as an efficient and selective catalyst for the fu

42 dehydrosulfurization method using molecular iodine as the reagent.

43 consequent dissolution of the cathode-plated iodine as triiodides.

44 based oxidant and ammonium iodide as a cheap iodine atom source.

45 orbitals for aromatics simply by positioning iodine atoms next to each other.

46 y an interatomic Coulombic decay between two iodine atoms, during the molecular fragmentation.

47 s containing fluorine, chlorine, bromine and iodine atoms, which vary by length and level of halogen

48 Substantially improved iodine attenuation at lower kiloelectron volt levels and

49 = 33) were imaged in a mixture of cationic (iodine-based CA4+) and non-ionic (gadolinium-based gadot

50 cations for prophylaxis against PC-AKI after iodine-based contrast administration, lowering the cutof

51 nce to outcome is unclear.PurposeTo identify iodine-based dual-energy CT variables that correlate wit

52 Emitted from the oceans, iodine-bearing molecules are ubiquitous in the atmospher

53 ons in assessing the dynamic interactions of iodine between soil solution and soil solid phase over s

54 Based on iodine binding, X-ray diffraction patterns, crystallinit

55 bility to alpha-amylolysis together with the iodine-binding properties and crystalline structure were

56 However, to our knowledge, iodine bioavailability from milk has not been directly m

57 n folate, vitamins B-12, D, and E, zinc, and iodine biomarkers were positively related.

58 ends on the role of the participating carbon-iodine bond in ferrocene.

59 This iodine buttressing approach for generating high-energy i

60 intermediates, and we demonstrate that this iodine buttressing strategy also can be used to achieve

61 g the tumor having an average uptake of 2.9% iodine by weight, with uptake peaks at 4.5%.

62 n of iodine to the double bond or a putative iodine-catalyzed cis- trans isomerization of the employe

63 uinazolin-4(3 H)-ones were synthesized using iodine-catalyzed coupling of arylalkynes (or styrenes) w

64 tones including aromatic systems undergo the iodine-catalyzed reaction with moderate to very good yie

65 on the ClinicalTrials.gov website: povidone-iodine, chlorhexidine, hydrogen peroxide, cyclodextrin,

66 tive measurements was evaluated by use of an iodine clock reaction to quantify ascorbic acid in fruit

67 nit attenuation from conventional images and iodine concentration (IC) (in milligrams per milliliter)

68 (TSH) concentration >5 mIU/L, median urinary iodine concentration (MUIC) <100 ug/L, or >5% prevalence

69 dine deficiency as a baseline median urinary iodine concentration (UIC) of 50-149 ug/L.

70 Maternal iodine intake and urinary iodine concentration (UIC) were assessed at study entry

71 tration within the hematoma (I(h)) and focal iodine concentration in the brightest spot in the hemato

72 two features of iodine extravasation: total iodine concentration within the hematoma (I(h)) and foca

73 th mortality, RLAS score, and DRS score were iodine concentration, pseudohematoma volume, iodine quan

74 h simulated feces tagged with four different iodine concentrations (1.26, 2.45, 4.88, and 21.00 mg of

75 (pancreatic head, body, and tail) to obtain iodine concentrations (mg/ml) to compare between groups.

76 sumed by abalone (Haliotis discus), elevated iodine concentrations in S. japonica caused increased io

77 nel has the potential to accumulate elevated iodine concentrations under cultivation.

78 Iodine concentrations were also calculated a second time

79 erent combinations of 3 base materials and 5 iodine concentrations) was scanned using a spectral dete

80 crease in X-ray intensity of all synthesized iodine-containing polymers, in comparison to non-iodinat

81 ence VNC(error) significantly, phantom size, iodine content and base material had a significant effec

82 Therefore, the influence of cooking on the iodine content of potatoes, pasta, and rice having diffe

83 evealed that both iodine forms increased the iodine content of sea fennel tissues.

84 After iodine extraction with 0.5% NH(3) iodine content was measured by ICP-MS.

85 re it increases x-ray attenuation due to its iodine content.

86 All products showed an increase in iodine content.

87 pendency on patient size, base material, and iodine content; particularly the latter results in small

88 y angiography (IA-CTA) with ultra-low-volume iodine contrast administration in the diagnostic and the

89 ity eliminates the need for a high volume of iodine contrast and thus does not adversely influence re

90 er, this procedure requires a high volume of iodine contrast medium for optimal visualisation of the

91 The volume of 8-18 ml of diluted iodine contrast medium was administered through a cathet

92 Intra-arterial CTA with ultra-low volume of iodine contrast seems to be a safe and reliable diagnost

93 ical setting underwent IA-CTA with ultra-low iodine contrast volume.

94 )) effectively reduces the degree of surface iodine deficiency and stabilizes iodine ions via the for

95 We defined mild-to-moderate iodine deficiency as a baseline median urinary iodine co

96 d and inconsistent data suggesting that mild iodine deficiency in pregnancy might be associated with

97 To counteract iodine deficiency in the population in areas of environm

98 Population iodine deficiency is indicated by >3% of the population

99 in the population in areas of environmental iodine deficiency table salt is often fortified with pot

100 Mild-to-moderate iodine deficiency, particularly in pregnancy, is prevale

101 nodules are a common finding, especially in iodine-deficient regions.

102 sfer of fat-soluble vitamins; and high fetal iodine demand.

103 Povidone-iodine demonstrated greater ocular surface discomfort an

104 Oceanic emissions of iodine destroy ozone, modify oxidative capacity, and can

105 The methodology, involving iodine/dimethylsulfoxide oxidation of diaryldichalcogeni

106 k coefficient and electrical conductivity of iodine-doped poly(3-hexylthiophene) and poly[2,5-bis(2-o

107 Here we demonstrate molecular iodine doping of a metal-phthalocyanine-based pyrazine-l

108 compare recurrence rates between radioactive iodine doses in HiLo.

109 m-dependent haloperoxidase genes involved in iodine efflux during oxidative stress are down-regulated

110 the first example of metal-free hypervalent iodine electrocatalysis for C-H functionalization and pr

111 The developed hypervalent iodine electrocatalysis is applicable in both intra- and

112 EDX mapping of lead and iodine emission peaks show that the Pb and I within thes

113 Therefore, reduced iodine emissions from natural seawater cannot be explain

114 Increasing iodine emissions have implications for ozone radiative f

115 nthropogenic (pollution) ozone has increased iodine emissions since preindustrial times (ca. factor o

116 ally feasible molecular mechanism from ocean iodine emissions to atmospheric particles that is curren

117 decrease in the percentage of subjects with iodine excretion <100 ug/24 h (P < 0.001) was observed,

118 ption was calculated as the ratio of urinary iodine excretion (UIE) to total iodine intake.

119 After iodine extraction with 0.5% NH(3) iodine content was mea

120 -energy CT images identified two features of iodine extravasation: total iodine concentration within

121 ned a negligible fraction (<1%) of the total iodine flux.

122 shed that the kinetically stable hypervalent iodine form (I-CF(3)) of the reagents is thermodynamical

123 interaction of polymethacrylate matrix with iodine forms followed by measurement of absorbance at 37

124 This study revealed that both iodine forms increased the iodine content of sea fennel

125 The time-resolved images for the iodine fragment are reported and analyzed in order to ex

126 he incorporated arenes maintain the valuable iodine functional handle.

127 r between low-dose and high-dose radioactive iodine groups (3 years, 1.5% vs 2.1%; 5 years, 2.1% vs 2

128 The influence of organic compounds on iodine (I(2)) emissions from the O(3) + I(-) reaction at

129 both low and high pressures, and also a high iodine (I(2)) uptake capacity with unusually fast kineti

130 er trillion by volume (pptv) total inorganic iodine (I(y)) is injected to the stratosphere.

131 Gas-phase iodine (I(y,gas)) in the UT (0.67 +/- 0.09 pptv) convert

132 of iodine monoxide radicals and particulate iodine (I(y,part)) from aircraft in the stratosphere.

133 Assessing the reactions of iodine (I) in soil is critical to evaluate radioiodine e

134 ), iron (Fe), magnesium (Mg), selenium (Se), iodine (I), zinc (Zn) and molybdenum (Mo).

135 to "classical" halogen-bond donors based on iodine(I) compounds, iodine(III) salts feature two direc

136 s suggest the formation of thiol-coordinated iodine(I) intermediates.

137 lizes an underdeveloped class of hypervalent iodine(III) aryl substrates in a palladium-catalyzed C-H

138 "Hypervalent" iodine(III) derivatives have been established as powerfu

139 termediate was generated by a combination of iodine(III) reagent PhI(OCOCF(3))(2) and the N-H center

140 lefins has been achieved using a hypervalent iodine(III) reagent.

141 en-bond donors based on iodine(I) compounds, iodine(III) salts feature two directional electrophilic

142 diates followed by a redox process giving an iodine(III) species and oxidized substrates.

143 the most easily oxidized iodoarenes generate iodine(III) species that decompose readily.

144 eloped by using iodosylbenzene as a nontoxic iodine(III)-based oxidant and ammonium iodide as a cheap

145 ication of a new 1-naphthyllactic acid-based iodine(III)-catalyst allows the control of tertiary carb

146 tion reactions with in situ generated chiral iodine(III)-catalysts.

147 This methodology uses an hypervalent iodine(III)-CF(2)CF(3) reagent, and mechanistic investig

148 ed from dual-energy CT pulmonary angiography iodine images.

149 98.4%) for the entire study (low-energy and iodine images; P = .03).

150 experience with treating thyroid cancer with iodine in chronic renal failure patients who require hem

151 otential impacts on biogeochemical cycles of iodine in coastal ecosystems.

152 Nearly all of the iodine in cow milk is iodide and although fractional iod

153 tion, resulting in the formation of lead and iodine in films.

154 are considered important dietary sources of iodine in many countries.

155 insic iodine milk (IIM), extrinsically added iodine in milk (EIM), and aqueous iodine solution (AIS)

156 -irritating, unlike preparations of povidone iodine in our assays.

157 The concentration of iodine in the pancreas measured with dual-energy CT diff

158 s, which were reacted in situ with molecular iodine in the presence of triethylamine to give 2-amino-

159 r and phantom size, but all systems depicted iodine in the small and large phantoms at or below 0.3 a

160 However, the impact of iodine in the stratosphere is highly uncertain due to th

161 prepared from hexahydro-1H-azonines by using iodine in THF and in MeCN with DIB as an additive.

162 onsequences for global geochemical cycles of iodine, including iodine levels of coastal food webs tha

163 and are incompatible with zero stratospheric iodine injection.

164 s of paroxetine containing either bromine or iodine instead of fluorine.

165 There was a linear relation between iodine intake and UIE (beta = 0.89, SE = 0.04, P < 0.001

166 Maternal iodine intake and urinary iodine concentration (UIC) wer

167 examining the relationship between maternal iodine intake in pregnancy and childhood neurodevelopmen

168 Maternal iodine intake in the lowest (<220 mug/day) or highest (>

169 I score <1 SD) compared with mothers with an iodine intake in the middle quartiles.

170 The aim of our study was to evaluate the iodine intake of school-age children and adolescents, us

171 0 subjects (47.2%) had a lower than adequate iodine intake, with a higher prevalence among girls (54.

172 o of urinary iodine excretion (UIE) to total iodine intake.

173 strate that anodically generated hypervalent iodine intermediates effectively couple interfacial elec

174 the amount of atmospherically nonrecyclable iodine (iodate) in marine aerosol.

175 uger cascades and find that multiply charged iodine ions are issued from short-lived (~20 fs) transie

176 of surface iodine deficiency and stabilizes iodine ions via the formation of strong Cd-I ionic bonds

177 of LSFF with key micronutrients (vitamin A, iodine, iron, folic acid) on improving micronutrient sta

178 Iodine is an essential micronutrient for intellectual de

179 distributed in maritime areas, where natural iodine is available in high concentrations, the aim of t

180 Iodine is enriched in marine aerosols, particularly in c

181 At the observed levels, iodine is responsible for 32% of the halogen-induced ozo

182 and potentially in therapy, depending on the iodine isotope selection.

183 Moreover, favorable half-lives of iodine isotopes result in much less challenging synthesi

184 tolerated non-toxic IV dose of the INPs (7 g iodine/kg body weight), tumors showed a heavily iodinate

185 in a hydroponic system applying two forms of iodine, KI and KIO(3) in different concentrations was se

186 (topical application of acetic acid or Lugol iodine) lack specificity and sometimes can lead to unnec

187 ed as the substrates to react with molecular iodine leading to the generation of a common intermediat

188 c hemorrhagic contusions are associated with iodine leak; however, quantification of leakage and its

189 obal geochemical cycles of iodine, including iodine levels of coastal food webs that underpin the nut

190 to environmental risk factors (for example, iodine levels).

191 a reduction in environmental stress however; iodine levels, in kelp-based coastal food webs will incr

192 Conclusion The iodine limit of detection using dual-energy CT systems v

193 Background Dual-energy CT iodine maps are used to detect pulmonary embolism (PE) w

194 Iodine maps from dual-energy CT were derived.

195 Conclusion Subtraction CT iodine maps had greater specificity than CT angiography

196 use of subtraction CT versus dual-energy CT iodine maps to CT angiography for PE detection.

197 Iodine maps were created, and the mean iodine signal in

198 ng postprocessing included the generation of iodine maps.

199 naive Bayes classifier) was used to identify iodine markers of extravasation for risk of hematoma exp

200 ase (PPP) dual-energy CT 70-keV, 52-keV, and iodine material density (MD) images, plus portal venous

201 bjective delta score was 0.73 and 0.60 using iodine MD and 52-keV images, respectively.

202 ation of PDAC borders is best achieved using iodine MD and lower-energy simulated monoenergetic image

203 ,4]selenadiazole are synthesized through the iodine-mediated [3 + 2] oxidative cyclization of 2-amino

204 low overpotentials (eta) for the copper- and iodine-mediated processes (390 and 470 mV, respectively)

205 process promoted by a phosphate base, (2) an iodine-mediated reaction involving intermediate N-I bond

206 electrochemical generation of a hypervalent iodine mediator using an "ex-cell" approach, which avoid

207 contribute to the development of hypervalent iodine mediators for synthetic electrochemistry.

208 al ecosystems worldwide, any change in their iodine metabolism caused by climate change will potentia

209 ioiodine therapy in part because of impaired iodine metabolism.

210 uring the 3 test conditions - high intrinsic iodine milk (IIM), extrinsically added iodine in milk (E

211 The lone pair orbitals on the iodines mix to give a high-energy in-plane sigma-antibon

212 lectrons and nuclei in a prototype molecule, iodine monobromide (IBr), by using attosecond transient

213 -femtosecond core-excited state lifetimes of iodine monochloride by using attosecond transient absorp

214 semipolluted locations is inhibited when the iodine monoxide radical (IO) is intercepted by NO(2) to

215 Here, we report quantitative measurements of iodine monoxide radicals and particulate iodine (I(y,par

216 Here we report the use of iodine nanoparticle radiotherapy (INRT) in treating adva

217 dress this dire situation, we have developed iodine nanoparticles (INPs) that target brain tumors aft

218 cal (IO) is intercepted by NO(2) to form the iodine nitrate (IONO(2)).

219 mical calculations to study the iodine acids-iodine nitrate [HIO(x) (x = 2 and 3)-IONO(2)] dynamics a

220 Therefore, iodine NPF has the potential to influence cloud properti

221 that VNC is viable of accurately subtracting iodine of hepatic amiodarone-deposits.

222 ccording to the Dietary Reference Values for iodine of the European Food Safety Authority (EFSA).

223 round Substantial gain in the attenuation of iodine on low-kVp and dual-energy CT processed low-keV v

224 ose enhancement with contrast agents such as iodine or gold nanoparticles, and its low cost, portabil

225 zations commonly rely heavily on hypervalent iodine or heavy metals to provide the requisite thermody

226 ic CT with BCM randomly received sICM (7.2 g iodine) or rICM (5.4 g iodine) and underwent 100-kVp CT

227 ed the presence of soluble organically bound iodine (org-(129)I) with a low molecular weight (MW) ran

228 Conventional images, iodine overlay (IO) images, and virtual monoenergetic im

229 article conversion proceeds by clustering of iodine oxides (I(x)O(y)), albeit at slower rates than un

230 ntrations (1.26, 2.45, 4.88, and 21.00 mg of iodine per milliliter), then it was scanned with dual-en

231 ere used, with concentrations of 0.03-2.0 mg iodine per milliliter.

232 n images (which include virtual nonenhanced, iodine, perfused lung blood volume, lung vessel, automat

233 Topical povidone-iodine (PI) is widely used as an ocular surface antisept

234 Povidone-Iodine (PI) may be diluted when used as an antiseptic pr

235 tivity of various concentrations of povidone iodine (PI) solution in an agar plate experiment of resp

236 Now, a highly reversible iodine plating cathode is presented that operates on the

237 The iodine plating cathode with the theoretical capacity of

238 treatment by chlorhexidine gluconate (CHX), iodine-potassium iodide (IPI) and Sodium hypochlorite (N

239 lopenta[ b]carbazole derivatives through the iodine-promoted electrocyclization of substituted indole

240 nducted to test the hypothesis that povidone-iodine (PVI) irrigation versus no irrigation (NI) reduce

241 cturers could aid researchers looking to use iodine quantification as an imaging biomarker.

242 ient, 0.13 per year +/- 0.04; P = .002), and iodine quantity in contusion (mean coefficient, 0.19 per

243 lume, iodine quantity in pseudohematoma, and iodine quantity in contusion.

244 ence interval [CI]: 0.2, 0.86; P = 0.01) and iodine quantity in pseudohematoma (adjusted odds ratio,

245 iodine concentration, pseudohematoma volume, iodine quantity in pseudohematoma, and iodine quantity i

246 center, and regioselective hydrozirconation/iodine quench afforded an alkenyl iodide which is employ

247 rentiated thyroid cancer, use of radioactive iodine (RAI) does not improve survival or reduce recurre

248 matization process mediated by a hypervalent iodine reagent from an inexpensive phenol containing a l

249 formed into classic bench-stable hypervalent iodine reagents through ligand exchange.

250 s, oxidative fragmentation using hypervalent iodine reagents, reactions of donor-acceptor cyclopropan

251 arylation of enones mediated by hypervalent iodine reagents.

252 iously reported iodoacetamide or hypervalent iodine reagents.

253 e high I(y) amounts are indicative of active iodine recycling on ice in the upper troposphere (UT), s

254 electrostatic interactions, and the neutral iodine related defects can be reduced by the aromatic st

255 , 1.58; 95% CI, 1.17-2.14), >= 1 radioactive iodine scan (OR, 1.73; 95% CI, 1.19-2.50), and >= 1 addi

256 marking axillary lymph node with radioactive iodine seed (MARI), and targeted axillary dissection (a

257 The oxidation with hypervalent iodine shows a regioselective transformation of an amino

258 Iodine maps were created, and the mean iodine signal in each sample was recorded.

259 ally added iodine in milk (EIM), and aqueous iodine solution (AIS) - subjects collected 24-h urine ov

260 Milk iodine speciation was performed using ion chromatography

261 Here, we evaluated the use of iodine-staining combined with micro-computed tomography

262 ation of the lungs, and we demonstrated that iodine-staining highlights tumors and unhealthy tissue.

263 agreement between markers in classifying the iodine status of populations into the same category was

264 of the current criteria for classifying the iodine status of populations using the TSH marker is war

265 ed areas (sigma-holes) on the surface of the iodine substituents in I(4) Q(-.) responsible for the at

266 The introduction of iodine substituents onto cyclo(l-tyrosyl-l-tyrosine) res

267 n as required for singlet oxygen generation, iodine substituents were introduced at the chromophore c

268 silylation introducing chlorine, bromine, or iodine substituents, and (iii) dehydrogenation.

269 s thyroid-stimulating hormone increased upon iodine supplementation but remained normal in MYMD-1-tre

270 most recent published data on the effects of iodine supplementation in mildly-to-moderately deficient

271 hough neither the benefits nor the safety of iodine supplementation in pregnancy in areas of mild-to-

272 dence to support current recommendations for iodine supplementation in pregnancy in areas of mild-to-

273 Most studies showed no effect of iodine supplementation on maternal or infant thyroid-sti

274 ATC cell lines showed an increase in sodium-iodine symporter transcription when treated with a MEK o

275 The iodine then absorbs X-rays during radiotherapy (RT), cre

276 release of thyroid autoantigens after radio-iodine therapy in Graves patients.

277 itamin C tablet results to those obtained by iodine titration and by HPLC-UV; all three methods were

278 udy of relevant reaction parameters revealed iodine to be remarkably more active than the previously

279 ited the anomalous scattering of bromine and iodine to define the pose of these inhibitors and invest

280 solar cells (PSCs) contain a large amount of iodine to realize smaller bandgaps.

281 Furthermore, addition of iodine to the double bond or a putative iodine-catalyzed

282 ing triple-halide alloys (chlorine, bromine, iodine) to tailor the band gap and stabilize the semicon

283 ntial were stable or even improved under the iodine treatments.

284 ranslated into a dose-dependent elevation of iodine uptake after treatment with a MEK inhibitor alone

285 irms the ability of MEK inhibition to induce iodine uptake in in vitro and in vivo models of ATC.

286 all pieces, and egg pasta showed the highest iodine uptake.

287 Because iodine uses predominantly renal clearance, treatment man

288 y, we ascertained that five coordinate amide iodine(V) complexes are unreactive toward redox reaction

289 anisms for amine and alcohol oxidation by an iodine(V) hypervalent reagent (IBX).

290 nabled by a novel bidentate nitrogen-ligated iodine(V) reagent, a previously unexplored class of comp

291 However, the presence of numerous iodine vacancies at the surface of the film formed by th

292 The cage crystals exhibit high iodine vapor uptake (3.78 g g(-1) ), which is among the

293 Emissions of volatile organic iodine (VOI) were highest from SML samples but remained

294 ents with glandular necrosis, the density of iodine was 1.53mg/ml.

295 The mean density of iodine was 2.5mg/ml in patients with pancreatitis vs. 3.

296 unoglobulins, albumin and lactoferrin whilst iodine was only found as iodide.

297 ubility of chlorine by replacing some of the iodine with bromine to shrink the lattice parameter.

298 a second time by normalizing the density of iodine with the aorta.

299 sures determination of 0.05-80.0 ug.g(-1) of iodine with the detection limit of 0.02 ug.g(-1).

300 f a fundamentally different catalytic cycle, iodine yields the bis-bisulfate ester of ethylene glycol