ライフサイエンスコーパス: aluminium

1 the formation mechanisms of the 9R phase in aluminium.

2 nd titanium with inexpensive and lightweight aluminium.

3 uding glass, silicon, ceramics, titanium and aluminium.

4 location and neighbouring sites of framework aluminium.

5 r with a Tc that is three times that of pure aluminium.

6 gallion as a fluorescent molecular probe for aluminium.

7 root has been developed for determination of aluminium.

8 om semiconducting silicon to superconducting aluminium.

9 are remarkably sensitive to small amounts of aluminium.

10 the addition of metal nanomaterials such as aluminium.

11 e use isochron burial dating with cosmogenic aluminium-26 and beryllium-10 to show that the breccia c

12 e sensitivity due to dynamic strain aging in Aluminium-5XXX alloys leads to reduced ductility and pla

13 Three doses of aluminium-absorbed HBsAg were delivered at 0, 14, and 28

14 we demonstrate that anion flux through plant aluminium-activated malate transporter (ALMT) proteins i

15 e cytotoxicity might predispose this form of aluminium adjuvant to its subsequent transport throughou

16 Here we show that aluminium adjuvants activate an intracellular innate imm

17 We demonstrate that not all aluminium adjuvants are equal neither in terms of their

18 Aluminium adjuvants potentiate the immune response, ther

19 Aluminium adjuvants remain the most widely used and effe

20 pertaining to the bioinorganic chemistry of aluminium adjuvants, and, consequently, the inappropriat

21 Aluminium adjuvants, typically referred to as 'alum', ar

22 ody response to an antigen administered with aluminium adjuvants, whereas the response to complete Fr

23 a crucial element in the adjuvant effect of aluminium adjuvants; in addition, we show that the innat

24 The low pH solubilizes root-toxic ionic aluminium (Al(3+)) species from clay minerals, driving t

25 orporated into and adsorbed by iron (Fe) and aluminium (Al) (oxy) hydroxide minerals.

26 Aluminium (Al) ions are one of the primary growth-limiti

27 number of trace elements, mainly lead (Pb), aluminium (Al), nickel (Ni), chromium (Cr), cadmium (Cd)

28 The beryllium (BeF(x)) and aluminium (AlF(4)(-)) containing complexes are proposed

29 eta-phase (Mg2Al3) along grain boundaries in aluminium alloy AA5083 (Al-Mg-Mn) during isothermal expo

30 el-aluminium precipitation in an iron-nickel-aluminium alloy in situ during laser additive manufactur

31 and assembled them onto 7075 and 6061 series aluminium alloy powders.

32 stalline compounds and quasicrystals made of aluminium alloyed with transition metals (like Fe or Cu)

33 h strength structural alloys, in particular, aluminium alloys for transportation sector.

34 to their mechanical and physical properties, aluminium alloys possess wide potential in the automotiv

35 tunately, most of the precipitation hardened aluminium alloys that are currently available can withst

36 nucleants, we found that these high-strength aluminium alloys, which were previously incompatible wit

37 ng precipitates in high-strength lightweight aluminium alloys.

38 Twinning in aluminium, although difficult, may occur at low temperat

39 his result may reverse the lagging status of aluminium among high-theoretical-capacity anodes.

40 c, dominated by the plasmon polarization for aluminium and by the crystal orientation for noble metal

41 therefrom, both being naturally enriched in aluminium and ferric ions, was assessed in a pH range of

42 development of a remarkable family of boron, aluminium and gallium [(18)F]-fluoride anion complexing

43 al search and find that 25 percent doping of aluminium and gallium in alpha iron, a naturally abundan

44 regates, P was predominantly co-located with aluminium and iron oxides and hydroxides, which are know

45 Aluminium and iron phosphate predominated in the quartz-

46 Samples of aluminium and lithium metal with different sizes and mor

47 alline silicon core fibre out of inexpensive aluminium and silica could pave the way for a simple and

48 ples of transition metal nitrides containing aluminium and silicon as well as of boron nitrides, it i

49 is integral to the biogeochemical cycles of aluminium and silicon.

50 Although porous aluminium and titanium oxides have found extensive use i

51 s, over diverse anodizing conditions on both aluminium and titanium, lie within the different ranges

52 rd the transformation whereas substitutional aluminium and vanadium influence the transformation by c

53 nts include volcanic ash (source of reactive aluminium) and reactive biogenic silica on or shallowly

54 in orientations and sizes in polycrystalline aluminium, and with micrometre depth-resolved measuremen

55 ly, interest in aluminium ion batteries with aluminium anodes, graphite cathodes and ionic liquid ele

56 o approach the theoretical shear strength of aluminium (approximately 2.2 GPa).

57 Anionic molecular imide complexes of aluminium are accessible via a rational synthetic approa

58 The concentrations of aluminium, arsenic, cadmium and lead were low, with mean

59 ysed by means of ICP-MS for their content of aluminium, arsenic, cadmium, copper, lead and mercury in

60 1) and characteristic mass of 1.2 pg, having aluminium as chemical modifier.

61 nisms between nanotwinned copper and twinned aluminium ascribed to stacking-fault energy controlled d

62 lectrochemical deposition and dissolution of aluminium at the anode, and intercalation/de-intercalati

63 The aluminium atoms initially in the core reduce the silica,

64 ntitative spatial distribution of individual aluminium atoms, including their three-dimensional exten

65 brands and five types of packaging (metallic aluminium bag, carton, high-density polyethylene, metal

66 Metallic aluminium bags were the least migrating packaging (consi

67 on spectrometry to determine the contents of aluminium, barium, boron, calcium, chromium, copper, iro

68 The cellular uptake of aluminium based adjuvants (ABAs) used in clinically appr

69 nescence (MEL) of a tris-(8-hydroxyquinoline)aluminium-based (Alq(3)) OLED within the magnetic field

70 Aluminium-based adjuvants (ABA) are the predominant adju

71 Here, we propose that aluminium-based adjuvants might hold the key to this.

72 Rechargeable aluminium-based batteries offer the possibilities of low

73 Attention is focused at aluminium-based CMAs, which comprise a large number of c

74 gy enables efficient nanofabrication of bulk aluminium-based metamaterial superconductors.

75 t absorber on the top of a low iron glass or aluminium-based substrate (5 x 5 cm(2)) connecting throu

76 Aluminium batteries constitute a safe and sustainable hi

77 Here we present a rechargeable aluminium battery with high-rate capability that uses an

78 Using cementite (Fe3C) and aluminium borocarbide (Al3BC3) as prototypes, here we sh

79 stituents through intermediates featuring an aluminium-bound isocyanate fragment.

80 ons, is able to predict the strengthening of aluminium by substitutional solute atoms.

81 Eleven toxic metals and trace elements (aluminium, cadmium, cobalt, copper, chromium, mercury, m

82 a dislocation-free volume of polycrystalline aluminium can begin at very small forces, remarkably, ev

83 produced by etching aluminium from titanium aluminium carbide (Ti3AlC2, a 'MAX' phase) in concentrat

84 exposed to the CO(2)-containing environment, aluminium cations (Al(3+)) was incorporated into a layer

85 room temperature and reversibly at a single aluminium center in [(NON)Al](-) (where NON = 4,5-bis(2,

86 s, therefore, to identify the many ways that aluminium chemistry contributes to the wide and versatil

87 minate ionic liquid electrolyte comprised of aluminium chloride/1-methyl-3-ethylimidazolium chloride/

88 equestration of several metals such as iron, aluminium, cobalt, copper, zinc, cadmium and mercury.

89 mpatible materials (titanium and its alloys, aluminium, cobalt-alloys, stainless steel, poly-ethylene

90 as a direct-fluorescent molecular probe for aluminium, complemented with transmission electron micro

91 Trivalent aluminium compounds are well known for their reactivity

92 Streamwater aluminium concentrations have also fallen and, if this r

93 ng capacity and plasticity in highly twinned aluminium containing abundant Sigma3{112} incoherent twi

94 The results indicated that aluminium-containing magnesium alloys exhibited consider

95 The surface film on pure magnesium and two aluminium-containing magnesium alloys was characterised

96 When the aluminium contains the smallest amount of added master a

97 ed by the combination of framework topology, aluminium content and drug release study media.

98 iably low with over 80% of tissues having an aluminium content below 1.0 mug/g dry weight of tissue.

99 ing as to the behaviour seen with respect to aluminium content in the metal phase.

100 The aluminium content of 191 tissue samples was invariably l

101 have confirmed previous conclusions that the aluminium content of brain tissue in Alzheimer's disease

102 The generalization of these observations to aluminium-controlled phase transitions raises the possib

103 Above the turnover pressure, silicon and aluminium coordination increases to allow further packin

104 s between them arise from the variability of aluminium coordination numbers and degree of dehydroxyla

105 terial movement, the major industrial metals aluminium, copper, iron, and zinc in the human-built env

106 hase theta' onto a template structure in the aluminium-copper alloy system.

107 Here by making yolk-shell nanocomposite of aluminium core (30 nm in diameter) and TiO2 shell ( appr

108 -cut, x propagation) with electrodes made of aluminium covered with a thin gold film (2 nm thick).

109 ctural to caesium chloride, sodium chloride, aluminium diboride and K(4)C(60) are selected according

110 The oxide shell decreases the aluminium dislocation nucleation stress by increasing th

111 r than electrons by 1-2 eV, while silver and aluminium distribute energies more equitably between ele

112 We demonstrate here that aluminium doped with very small amounts of titanium can

113 we show that combining these two effects in aluminium-doped zinc oxide via a two-colour laser field

114 reveal linewidths as narrow as 600 cm(-1) in aluminium-doped zinc oxide, a value less than half the e

115 n be arbitrarily manipulated with a flexible aluminium drumhead embedded in a microwave circuit.

116 The aluminium drumhead simultaneously forms a mechanical osc

117 ilm on an indium tin oxide substrate plus an aluminium electrode.

118 The unprocessed CMOS aluminium electrodes are modified using anodisation and

119 logies based on metallic lithium, sodium and aluminium electrodes.

120 the 3D spatial structure of an anticorrosive aluminium epoxy barrier marine coating obtained by seria

121 e enhancement of heterogeneous nucleation in aluminium, especially cast alloys such as Al-Si alloys,

122 was developed with the use of a sacrificial aluminium etching technique combined with surface modifi

123 One of the prevailing dogmas is that aluminium exerts this effect by disrupting cellular calc

124 We found the aluminium flakes align within 15 degrees of the coating

125 crystal structure of a TBC-domain-Rab-GTPase-aluminium fluoride complex, which approximates the trans

126 Aluminium fluoride was observed to stabilize the associa

127 ly bind the activator in the presence of ADP-aluminium fluoride, an analogue of ATP in the transition

128 ment with cetuximab was performed, and (18)F-aluminium fluoride-NOTA-Z(EGFR:03115) (12 mug, 1.5-2 MBq

129 Additionally, (18)F-aluminium fluoride-NOTA-Z(EGFR:03115) could measure rece

130 raphic structure of the substrate-bound, ADP-aluminium fluoride-stabilized (ADP.AlF(3)-stabilized) tr

131 so used silicon wafer and flexible polyimide-aluminium foil substrates for solution-processed n-type

132 fabricated by electrochemical anodization of aluminium foil was used as the RIfS sensing platform.

133 aphene metamaterials as well as graphene and aluminium foils is studied.

134 tle retaining properties similar to those of aluminium-free perovskite.

135 The mobilization of aluminium from acidic forest soils is arguably the most

136 hydrothermal dissolved iron, manganese, and aluminium from the southern East Pacific Rise (SEPR) sev

137 of the 'MXene' family), produced by etching aluminium from titanium aluminium carbide (Ti3AlC2, a 'M

138 cification (PCO) and neodymium-doped yttrium aluminium garnet (Nd:YAG) capsulotomy rate of a square-e

139 -like pulse compression in a mm-long yttrium aluminium garnet crystal with no additional dispersion m

140 effect of Nd: Yag (Neodymium-doped: Yttrium Aluminium Garnet) laser capsulotomy on the intraocular p

141 G nanostructures (Ce:YAG = Cerium in Yttrium Aluminium Garnet), easy to control and shape, have been

142 er to be more efficient than holmium:yttrium-aluminium-garnet energy, but current erbium:yttrium-alum

143 um-garnet energy, but current erbium:yttrium-aluminium-garnet fibers are impractical.

144 The holmium:yttrium-aluminium-garnet laser is safe and effective.

145 Preliminary data showed the erbium:yttrium-aluminium-garnet laser to be more efficient than holmium

146 Stone-free rates from holmium:yttrium-aluminium-garnet lithotripsy are greater than 90% for ur

147 Holmium:yttrium-aluminium-garnet lithotripsy is more effective than pneu

148 Holmium:yttrium-aluminium-garnet lithotripsy of biliary calculi is unifo

149 of renal deterioration after holmium:yttrium-aluminium-garnet lithotripsy.

150 onic pesticides (chlorate, ethephon, fosetyl aluminium, glufosinate, glyphosate, N-acetyl AMPA, N-ace

151 ivity of designed and composite (dual-layer) aluminium/graphene metamaterials as well as graphene and

152 The aluminium ground-plane with thickness of 3 mum is sandwi

153 o far received little attention, even though aluminium has long been recognized as exerting strong co

154 hologically with von Frey hairs (vFHs) or an aluminium heating block.

155 nable alternative to typical silane, lithium aluminium hydride, and tin-based conditions for these re

156 nts are used in products marketed in Europe: aluminium hydroxide (Al(OH)(3) ) is the most frequently

157 Dose reduction through adsorption to aluminium hydroxide (Al) is a promising option, and esta

158 somes (CTH522:CAF01), CTH522 adjuvanted with aluminium hydroxide (CTH522:AH), or placebo (saline).

159 Previous studies demonstrate that aluminium hydroxide adjuvant (alum) produces increased T

160 EPI, mice were sensitized with rBet v 1 plus aluminium hydroxide adjuvant and intranasally challenged

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

162 of adjuvants, including lipopolysaccharide, aluminium hydroxide and complete Freund's adjuvant.

163 CTH522 adjuvanted with either CAF01 or aluminium hydroxide appears to be safe and well tolerate

164 signed (1:1) to receive HPV 16/18 vaccine or aluminium hydroxide control, with an internet-based syst

165 nfirm first, the nature of the reactants, an aluminium hydroxide dimer and silicic acid, second, the

166 Aluminium hydroxide initially boosts Th2 responses, whil

167 veloped by optimizing the allergen/adjuvant (aluminium hydroxide) ratio.

168 part, of a 20 mug dose [of each serotype] of aluminium hydroxide-adjuvanted investigational vaccine)

169 ribution (PSD) of aluminium oxyhydroxide and aluminium hydroxyphosphate adjuvants was elucidated in a

170 Recently, a series of isolable aluminium(I) anions ("aluminyls") have been reported, wh

171 ancies required to balance the charge of the aluminium; if so, this would have important consequences

172 A sensitive method for determination of aluminium in concentration range of 0.1-1.0mgL(-1), with

173 hile research has both quantified and imaged aluminium in human brain tissue in neurodegenerative and

174 rgeoning number of studies are demonstrating aluminium in human brain tissue.

175 understand the role played by high levels of aluminium in the aetiology of human neurodegenerative an

176 ganic semiconductor tris-(8-hydroxyquinoline)aluminium in the range +/-500 uT displaying clear minima

177 ce atomic absorption spectrometry to measure aluminium in twenty brains from donors without recognisa

178 This work studies the deposition of aluminium-incorporated nickel coatings by brush electrop

179 Here by heating hydrogenated aluminium inside an environmental transmission electron

180 own at a high density as a result of a 35 nm aluminium interlayer which has previously been shown to

181 n) on the (110) surface of an ordered nickel-aluminium intermetallic alloy does not occur over the en

182 Recently, interest in aluminium ion batteries with aluminium anodes, graphite

183 Here, an aluminium ion battery cell made using pristine natural g

184 arded as an improper option for rechargeable aluminium-ion batteries (AIBs) in comparison with sulfid

185 sis showed that Ulva contains high levels of Aluminium ions (Al(3+)).

186 d root tolerance to alkaline pH, acid pH and aluminium ions.

187 at corrode to release significant amounts of aluminium ions.

188 Although aluminium is the fifth most abundant element in the Eart

189 ght metal, with a density two-thirds that of aluminium, is abundant on Earth and is biocompatible; it

190 rements of cosmic-ray-produced beryllium and aluminium isotopes ((10)Be and (26)Al) in a bedrock core

191 million years, as indicated by beryllium and aluminium isotopes ((10)Be and (26)Al) in quartz sand re

192 risation at 107 degrees C for 6s, subsequent aluminium laminate packaging and cold storage had only a

193 cumulation of spin-polarized carriers in the aluminium layer using tunnel spin injectors.

194 tically favored nitridation of the deposited aluminium layer.

195 a illustrating the rapid formation of nickel aluminium-layered double hydroxide precipitates at the m

196 -polarized quasiparticles in superconducting aluminium layers have surprisingly long spin lifetimes,

197 cies (eta(int)) were measured when silver or aluminium layers were deposited 10 nm above an InGaN lig

198 oped to address micromasking issues from the aluminium mask by optimising the proportion of O(2) in t

199 romote the chemical reaction of WS2 with the aluminium matrix.

200 , by incorporating a free-standing, flexible aluminium membrane into a lumped-element superconducting

201 ttery with high-rate capability that uses an aluminium metal anode and a three-dimensional graphitic-

202 Rechargeable lithium, sodium and aluminium metal-based batteries are among the most versa

203 ssion electron microscopy experiments of the aluminium metal/oxide interface under hydrogen exposure.

204 re we report the operation of doubly-clamped aluminium nanobeams in superfluid (4)He at temperatures

205 able and highly energetic liquid composed of aluminium nanoparticles and ferritin proteins for printi

206 on of this technique is the stabilization of aluminium nanoparticles in reduced graphene oxide film,

207 port, we demonstrate the use of Al2O3-coated aluminium nanoparticles to form the recently proposed ep

208 ics and show that the oxidation enhances the aluminium nanowire ductility, and the oxide shell exhibi

209 red conveyor belt structure is fabricated in aluminium nitride (AlN) because of its outstanding therm

210 gas in epitaxially grown gallium nitride on aluminium nitride and show that such hole gases can form

211 ncy and silicon-vacancy colour centres in an aluminium nitride PIC.

212 xtbook description: these reagents behave as aluminium nucleophiles.

213 The severity of the inhibitory effect of aluminium on [Ca2+]c depends on the concentration of ext

214 realized on a heterostructure consisting of aluminium on indium arsenide.

215 The importance of aluminium on solubility mechanisms at high pressure has

216 ance of the effect of minor elements such as aluminium on the properties of major phases such as pero

217 ctivation process using complexes of ADP and aluminium or beryllium fluoride.

218 as been and continues to be to keep inimical aluminium out of biota.

219 ly determine the short-range distribution of aluminium over the different T-sites and determine the m

220 Highly ordered nanoporous anodic aluminium oxide (AAO) fabricated by electrochemical anod

221 e and the garnet electrolyte using ultrathin aluminium oxide (Al2O3) by atomic layer deposition.

222 ely 10 microF cm-2 for 1-microm-thick anodic aluminium oxide and approximately 100 microF cm-2 for 10

223 array used eight sensing materials (based on aluminium oxide and silica gel) containing pH indicators

224 g different dyes and two inorganic supports (aluminium oxide and silica gel).

225 pecies of isoflavone could be isolated using aluminium oxide by specific retention of 5-hydroxy isofl

226 Even a few monolayers of aluminium oxide can be deposited in a controlled manner

227 ee-standing plates up to 2 cm in size out of aluminium oxide films as thin as 25 nm.

228 GO, most notably on filtration with anodized aluminium oxide filter discs that corrode to release sig

229 , PhNCO and N(2) O all proceed via a common aluminium oxide intermediate.

230 limited mobility of sodium ions through the aluminium oxide layers.

231 grown directly in the channels of nanoporous aluminium oxide membrane were fabricated and tested as a

232 uce the silica, to produce silicon atoms and aluminium oxide molecules.

233 tal-insulator-metal nanocapacitors in anodic aluminium oxide nanopores.

234 t-water environment) or a strong abrasion by aluminium oxide sandpaper of 600 mesh.

235 omatography comprising macroporous resin and aluminium oxide to isolate isoflavone.

236 Full-area ultra-thin aluminium oxide tunnelling layers do not require any con

237 mixtures of activated carbon, bentonite and aluminium oxide were able to eliminate up to 87% of myco

238 lyte confined within the nanopores of anodic aluminium oxide, as an all-in-one nanosize device.

239 y 100 microF cm-2 for 10-microm-thick anodic aluminium oxide, significantly exceeding previously repo

240 we have developed a glycan microarray on an aluminium-oxide-coated glass slide containing a diverse

241 Aluminium oxides constitute an important class of inorga

242 nductive solid solution of chromium(iii) and aluminium oxides in the corundum structure.

243 Generated by thermal transformation of aluminium (oxy)hydroxides, structural differences betwee

244 us flow as a result of healing of the broken aluminium-oxygen bonds by oxygen diffusion, below a crit

245 ein, the particle size distribution (PSD) of aluminium oxyhydroxide and aluminium hydroxyphosphate ad

246 High loading of aluminium oxyhydroxide in the cytoplasm of THP-1 cells w

247 aic HIV-1 Env/Gag/Pol antigens combined with aluminium phosphate-adjuvanted clade C gp140 protein.

248 e of collisional ionization in solid-density aluminium plasmas at temperatures ~30 eV to be several t

249 od to study collision rates in solid-density aluminium plasmas created and diagnosed using the Linac

250 The method is applied to aluminium plasmas created by intense X-ray irradiation,

251 irect evidence that a submicrometre grain of aluminium plastically deformed by nanoindentation to a d

252 An aluminium plate with a honeycomb lattice of periodic sub

253 intrinsic heat treatment, can trigger nickel-aluminium precipitation in an iron-nickel-aluminium allo

254 uperdense stable phase of body-centred-cubic aluminium, predicted by first-principles theories to exi

255 soporous ZSM-5 nanoboxes with low silicon-to-aluminium ratios of ~16.

256 on started shortly after that of the calcium-aluminium-rich inclusions (4,567.2 +/- 0.7 Myr ago) and

257 Elephant Moraine 90161 as Myr after calcium-aluminium-rich inclusions (CAIs), the oldest Solar Syste

258 the most refractory mineral phases (calcium-aluminium-rich inclusions, CAIs) in meteorites have hith

259 An aluminium rod is inserted into a macroscopic silica tube

260 tranded RNA, ATP, monosodium urate, adjuvant aluminium, rotenone, live Escherichia coli, anthrax leth

261 me is determined from the suppression of the aluminium's superconductivity resulting from the accumul

262 sed and safe adjuvant, composed of insoluble aluminium salts, provides protection against viruses tha

263 ilities reappeared in electrically grounded, aluminium-screened huts, which attenuated electromagneti

264 in indium arsenide nanowires with epitaxial aluminium shells.

265 lines from heavy elements such as magnesium, aluminium, silicon, calcium, iron, and nickel.

266 lied to a wide range of materials, including aluminium, silicon, tin and so on.

267 However, the 9R phase rarely occurs in aluminium simply because of its giant stacking fault ene

268 in sensing in adhesively bonded aluminium-to-aluminium single-lap joints to accurately indicate the o

269 significant decline in the concentrations of aluminium species in soil solutions at medium-to-high el

270 ling it out in three-dimensional mixtures of aluminium spheres.

271 Aluminium stress resulted in disordered arrangement of c

272 Aluminium stress significantly decreased the IAA concent

273 e to the crystallographic orientation of the aluminium substrate.

274 arrays of optically active semiconductors on aluminium substrates that are then configured as solar-c

275 city (approximately 6.1 km s-1) impacts into aluminium targets, suggesting that space fullerenes cont

276 Aluminium, the most abundant metal in the earth's crust,

277 with other common engineering alloys such as aluminium, there is no commercial grain refiner for tita

278 rofile of single hotspots on the surfaces of aluminium thin films and silver nanoparticle clusters, w

279 In the presence of aluminium, this pH-mediated elevation in [Ca2+]c does no

280 between tetrahedra containing silicon and/or aluminium, thus yielding negatively charged tetrahedral

281 ope, here we demonstrate that after exposing aluminium to hydrogen, mobile dislocations can lose mobi

282 in-situ strain sensing in adhesively bonded aluminium-to-aluminium single-lap joints to accurately i

283 , thus perhaps explaining why the effects of aluminium toxicity are ameliorated in calcium-rich soils

284 stresses, including salinity, pathogens and aluminium toxicity, which in turn could expand available

285 Aluminium tubes for pharmaceutical use are internally la

286 ed necessary for the production of ER-coated aluminium tubes intended for pharmaceutical use and shou

287 Elevated BADGE concentrations in ER-coated aluminium tubes pose a risk of developing contact dermat

288 Aluminium typically deforms via full dislocations due to

289 l as assess the long-range redistribution of aluminium upon zeolite steaming.

290 research gives strongly conflicting results: aluminium was shown to provoke either an increase or a d

291 Detailed statistical analyses showed that aluminium was significantly increased in each of these d

292 of a HgTe quantum well coupled to thin-film aluminium, we are able to tune the transition between a

293 arming, whereas concentrations of lipids and aluminium were reduced.

294 m, nickel, cadmium, antimony, lead, mercury, aluminium) were determined by ICP-MS due to the higher s

295 s simulations and models predict twinning in aluminium, where it has never been observed.

296 y in an InAs nanowire segment with epitaxial aluminium, which forms a proximity-induced superconducti

297 on the grain refinement of commercial purity aluminium with a range of Al3Ti1B master alloy additions

298 ith tens of nm in width in ultrafine-grained aluminium with an average grain size of 140 nm, as confi

299 d high stacking-fault energy metals, such as aluminium with incoherent twin boundaries, has not been

300 he shallow lower mantle would be affected by aluminium-with the deeper mantle retaining properties si