ライフサイエンスコーパス: alumina

1 incorporation of pH indicators to MCM-41 and alumina.

2 XRD patterns of high-temperature transition alumina.

3 so displayed good activity when supported on alumina.

4 lity of liquid sodium on the surface of beta alumina.

5 oly(1-->4-beta-glucan) (beta-glu) strands on alumina.

6 t with expectations based on irradiations of alumina.

7 trum of hydroxyl groups in a sample of alpha-alumina.

8 on of catalysis materials such as mesoporous alumina.

9 pically observed in the "activation" step of alumina.

10 erties of "activated" (thermally pretreated) alumina.

11 HCO(3) in contrast with non-nanoporous alpha alumina.

12 th the simulated and the measured studies of alumina.

13 e to develop new or improved applications of alumina.

14 electrodes which are separated by 5 nm thick alumina.

15 dation on single Pd atoms supported on theta-alumina.

16 -33 times less expensive than with activated alumina.

17 in dysprosium (Dy)- and lutetium (Lu)-doped alumina.

18 s tightly packed with silica gel followed by alumina.

19 orber consisting of mirror-backed nanoporous alumina.

20 uantification of high-temperature transition aluminas.

21 ally allocated to intracameral injections of alumina 0.2 mug, alumina 20 mug, copper sulfate 0.4 mug,

22 intracameral injections of alumina 0.2 mug, alumina 20 mug, copper sulfate 0.4 mug, copper sulfate 2

23 (4)(*-) scavenging rate constant (k(=S)) for alumina, a naturally occurring mineral in soil and aquif

24 w sequential infiltration synthesis (SIS) of alumina, a simple solvent-free process, stabilizes polye

25 kness and air-filling fraction of nanoporous alumina, according to the Maxwell-Garnet mixture theory,

26 chromatography; the use of deactivated basic alumina (activity IV) afforded high yield and purity.

27 ts from modification of binding sites on the alumina, adjacent to the particles.

28 we are combining plasmonic nanoheaters with alumina aerogel.

29 s focused into a flux of helium charged with alumina aerosols of a few micrometers diameter.

30 We showed that alumina (Al(2)O(3)) overcoating of supported metal nanop

31 shock experiments (A. Rode, unpublished) on alumina (Al2O3) have shown non-equilibrium decomposition

32 on decorated graphene oxide (GO) sheet with alumina (Al2O3) nanocrystals.

33 layer deposition (ALD) of titania (TiO2) and alumina (Al2O3) on Ni-rich FCG NMC and NCA active materi

34 actors, the protocol of adsorbing enzymes to alumina (Al2O3) xerogel modified PDMS surface was demons

35 atoms supported on an inert substrate, theta-alumina (Al2O3), in the presence of stoichiometric oxyge

36 rst-principles calculations, the activity of alumina alpha-Al2O3(0001) surface toward formation of ph

37 3) adsorbed on Bronsted superacidic sulfated alumina (AlS).

38 al dipolar correlation spectra on mesoporous alumina, an advanced material with potential industrial

39 pecies upon milling with Lewis acids such as alumina and ceria to functionalize methane at moderate t

40 Alumina and copper sulfate did not cause clinically mean

41 ions, Zn-Al LDH precipitates formed on gamma-alumina and corundum but not on less soluble minerals su

42 calibration-free LIBS measurements of solid alumina and glass and promote compositional analysis of

43 yl)tetrabenzoic acid (H4TCPP), to react with alumina and make MOF [Al2(OH)2TCPP] enclosures around Ag

44 iant phase are synthesized by coextrusion of alumina and nickel oxide.

45 -pyridine complex in MeCN and purified using alumina and quaternary methyl ammonium solid-phase extra

46 lly friendly and convenient, indicating that alumina and stannia are suitable for the applications by

47 e nature of the interface between silica and alumina and the atomic structure of the catalytically ac

48 M)-fabricated high-strength ceramics-namely, alumina and zirconia-are widely accepted as reliable alt

49 ytic properties of Fe impregnated on silica, alumina, and titania nanoparticles (as prototypical mine

50 Alumina- and stannia-based hollow fibers were synthesize

51 ucture and nitrogen-doped graphene layers on alumina are obtained by pyrolysis of Co(OAc)2/phenanthro

52 le supported atoms on inert substrates (e.g. alumina) are limited to adatoms and cations of Pt, Pd, a

53 Using plate-shaped alumina as a support material resulted in porous structu

54 linac were conducted using oxygen-containing alumina as a target material to study the production rat

55 ctionality arises from the use of mesoporous alumina as an inert scaffold that structures the absorbe

56 m-sulfur battery using K(+) -conducting beta-alumina as the electrolyte to separate a molten potassiu

57 tion/precipitation on gamma-Al(2)O(3) (gamma-alumina) at pH 7.5 using extended X-ray absorption fine

58 against polytetrafluoroethylene (PTFE)- and alumina-based filters.

59 The binding of this ligand to alumina-based, hydroxyapatite-based, and calcium phospha

60 These results demonstrate that sodium-beta alumina batteries can be operated at much lower temperat

61 lohexane dehydrogenation on platinized gamma-alumina beads.

62 or hydrolysis of grafted beta-glu strands on alumina being 70 kJ/mol relative to 87 kJ/mol on silica.

63 rticles controllably deposited either on the alumina binder or inside the zeolite crystals.

64 zeolites (ZSM-22 and mordenite) and a gamma-alumina binder, with platinum particles controllably dep

65 The alumina-blasting surface presented the highest average s

66 Five implant surfaces were evaluated: 1) alumina-blasting, 2) biologic blasting, 3) plasma, 4) mi

67 le blasting media (microblasted RBM), and 5) alumina-blasting/acid-etched (AB/AE).

68 1)) in the neat perovskite and in perovskite/alumina blends; almost balanced electron and hole mobili

69 The alumina blocking layer was found to contribute to the no

70 NH2-functionalized, and -SO3H-functionalized alumina but not on -COOH- and -PO3H2-functionalized part

71 ell-Garnet mixture theory, a large-area dark alumina can be made with excellent photothermal properti

72 periodic or aperiodically ordered transition alumina can now be assessed beyond the current limitatio

73 assed through a cation exchange resin and an alumina cartridge, followed by saline elution.

74 h isotonic saline, passing through 3 neutral alumina cartridges and a sterilizing filter.

75 vated pressures (e.g., 36 bar) over a silica/alumina catalyst to produce a gas stream composed of equ

76 y active and well-structured nano-mesoporous alumina catalysts/supports from aluminum foil waste and

77 2O3 depends on the activation temperature of alumina; catalysts activated at or above 500 degrees C c

78 The dehydroxylated alumina catalyzes the conversion of phenol into its phen

79 ent of rigid PIM-1 in the channels of anodic alumina causes reduction of small-scale mobility in poly

80 We show the chemical functionalisation of alumina ceramic microfiltration membranes (0.22 mum pore

81 Bioinspired "brick-and-mortar" alumina ceramics containing a nickel compliant phase are

82 ion ( TIT) in particular, of these submicron alumina ceramics has been examined with the Rayleigh-Gan

83 ties of a new class of submicron grain-sized alumina ceramics relative to the current state-of-the-ar

84 findings have shown that for polycrystalline alumina ceramics, an average grain size <1 microm couple

85 Synthetic transition aluminas (chi, kappa, theta, gamma, delta, eta, rho) exh

86 lyte), depending on whether the electrode is alumina coated.

87 is(6)-Al chelation, TF2- and TF6-immobilized alumina-coated magnetic nanoparticles (Fe(3)O(4)@Al(2)O(

88 tory on the basis of cryoadsorption on short alumina-coated porous layer open tubular (PLOT) columns.

89 um nanoparticles on a carbon surface with an alumina coating for passivation of carbon defect sites.

90 hium peroxide with grain boundaries, and the alumina coating preventing electrolyte decomposition on

91 3-dichloro-5,6-dicyano-1,4-benzoquinone) and alumina column chromatographic purification afforded new

92 port on the synthesis of unoxidized graphene/alumina composite materials having enhanced toughness, s

93 ness three or more times higher than that of alumina, consistent with significant extrinsic toughenin

94 uss two quantitative models to determine the alumina content from the Raman spectra of the molten NaF

95 aches are applied to determine both the COx (alumina content) and the CR (NaF/AlF3 molar ratio) by Ra

96 ic conversion by platinum supported on gamma-alumina converts various polyethylene grades in high yie

97 A coarse-grained alumina could also reach a translucency level comparable

98 U(VI) presorbed to mesoporous and nanoporous alumina could not be released by extended (2 week) extra

99 Porcelain-veneered alumina crown restorations often fail from bulk fracture

100 neficial in the design of fracture-resistant alumina crowns.

101 e interfacial perimeter of copper/zinc oxide/alumina (CZA) catalyst.

102 Here, we demonstrate how a nanometerthick alumina deposition inside such a cavity can be used to g

103 m, in which transport of silver ions through alumina dielectric leads to bias-induced nucleation and

104 sites can be built on various ceria and even alumina, distinguishable by facile activation of oxygen

105 e formation of an isolating amorphous silica alumina envelope.

106 leanup co-sorbents: florisil, silica, silica/alumina, Envi Carb, Envi-Carb-II/PSA, SAX/PSA, Envi-Carb

107 e of the core is coated with a thin layer of alumina (Fe3O4@Al2O3 MNPs).

108 aphite punches, which are protected from the alumina fiber film by a graphite foil.

109 eved through the insertion of a film made of alumina fibers between the graphite die and the graphite

110 w composite membranes based on porous anodic alumina films and polymer of intrinsic microporosity (PI

111 rmed by atomic layer deposition of ultrathin alumina films on a lithographically patterned silicon wa

112 structure and phase composition of Ln-doped alumina for emerging applications.

113 Like other alumina formers, the oxidation kinetics follow a cubic t

114 d hematite (alpha-Fe2O3) increased and gamma-alumina (gamma-Al2O3) decreased the Hg(0) production rat

115 In contrast, at pH 5.5, only gamma-alumina-GPS-Zn ternary surface complexes formed regardle

116 Formation of gamma-alumina-GPS-Zn ternary surface complexes was further sug

117 study, we report development of spray-dried alumina granules modified with copper (oxide) nanopartic

118 At [alumina] >5 g L(-1), the reaction of SO(4)(*-) with soli

119 Lanthanide (Ln(3+)) doping in alumina has shown great promise for stabilizing and prom

120 Grafted beta-glu strands on alumina have a 9-fold higher hydrolysis rate per glucan

121 The COF thin film-alumina hollow fiber membrane composites have showcased

122 iformly in the inner and outer surface of an alumina hollow fiber membrane.

123 FI nanosheet coatings were prepared on alpha-alumina hollow fiber supports by vacuum filtration and t

124 polycrystalline membranes were fabricated on alumina hollow fibers using an in situ solvothermal synt

125 human breast milk samples were used to apply alumina hollow fibers, as a proof of concept.

126 ft followed the order: silica > iron oxide > alumina in 10 mM NaCl at pH 4.0.

127 th the observation of significant amounts of alumina in compositions of some natural tilleyite assemb

128 Nanoporous alumina in the biosensor device generates a high density

129 ling studies we investigate the stability of alumina in water.

130 garnet electrolyte surface and the lithiated-alumina interface allows effective lithium ion transport

131 The alumina irradiations provided preliminary data to optimi

132 importance to heterogeneous catalysis where alumina is a major support.

133 Re2O7 supported on gamma-alumina is an alkene metathesis catalyst active at room

134 Nickel supported on silica-alumina is an efficient and reusable photocatalyst for t

135 due is the alkaline byproduct generated when alumina is extracted from bauxite ores and is commonly d

136 the immobilization of coordination cages on alumina is reported.

137 In this study, Ln-doping (400 ppm) of the alumina lattice crucially delays the onset of phase tran

138 ng mechanisms for phase stabilization of the alumina lattice is indispensable.

139 n the vacant octahedral locations within the alumina lattice, where complete conversion into the ther

140 le anodizing process, which yielded a porous alumina layer with pores exhibiting a mean diameter rang

141 the confluence of the silica gel layer with alumina layer.

142 The addition of lanthanum oxide to the alumina, long known for its ability to improve alumina s

143 into the matrix of magnesio aluminate spinel-alumina (MA-A) via infiltration of a porous preform fabr

144 auxite residue is a high volume byproduct of alumina manufacture which is commonly disposed of in pur

145 prepared by argon plasma etching through an alumina mask.

146 ering of Si0.8Ge0.2 on highly ordered porous alumina matrices.

147 y, the newly developed submicron grain-sized alumina may be considered a suitable material for dental

148 For the high-dose alumina, mean inflammatory grades peaked at 6 to 9 hours

149 f alkylidenecycloalkanone followed by acidic alumina-mediated regioselective ring expansion of the cy

150 lm or within the pores of Anodisc nanoporous alumina membrane as a densely packed array of poly-MTAPc

151 pesticide sensor comprising of a nanoporous alumina membrane integrated with printed circuit board p

152 mbin by an aptamer-functionalized nanoporous alumina membrane using a four-electrode electrochemical

153 scribed the use of a small and thin piece of alumina membrane, 60 mum thick and 13 mm in diameter as

154 on by a monolithically integrated nanoporous alumina membrane, which can support pressure differences

155 as thin films and within the pores of anodic alumina membranes (AAMs), respectively.

156 -active nanoporous substrate based on porous alumina membranes decorated with mixed nanoclusters comp

157 Nanoporous alumina membranes have become a ubiquitous biosensing pl

158 Porous alumina membranes were employed as model chromatographic

159 monstrate that a proper control of the gamma-alumina morphology is a strategic lever for a molecular-

160 degrees C for 24 h and then cleanup with an Alumina-N SPE cartridge.

161 mine (PEI-GA-PEI)-modified nanoporous anodic alumina (NAA) interferometers with reflectometric interf

162 scopy (RIfS) combined with nanoporous anodic alumina (NAA) platforms when detecting different analyte

163 or this purpose first, the nanoporous anodic alumina (NAA) was fabricated.

164 For this purpose, the nanoporous anodic alumina (NAA) was first fabricated.

165 Hollow-tube alumina nanolattices were fabricated using two-photon li

166 We discovered that hollow-tube alumina nanolattices with 3D kagome geometry that contai

167 Formation of so-called hydration layer on alumina nanoparticles in water was hypothesized, but nev

168 d nanoprobes (Gal-1 antibodies conjugated to alumina nanoparticles through silane modification) that

169 K result in the formation of a 1.5 nm thick alumina nanosheet underneath graphene.

170 Nanostraws are hollow alumina nanotubes that can be used to deliver biomolecul

171 composite, where uniformly cross-linked beta alumina nanowires are compactly coated by a poly(vinylid

172 These beta alumina nanowires combined with the gel polymer layer cr

173 d-phase extraction with MgSO4, PSA, C18, and alumina-neutral.

174 wo compartments separated by either a porous alumina or polycarbonate membrane as a model system, dif

175 small amounts activate platinum adsorbed on alumina or silica for the low-temperature water-gas shif

176 erm studies indicate that porcelain-veneered alumina or zirconia full-coverage crowns and fixed denta

177 Atomic layer deposition (ALD) of an alumina overcoat can stabilize a base metal catalyst (e.

178 The alumina overcoat initially covers the catalyst surface c

179 , ZnO nanoparticle assemblies with ultrathin alumina overlayers, dramatically enhance durability of a

180 inner walls (200 nm diameter) of an anodized alumina oxide filter membrane (AAO).

181 tailoring the surface chemistry of colloidal alumina particles (d50 = 180 nm) with amino (-NH2), carb

182 us grit sizes or grit-blasting with airborne alumina particles, were subjected to accelerated aging t

183 reasing gradually the formation of spherical alumina particles.

184 enched to induce compressive stresses in the alumina passivation shell surrounding Al core.

185 composition ratios between alpha- and theta-alumina phases are studied using a combination of solid

186 chemically functionalized nanoporous anodic alumina photonic films (NAA-PFs) and reflectometric inte

187 d that gallium was produced from 8 to 21% of alumina plants in 2011.

188 structures by infiltrating glass into dense alumina plates, resulting in a diminished modulus at the

189 Finally, alumina polishing of lapped, NDC free, freestanding, BDD

190 micro-truss and -shell structures made from alumina-polymer composite.

191 cle size occurs with both films deposited on alumina powder and nanoparticles stabilized by polyelect

192 )-Pd(II) complexes and poly(ethylenimine) on alumina powder followed by reduction of Pd(II) with NaBH

193 Pure alumina powder has been used without any binder phase, e

194 t reactively wets the surface of freeze-cast alumina preforms.

195 syn-addition via pathway a, while the use of alumina provided access to the anti-adduct.

196 e are produced globally as a by-product from alumina refineries.

197 ontaneous colonization of a bauxite residue (alumina refining tailings) deposit by local vegetation i

198 ailings material generated as a byproduct of alumina refining), to which a diverse microbial inoculum

199 ligram vehicle uses four wings driven by two alumina-reinforced piezoelectric actuators to increase a

200 n this paper, 27Al NMR spectroscopic data on alumina reported in literature are collected in a compre

201 verage of aluminum and silicon on silica and alumina, respectively.

202 l min)(-1) for hematite, goethite, and gamma-alumina, respectively.

203 nd optical optimization of nanoporous anodic alumina rugate filters (NAA-RFs) for real-time and label

204 serum albumin by combining nanoporous anodic alumina rugate filters (NAA-RFs) modified with human ser

205 heating rates of 5 degrees C min(-1) and an alumina sample holder improve the efficiency of the dryi

206 nolattices; (ii) recoverability, with hollow alumina samples recovering up to 98% of their original h

207 d approach as a standard characterisation of alumina samples will readily reveal NMR parameter-struct

208 Sodium beta-alumina (SBA) has high two-dimensional conductivity, owi

209 ides, MoAlB forms a dense, mostly amorphous, alumina scale when heated in air.

210 particle layer into a dense amorphous silica-alumina shell further reduces the mass transport to the

211 ayer deposition (c-ALD) synthesis to grow an alumina shell with tunable thickness around nanocrystall

212 ion of core-shell particles (silica core and alumina shell) to low-density framework types and their

213 Size-dependent strengthening of alumina shells has been observed, particularly when appl

214 technologically important materials such as alumina, silica, and copper metal.

215 Although the alumina-silica system has been intensely studied, the ef

216 ience approach using four well-defined alpha-alumina single crystal surfaces (C (0001), A (1120), M (

217 as reducing the content of light-scattering alumina sintering aid or incorporating a component of op

218 bilization of the unstable enzyme, including alumina sol-gel encapsulation, physisorption to PDMS cha

219 ogen activator was entrapped within a porous alumina sol-gel film with a subsequent deposition on a p

220 Solid-state electrolytes (SSEs) such as beta-alumina solid electrolyte (BASE), sodium superionic cond

221 dicate that the alloys form an inner chromia-alumina solid-solution covered by an MgCr(2)O(4) spinel

222 ood commodities with methanol, cleaned up by alumina-SPE column, and then determined by HPLC-MS/MS.

223 ve field transmitted through randomly packed alumina spheres--can be decomposed into a sum of the pat

224 umina, long known for its ability to improve alumina stability, is found to also help in the stabiliz

225 o cages, adsorbed on to different regions of alumina, stabilizes and separates a pair of Diels-Alder

226 ogel consisting of approximately 10 nm-thick alumina strands, spaced by approximately 100 nm, and ali

227 The Si0.8Ge0.2 film replicated the porous alumina structure resulting in nano-meshed films.

228 To resolve this issue, we made alumina structures using rapid pressureless infiltration

229 ing-opening sigma-bond metathesis, giving an alumina-substituted P-hydrogeno phosphaalkene 4.

230 membrane was grown and supported on a porous alumina substrate using a solvothermal crystallization m

231 the migration from the dissolution of gamma-alumina substrate.

232 of 1-hexanoic acid most likely occurs on the alumina support, and probably results from modification

233 s phase, deposited on an ultrathin amorphous alumina support, and tested as catalysts experimentally

234 Alumina-supported Cu(II) efficiently catalyzes selenylat

235 the liquid/solid interface of optically flat alumina-supported palladium nanoparticle surfaces prepar

236 e particle size controls the CO/CO2 ratio on alumina-supported Pd, demonstrating the potential applic

237 gamma-Alumina-supported single-atom alloy nanoparticle catalys

238 observe that silica-, silicon nitride-, and alumina-supported zirconia on silicon nucleates single-

239 roximately 3.5-nanometer Ag nanoparticles on alumina supports can catalyze this reaction with only a

240 e membranes comprising crumpled nanofilms on alumina supports provided high retention of solutes, wit

241 ial penetration of polymer into the pores of alumina supports takes place giving rise to selective po

242 thesized on porous stainless steel and alpha-alumina supports using a seeded growth method.

243 ing site-isolated secondary amines on silica-alumina supports.

244 ically active on industrially relevant gamma-alumina supports.

245 s and conformations of the substrates at the alumina surface through high-resolution measurements of

246 on were partitioned between the solution and alumina surface to quite varying degrees.

247 fulvic acid (SRFA) during its sorption at an alumina surface, taken as a model for surfaces of natura

248 ively yields monomeric SiO(x) species on the alumina surface.

249 mingled palladium and lanthanum on the gamma-alumina surface.

250 s, and the desorption of rhodamine B from an alumina surface.

251 ructural analogies between alpha- and gamma- alumina surfaces allow us to bridge the material gap wit

252 1-hexanoic acid adsorbs to both ALD-prepared alumina surfaces and alumina surfaces with palladium nan

253 ons between carbon-containing substrates and alumina surfaces is of paramount importance to industria

254 bs to both ALD-prepared alumina surfaces and alumina surfaces with palladium nanoparticles, that were

255 bs with conformational order on ALD-prepared alumina surfaces, but on surfaces with palladium particl

256 red pathways for the adsorption of phenol on alumina surfaces, corroborating the role of particulate

257 FT) calculations, we show that on silica and alumina surfaces, molecular aluminum and silicon precurs

258 high reactivity of partially dehyxdroxylated alumina surfaces.

259 meter, pitch, neck) was achieved through the alumina template, with pore diameters ranging from 294 +

260 s to a hydrolysis rate per grafted center on alumina that is 2.7-fold more active than on silica.

261 ore-shell subunits on silicon-functionalized alumina that was recently reported has created renewed i

262 and R (1102) planes) as surrogates for gamma-alumina (the industrial support) in order to discriminat

263 recursor to form 2 nm Ni(0) nanoparticles on alumina, the commonly used support in DRM.

264 rt can be mitigated through the Mg-doping of alumina, thereby increasing significantly the stability

265 Alumina thickness is precisely controlled from 0.1 to 3

266 rformed on Au particle ensembles prepared on alumina thin films suggest that the molecular ligands ar

267 e overcoated palladium NPs with 45 layers of alumina through an atomic layer deposition (ALD) process

268 at His(6) possesses specific affinity toward alumina through His(6)-Al chelation, TF2- and TF6-immobi

269 greater than other reported anodized porous alumina, typically semi-transparent at similar wavelengt

270 and diaryl dichalcogenides on the surface of alumina under ball-milling without any solvent or metal.

271 of the photocatalytic activity of Ni/silica-alumina under solar light derives from the visible light

272 hich indicated the glyphosate binds to gamma-alumina via a phosphonate group, bridging the mineral su

273 GSSG is suggested to bind to -SO3H-modified alumina via the primary amino groups of both GS moieties

274 k(=S) for alumina was 2.42 x 10(4) and 2.03 x 10(4) m(-2) s(-1) fo

275 irmed that U(VI) presorbed to non-nanoporous alumina was rapidly and completely reduced to nanopartic

276 s reduction of U(VI) presorbed to nanoporous alumina was slow and incomplete (<5% reduction after 1 w

277 The flexural strength of the aluminas was determined with the 4-point bending test.

278 The strength of these submicron grain-sized aluminas was significantly higher than that of the cubic

279 ated separately with silica, iron oxide, and alumina were applied in quartz crystal microbalance with

280 (GPS) on Zn sorption/precipitation on gamma-alumina were investigated using a batch technique, Zn K-

281 ically disposed silver nanowires embedded in alumina were shown to be capable of conducting plasmons

282 te adsorbed to boehmite, corundum, and gamma-alumina were significantly different.

283 contrast ratio ( CR) of the newly developed aluminas were measured with a reflectance spectrophotome

284 (GS) moieties onto native and -NH2-modified alumina, whereas GSSG is suggested to bind to -SO3H-modi

285 rmal stability to oxides, such as silica and alumina, which are not otherwise stable at elevated temp

286 rticular example is Pt clusters deposited on alumina, which have been shown to dehydrogenate hydrocar

287 acquire a chloride ligand from the modified alumina while donating an oxo ligand to the support.

288 Loading alumina with a sparse concentration of Ln-dopants sugges

289 old higher specific activity than the parent alumina with identical selectivity.

290 However, doping alumina with Ln elements is generally accompanied by for

291 The reaction of gamma-alumina with tetraethylorthosilicate (TEOS) vapor at low

292 this approach is demonstrated on mesoporous alumina with the acquisition of well-resolved DNP surfac

293 rect visualization of aqueous suspensions of alumina with the fluid cell in situ.

294 have shown non-equilibrium decomposition of alumina with the formation of free Al and a mysterious t

295 d catalysts (i.e., Pd on activated carbon or alumina) with respect to nitrite reduction activity and

296 flow conditions on the SAA NPs supported on alumina without activity loss in the presence of CO.

297 isorption to PDMS channels with, and without alumina xerogel modification, were compared to build a m

298 romoacetophenones in the presence of neutral alumina yields 2-substituted benzo[b]furans with complet

299 f these latter compounds promoted by neutral alumina yields the corresponding 3-substituted benzo[b]f

300 ilized zirconia (YSZ) and zirconia-toughened alumina (ZTA) ceramics are tactfully applied as dielectr