ライフサイエンスコーパス: sol

1 asurements spanning a 60-sol period (where 1 sol is a martian day), we observed elevated levels of me

2 e architecture of the three-dimensional (3D) sol-gel biomatrix that forms during the encapsulation pr

3 n four sequential measurements spanning a 60-sol period (where 1 sol is a martian day), we observed e

4 A sol-gel hybrid sorbent, methyltrimethoxysilane-tetraetho

5 A sol-gel method for the synthesis of semiconducting FeCrA

6 A sol-gel urea colorimetric method was developed for the d

7 short length nanofiber was synthesised by a sol-gel based simple and versatile electrospinning and p

8 surface area were successfully prepared by a sol-gel method following a sulfurization treatment in an

9 ited on monodisperse Fe3O4 microspheres by a sol-gel method.

10 id material, (SiO2/MWCNT), was obtained by a sol-gel process using HF as the catalyst.

11 ygermane was used as a precursor to create a sol-gel network via hydrolytic polycondensation reaction

12 incorporating both enzyme and RGO-AuNPs in a sol gel matrix derived from tetrametoxysilane and methyl

13 Cholesterol oxidase was immobilized in a sol-gel matrix on both the cathode and the anode.

14 thylene oxide), was covalently bonded into a sol-gel germania matrix in the course of its creation fr

15 diC(6) PC) and mixed with equal volumes of a sol precursor solution.

16 RI) sensitivity of the sensor, consists of a sol-gel-based titania-silica thin film, deposited along

17 rface area for absorption of analytes onto a sol-gel polydimethylsiloxane (PDMS) coating for direct t

18 mm i.d. fused silica capillary to produce a sol-gel germania triblock polymeric sorbent in the form

19 ice platform to electrically probe in situ a sol-gel transition is still lacking.

20 This is the first time that a sol-gel based titania-silica-coated LPG is proposed as a

21 The gel can be converted back to a sol by increasing either the pH or the surfactant conten

22 and proline-rich peptide domains, undergo a sol-gel phase transition upon simple mixing and hetero-a

23 PEG-peptide variants were able to undergo a sol-gel phase transition when mixed with the linear C7 p

24 ring, which causes purified RNA to undergo a sol-gel transition in vitro at a similar critical repeat

25 etalate in aqueous solution, which undergo a sol-gel transition to form stable gels.

26 In solution, the red polymers undergo a sol-gel transition upon heating to form a yellow gel, a

27 , MIP formed on surface (MIP@SiCQDs) using a sol-gel method.

28 (3.0-3.5 nm) silica layer, deposited using a sol-gel reaction performed on an intermediate self-assem

29 -based, Al(2)O(3)-stabilized sorbent using a sol-gel technique.

30 limeter-sized beads were synthesized using a sol-gel templating technique, and investigated for suita

31 Silica coating was applied via a sol-gel method, with tetraethyl orthosilicate as a silic

32 nanoparticles (50 nm) were synthesized via a sol-gel process and platinized using an impregnation-red

33 ency from CZTSSe solar cells processed via a sol-gel process using nontoxic, low boiling point mixed

34 The om-TiO(2) films were synthesized via a sol-gel reaction using amphiphilic graft copolymers cons

35 dynamic properties of ZrO2 synthesized via a sol-gel route for a better control of the stoichiometry,

36 ified solvothermal reduction combined with a sol-gel method.

37 surface is chemically functionalized with a sol-gel silicate network derived from (3-mercaptopropyl)

38 tic flow (EOF)-based pump, integrated with a sol-gel stationary phase located in the electric field-f

39 However, global dust variability within a sol (Martian day) is still poorly understood.

40 tal oxide semiconducting thin-films using a 'sol-gel on chip' hydrolysis approach from soluble metal

41 on of the unstable enzyme, including alumina sol-gel encapsulation, physisorption to PDMS channels wi

42 ivator was entrapped within a porous alumina sol-gel film with a subsequent deposition on a polymer g

43 Amorphous sol-gel materials were molded by the template into shape

44 Amorphous sol-gel SiO2 is non-toxic and safe, whereas the sol-gel

45 ombination of directional freeze-casting and sol-gel coating processes.

46 Colloidal and sol-gel procedures have been used to prepare heterogeneo

47 Although covalent and sol-gel immobilization were efficient on their own, thei

48 rocene entrapped alcohol oxidase (FcAOx) and sol-gel chitosan film coated horseradish peroxidase (HRP

49 hene (G) modified with magnetite (Fe3O4) and sol-gel hybrid tetraethoxysilane-methyltrimethoxysilane

50 assembled biodegradable polyelectrolytes and sol-gel coating possess several advantages such as a hig

51 ted to determine viscoelastic properties and sol-gel phase transition temperatures using rheological

52 l/hydrothermal, templating, molten salt, and sol-gel methods.

53 hese include fluorescently doped silicas and sol-gels, hydrophilic polymers (hydrogels), hydrophobic

54 rphous-to-crystalline ratios of the annealed sol-gel silica glass structures.

55 non-hydrolytic sol-gel (NHSG) or non-aqueous sol-gel process based on nonhydrolytic condensations in

56 ganic semiconductor synthesis routes such as sol-gel chemistry, chemical bath deposition, and electro

57 be fabricated using low-cost methods such as sol-gel thin-film deposition and sputtering.

58 in copolymer morphology (and the associated sol-gel transitions) was monitored using dynamic light s

59 For the first time, a germania-based sol-gel coating was used in capillary microextraction (C

60 Germania-based, sol-gel hybrid organic-inorganic coatings were developed

61 redox mediator (ferrocene), in biocompatible sol-gel matrices encapsulating a bi-enzymatic system (a

62 eriodic cracks in SiN films, self-de-bonding sol-gel films, and even drying colloidal films, along wi

63 y manipulating the surface chemistry of both sol-gel nanoparticles (NPs) and colloidal nanocrystals (

64 , vapo-, thermo-, and chemochromism) of both sol-gel systems and solid thin films.

65 ena further confirmed by experiments in bulk sol-gel materials that demonstrated the increases of ent

66 -layer technique and in situ modification by sol-gel chemistry.

67 eterogenized H(2)O(2) activators prepared by sol-gel and Stober processes opens new possibilities for

68 d kaolin/ZnO nanocomposites were prepared by sol-gel followed by wet-impregnation methods.

69 bilized ionic liquids (ILs) were prepared by sol-gel technology and evaluated as solid-phase microext

70 tem based on polylactic acid was realised by sol-gel processing, employing tetraethoxysilane as a pre

71 Ds; 1 to 10 nm) were recently synthesized by sol-gel and used as nonagglomerated nanoparticles in adh

72 Nickel oxide (NiO) NPs were synthesized by sol-gel method using anionic surfactant, sodium dodecyl

73 -codoped TiO2 (N-F-TiO2) were synthesized by sol-gel methods and characterized.

74 ted using a low temperature (<250 degrees C) sol-gel process fully compatible with monolithic integra

75 ng-based stacking of microscale solar cells, sol-gel processes for interlayers with advanced optical,

76 All the columns produced using in-column sol-gel synthesis with tetramethoxysilane provide plate

77 The photochemically activated combustion sol-gel a-IGZO TFTs on a mesa-structured polyimide show

78 onic acid groups obtained by co-condensation sol-gel route.

79 eacted with an organic ligand that contained sol-gel-active sites in its chemical structure.

80 polymer results in a mechanically controlled sol-gel transition at the macroscopic level.

81 The controlled sol-gel synthesis of titania, in particular in combinati

82 during the heat setting of the corresponding sol.

83 A thin layer of this in situ-created sol-gel hybrid material was covalently anchored to the i

84 osition of the solvation free energy (DeltaG(sol)) of Gly2-5 into enthalpic (DeltaH(sol)) and entropi

85 oligoglycine models, the decrease in DeltaG(sol) with chain length is enthalpically driven with only

86 er, the apparent rates of decrease of DeltaG(sol), DeltaH(sol), DeltaS(sol), and their elec and vdw c

87 eltaG(sol)) of Gly2-5 into enthalpic (DeltaH(sol)) and entropic (DeltaS(sol)) components as well as t

88 ent rates of decrease of DeltaG(sol), DeltaH(sol), DeltaS(sol), and their elec and vdw components dif

89 The measured enthalpies of solution, DeltaH(sol), at 28 degrees C in 5 N HCl for the epsilon-Al(13)

90 ween two microreference electrodes, Deltaphi(sol), immersed in an aqueous sulfuric acid solution was

91 t importantly, the actual values of Deltaphi(sol) were in very good agreement with those predicted by

92 The resulting Deltaphi(sol) vs E curves, where E is the potential applied to th

93 enthalpic (DeltaH(sol)) and entropic (DeltaS(sol)) components as well as their van der Waals and elec

94 decrease of DeltaG(sol), DeltaH(sol), DeltaS(sol), and their elec and vdw components differ for the r

95 Here, we describe sol-gel-beta-alumina films as transistor gate dielectric

96 Three different sol-gel-active ligands were used: (a) hydroxy-terminated

97 nstrate the potential of the vapor diffusion sol-gel method as a hydrolytic approach to the synthesis

98 at room temperature via the vapor diffusion sol-gel method, and their structural evolution during nu

99 ted to the crystallization of the disordered sol-gel and to the number of crystalline byproducts; the

100 We characterized Al-doped sol-gel glasses, prepared at different sintering tempera

101 e unusual amber coloration of aluminum doped sol-gel glass that has not been reported in the past.

102 e TiO(2) thin films synthesized using either sol-gel reagents or preformed nanocrystals as building b

103 ate this methodology, a dynamically evolving sol-gel coassembly process is investigated by adding var

104 re used to calculate a factor, denoted as fA(sol), which describes the relation between the bioaccess

105 The geometric mean of fA(sol) was determined to be 0.53% with a 95% confidence in

106 Based on fA(sol), it is possible to estimate more realistic values o

107 fabrication of diverse odorant and flavoured sol-gels, we show how different synthetic strategies aff

108 Optical fluorescence sol-gel sensors have been developed for the detection of

109 There are three stages of film formation: sol-gel, oriented 3D, and 2D.

110 An emulsion- and amine-free sol-gel synthesis was developed to prepare uniform nanos

111 for researchers with interests ranging from sol-gel science, the fabrication of nanomaterials, supra

112 were adsorbed onto the amine-functionalized sol-gels at pH 4.0 and eluted at pH 1.0 using trifluoroa

113 nt onto the synthesized amine-functionalized sol-gels was performed using an enolase digested peptide

114 Amine-functionalized sol-gels were investigated for the enrichment and purifi

115 io in the production of amine-functionalized sol-gels.

116 is so functionalized that it undergoes a gel-sol transition in response to a UV light.

117 ter to form a hydrogel but also exhibits gel-sol transition upon oxidation of the metal center.

118 Light is used to initiate the final gel-sol phase transition that disrupts the hydrogel network,

119 sembled CarHC polymers exhibited a rapid gel-sol transition on light exposure, which enabled the faci

120 entration, vitrimers undergo a reentrant gel-sol transition, which explains a recent experiment [S.

121 Gelation is thermally reversible (T(gel-sol) approximately 40-50 degrees C), and it occurs due t

122 light (980 nm) can be used to induce the gel-sol transition and release large, inactive biomacromolec

123 ogic at 280, 318, and 343 nm through (-)-gel-sol-(+)-gel interconversion.

124 highly polar sol-gel poly(ethylene glycol) (sol-gel PEG) coated FPSE media.

125 The growing sol-gel germania network was simultaneously reacted with

126 However, the harsh sol-gel conditions and low thermal stabilities have limi

127 A class II hybrid sol-gel material was prepared starting from zirconium(IV

128 In the last 10 years, the non-hydrolytic sol-gel (NHSG) or non-aqueous sol-gel process based on n

129 rate the lipophilic dye into the hydrophilic sol-gel matrix.

130 tely 4-fold, while within a more hydrophobic sol gel it is hindered by over 1 order of magnitude.

131 Molecularly imprinted sol-gel polymers (MIS) specific to iprodione and using g

132 resent key concepts of molecular imprinting, sol-gel processing, and the synthesis of templated mesop

133 In sol-2 mutants, behaviors dependent on glutamatergic tran

134 tensity at 457nm of nano Pd(atz,ur) doped in sol-gel matrix by various concentrations of the 2-CNP wa

135 8nm of nano binuclear Pt(pca) (bpy) doped in sol-gel matrix by various concentrations of the 3-Nty wa

136 645nm of nano [Sm-(TC)2](+) complex doped in sol-gel matrix by various concentrations of the histidin

137 tetracycline [Sm-(TC)2](+) complex doped in sol-gel matrix in a borate buffer of pH 9.2.

138 acid (pca)-Bipyridine (bpy) complex doped in sol-gel matrix in buffer solution of pH 7.3.

139 or wild type and mutant myoglobins either in sol-gel matrices bathed in glycerol or in trehalose-deri

140 and ChOx were successfully co-immobilised in sol-gel membrane on a screen-printed electrode to constr

141 posed biosensor based on AChE immobilized in sol-gel matrix was used for the detection of two carbama

142 ence was that while for p-betaLg solution in sol state delta<45 degrees (solid-like), however for r-b

143 thiourea (commonly used as sulfur source in sol-gel processes for metal sulfides) can transform into

144 Rosiglitazone-blocked endotoxin induced sol-CXCL16 in mice (p = 0.001), and pioglitazone (n = 28

145 The net result is a light-induced sol to gel transition, i.e., from a low, water-like visc

146 ormation of a molecular gel from its initial sol phase and then to define it at different distance an

147 entrapment of adenosine deaminase (ADA) into sol-gel derived monolithic silica columns, and used to p

148 oride), the organogel of 1 disassembles into sol.

149 In this study, we examined entrapment into sol-gel derived organic-inorganic composite materials as

150 Both 1 and 2 have been incorporated into sol-gel (SG) matrices to obtain nitrosyl-polymer composi

151 antigen-D-related peptide and released less sol-tumor necrosis factor on in vitro lipopolysaccharide

152 n LiO2(*) right harpoon over left harpoon Li(sol)(+) + O2(-)(sol) + ion pairs + higher aggregates (cl

153 semipermeable membranes, microencapsulation, sol gel, and hydrogel methods.

154 proteins with a silica coat using a modified sol-gel process.

155 l-gel process built around a multifunctional sol-gel precursor that is derived from the following: am

156 lized surfaces and polymer derived networks (sol-gel) may be controlled.

157 harpoon over left harpoon Li(sol)(+) + O2(-)(sol) + ion pairs + higher aggregates (clusters).

158 eta-glycerophosphate, is optimised to obtain sol/gel transition at physiological conditions within 5

159 eactions, we investigated the application of sol-gel immobilized organometallic catalyst for regiosel

160 es, mice, and humans, and the association of sol-CXCL16 with risk factors, atherosclerosis, and acute

161 reported here resulted in the development of sol-gel optical fluorescent sensors for CO(2) gas with s

162 mplate molecules results in the formation of sol-gel molecular imprints after around 2 hours.

163 The incorporation of sol-gel material in device fabrication provided function

164 TP sensor was made by applying two layers of sol-gel coating to the end of an optical fiber probe end

165 ble metals--to be combined into a library of sol-gel materials with a high degree of control over com

166 Specifically, we discuss the modification of sol-gel based silica particles, functionalised metal/met

167 was carried out to assess the performance of sol-gel based titania-silica-coated LPGs as biosensors.

168 dition and cooling rate on the phenomenon of sol-gel phase transition.

169 These results demonstrate the potential of sol-gel TiO2 as a promising material platform for novel

170 hical porosity by the competing processes of sol-gel transition and chemical phase separation is summ

171 ich utilizes advanced material properties of sol-gel derived microextraction sorbents and the hydroph

172 oth aptamers were entrapped into a series of sol-gel derived composites, ranging from highly polar si

173 vior is ascribed to kinetic stabilization of sol-gel state through cation/halide engineering.

174 This shows the suitability of sol-gel germania hybrid organic-inorganic hybrid materia

175 Next we introduce the use of sol-gel and atomic layer deposition chemistry for the pr

176 taking advantage of both the versatility of sol-gel chemistry and the "poly(tetrafluoroethylene)-lik

177 Given the versatility of sol-gel entrapment for development of biosensors, microa

178 In this review the focus is on sol-gel processing of inorganic and organic precursors w

179 The effect of mechanical stirring on sol-gel synthesis of thorn-like ZnO nanoparticles (ZnO-N

180 tudinal range of up to 40 degrees within one sol during major dust storms.

181 ctive glasses were prepared via an optimized sol-gel method.

182 ned exothermic reactions along an aqueous or sol-gel media.

183 e encapsulated in an ethyl cellulose (EC) or sol-gel film.

184 were immobilized in a bimodal silica-organic sol-gel matrix comprised of tetraethoxysilane (TEOS), th

185 y is available for a range of organometallic sol-gel and polymer matrix precursors, and represents a

186 An organic-modified silicate (OrMoSils) sol-gel doped with a pH-sensitive dye, 2',7'-bis(2-carbo

187 f human leukocyte antigen-D-related peptide, sol-tumor necrosis factor production, tumor necrosis fac

188 compared to placebo (n = 28), lowered plasma sol-CXCL16 in metabolic syndrome subjects (p < 0.05).

189 In summary, a PLGA-b-PEG-b-PLGA sol-gel has loading and release capacities for EpoB and

190 PLGA-b-PEG-b-PLGA sol-gels are a first-generation platform for the localiz

191 ry, PEG-b-PLA micelles and PLGA-b-PEG-b-PLGA sol-gels may safely enable pre-clinical evaluation and c

192 on PEG-b-PLA micelles and PLGA-b-PEG-b-PLGA sol-gels that has focused on paclitaxel will be updated,

193 lactic-co-glycolic acid) (PLGA-b-PEG-b-PLGA) sol-gels have been extensively researched for systemic a

194 amides residues in milk using a highly polar sol-gel poly(ethylene glycol) (sol-gel PEG) coated FPSE

195 nted polymer composed of conductive polymer, sol-gel, gold nanoparticles (AuNPs), and caffeine.

196 of condensable, network forming precursors (sol-gel processes) in the presence of molecular porogens

197 s, thermolysis of organometallic precursors, sol-gel processes, hydrothermal reactions and biomimetic

198 Here, we describe development of the protein-sol web server, which was previously restricted to prote

199 phosphopeptide enrichment and purification, sol-gel materials were placed in a 10 muL pipet tip with

200 we develop a simple, inexpensive, and rapid sol-gel method for preparing thin conformal, continuous

201 riant of SOL-1 delivered in trans can rescue sol-1 mutants, and this rescue depends on in cis express

202 Furthermore, a reversible sol-gel transformation associated with changes in the sp

203 ure-responsive system undergoes a reversible sol-gel transition at 34-35 degrees C such that it can b

204 work takes advantage of thermally reversible sol-gel transition of the chiral dispersion as template,

205 ermits CO2 to be detected through reversible sol-gel transitions, simple changes in color, or ratiome

206 ive structural transformation via reversible sol-gel switching, and (b) radical conversion of a soft

207 erial synthesized by the facile and scalable sol-gel method achieves 10 mA cm(-2) at a low overpotent

208 ed via the subsequent application of several sol-gel steps or via the inclusion of colloidal template

209 d to 3 groups: C, control (air abraded); SG, sol-gel silica infiltration; and GI, glass infiltration.

210 uch lower concentration, with a much sharper sol-gel transition.

211 The porous materials made by silica sol-gel chemistry are typically insulators, however, whi

212 hybrid microchip using a simple epoxy silica sol-gel coating/bonding method and employed it in sensit

213 l % [Rh(cod)Cl]2 within a hydrophobic silica sol-gel matrix we were able to perform efficient hydroam

214 o viability of the entrapped cells in silica sol-gels.

215 By utilizing modified silica sol-gel chemistry, pre-hydrolyzed silica precursor clust

216 mined in solution and within a porous silica sol-gel glass.

217 the electrical conductivity of porous silica sol-gel nanocomposites by three orders of magnitude over

218 emperature aging of zeolite precursor silica sol was followed by SAXS and cryo-TEM.

219 was created using a protein-templated silica sol gel encapsulation technique on top of graphene-modif

220 a lyotropic liquid crystal-templated silica sol-gel matrix, followed by extraction of the liquid cry

221 pic structure control afforded by the silica sol-gel process.

222 AChE) biosensor was developed through silica sol-gel (SiSG) immobilisation of AChE on the carbon past

223 resent a simple, yet highly versatile silica sol-gel process built around a multifunctional sol-gel p

224 heres suspended within a hydrolyzed silicate sol-gel precursor solution.

225 adings of up to 80% by mass through a simple sol-gel reaction at room temperature.

226 ed hollow fibers were synthesized via simple sol-gel procedures and characterized with respect to mor

227 in the presence of the support, (ii) in situ sol-gel synthesis of the support in the presence of the

228 ng-cell microarrays via pin-printing of soft sol-gel-derived silica materials containing bacterial ce

229 < 0.001) and a 1.7-fold increase in soluble (sol)-CXCL16 (p < 0.001), a cleaved active chemokine.

230 l of titania films gained by using templated sol-gel chemistry and shows how this approach is extende

231 The sol-gel approach to encapsulate fragrance and aroma chem

232 The sol-gel method and suitable post-synthesis thermal treat

233 The sol-gel method ensured that Ca(2+) and Al(3+) were homog

234 The sol-gel network was then used for phosphopeptide enrichm

235 The sol-gel platform contained p-dimethylaminobenzaldehyde (

236 The sol-gel pores constrain the protein to a volume that is

237 The sol-gel process presented a low yield and resulted in a

238 The sol-gel silica infiltration method requires improvement

239 The sol-gel stationary phase was derived from a precursor mi

240 We attribute the sol-to-gel transition to the formation of Cu(I)N(4) cros

241 Changing both the sol viscosity and the withdrawal speed during the dip-co

242 c entrapped was found to be modulated by the sol composition, and was between 0.18 and 0.25mg/dm(2).

243 In this context, the sol-gel process is a unique tool for the preparation and

244 Three precursor phases form during the sol-gel stage and transform to perovskite, first giving

245 During the sol-gel transition the -SH groups initially present in t

246 tures with P-helicity were prepared from the sol form of the template through a coordination-induced

247 Single crystals obtained from the sol state show that naphthylic -OH of 1 gets deprotonate

248 ws highly intense yellow fluorescence in the sol state.

249 onents (proteins, cofactor, mediator) in the sol-gel layer in an active and durable form gave rise to

250 aqueous chloroform solution, reaction in the sol-gel sensor film turns the sensor from colorless to d

251 u nanoparticles onto the thiol groups in the sol-gel silicate network.

252 function in the block copolymer used in the sol-gel synthesis allows for the fabrication of an integ

253 bond rotation that plays a major role in the sol-gel transformation.

254 Addition of CaCl(2) increased the sol-gel transition pH value to ca. 6, with a twofold inc

255 cifically [H(+)] and [Ca(2+)] -modulated the sol-gel transition pH, isoelectric point, and viscoelast

256 teristic of a gel phase, yet poised near the sol phase, a solution of independent chromatin chains.

257 uggest that chromosome organization near the sol-gel phase transition dictates the timing of genomic

258 ed characterization of the morphology of the sol-gel derived material confirmed that the nanostructur

259 mic process involved in the formation of the sol-gel matrix has been investigated using optical and s

260 g glycidoxypropylsilane in the course of the sol-gel process (in smooth chemical conditions).

261 Different expansions of the sol-gel templating are possible by the fabrication of gr

262 ly, we validated the low cytotoxicity of the sol-gel TiO2 devices through in-vitro cell culture tests

263 ing serves to release the CO2 and reform the sol form.

264 Most significantly, the sol-gel germania triblock polymer coating demonstrated i

265 We demonstrate that the sol-gel process based on these precursors is compatible

266 elf-protection behavior is attributed to the sol-gel transition of the Pluronic solution upon tempera

267 alt-free materials are synthesized using the sol-gel process to explore their compositional landscape

268 des and resonators were fabricated using the sol-gel TiO2 material, and resonator quality factors up

269 into vanadium pentoxide nanoribbons via the sol-gel process.

270 -gel SiO2 is non-toxic and safe, whereas the sol-gel entrapment of delicate chemicals in its inner po

271 PP) medium that undergoes a thermoreversible sol-gel transition is developed to efficiently culture a

272 osphazenes), a hydrogel with thermosensitive sol-gel transition behavior, almost completely eliminate

273 enes) (I-5), a hydrogel with thermosensitive sol-gel transition behavior, almost completely eliminate

274 This sol-gel transformation phenomenon has been explained on

275 n of this problem by developing thrombolytic sol-gel coatings which potentially could lead to drug-en

276 of silica-carbon composite electrode through sol-gel modification using (3-chloropropyl)-trimethoxysi

277 m by room-temperature infiltration of a TiO2 sol-gel precursor and firing at 500 degrees C.

278 al incompatibility between CNTs and titanate sol and controls the nucleation and growth of TiO2 parti

279 and environmentally friendly alternative to sol-gels for stabilizing heme proteins for use as optica

280 gingival tissue is more strongly attached to sol-gel derived TiO(2) -coated zirconia than uncoated zi

281 Special emphasis is given to sol-gel processes via glycolated precursor molecules as

282 from the recombination of carbon monoxide to sol-gel-encapsulated human adult hemoglobin (HbA) and se

283 of importance to cell biology are subject to sol-gel transitions: large clusters of weakly interactin

284 in chain length causes a macroscopic gel-to-sol phase transformation of the copolymer gel, although

285 ling the networks in a hot solvent, a gel-to-sol transition happened, which resulted in the full diss

286 oved selectively by a light-triggered gel-to-sol transition.

287 ectly inside of-and notably, fully sealed to-sol-gel-coated elastomeric microchannels.

288 his polymer solution was observed to undergo sol-to-gel transition as the temperature was raised to 1

289 f stimuli-responsive materials which undergo sol-gel transition in the presence of an electrolyte sol

290 omposites perovskites were synthesized using sol gel method at different Sr content x = 0.3, 0.5, 0.7

291 O(3) has been successfully synthesized using sol-gel techniques.

292 trix was prepared through a novel method via sol-gel process based on the in situ chemical reduction

293 ite reinforced hollow fiber was prepared via sol-gel technology and used as a novel device to extract

294 Xerogel sensing films were synthesized via sol-gel chemistry were used to fabricate optical nitroxy

295 ly selective and sensitive probe as visible (sol-to-gel transformation), fluorescence and SERS-based

296 conceived a novel gel-based memristor whose sol-gel transition is reversible and can be controlled v

297 ble fabric substrate, chemically coated with sol-gel derived, highly efficient, organic-inorganic hyb

298 O(2) gel-like precursors in conjunction with sol-gel deposited ZrO(2) gate dielectrics to realize hig

299 (6) PC, and this was followed by mixing with sol precursor solution.

300 implants and zirconia implants modified with sol-gel derived TiO(2) coatings.

301 was prepared by rapid ageing of the zeolite sol gel synthesis mixture.