ライフサイエンスコーパス: sol-gel

1 beads or hybrid phases composed of beads and sol-gel.

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

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

4 prepared by using an appropriately selected sol-gel-active ligand in the sol solution.

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

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

7 However, the use of monolithic sol-gels alone for extraction of human genomic DNA has b

8 A mixed-silica sol-gel and active carbon substrate active layer gave th

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

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

11 Diffusion of fluorescent tracers in both sol-gels and dextran solutions shows clear evidence of a

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

13 other material syntheses using hydrothermal, sol-gel, and other methods.

14 Four active layers, active carbon, silica sol-gel, and silica sol-gel impregnated with crown ether

15 ased when it was encapsulated in the aqueous sol-gel, and the sensor retained more that 50% of its re

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

17 nstrate that materials based on the liposome/sol-gel architecture are able to harness the properties

18 The present paper describes a liposome/sol-gel architecture in which the liposome provides memb

19 Chemical-solution depositions such as sol-gel are more cost-effective, but many metal oxides c

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

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

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

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

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

25 The ormosil nanoparticles are prepared via a sol-gel-based process, which includes the formation of c

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

27 This allowed a monolithic sol-gel bed to be established in a microchip channel tha

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

29 d in a novel approach to synthesizing silica sol-gel biocomposite materials.

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

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

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

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

34 r is well understood and compatible with the sol-gel chemistry of silica.

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

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

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

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

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

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

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

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

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

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

45 rene was created by molecularly imprinting a sol-gel comprising the bridged silsesquioxane, bis(trime

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

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

48 A potentiometric sol-gel derived (xerogel) pH sensor based on covalently

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

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

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

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

53 An amperometric sol-gel derived nitric oxide microsensor is described.

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

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

56 The sol-gel-derived ambigel nanoarchitectures, with bicontin

57 cular interactions in governing diffusion in sol-gel-derived materials.

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

59 Sol-gel-derived silicate films were electrochemically de

60 site variations in the acidity properties of sol-gel-derived silicate films.

61 of analytes of known isotopic abundance into sol-gel-derived standards that mimic important mineral s

62 measurements, suggesting that tunable matrix sol-gel disks can serve as adequate control matrixes for

63 certified and measured Pb isotopic ratios in sol-gel disks spiked with SRMs 981 and 982 were successf

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

65 he MetaChip concept is demonstrated by using sol-gel encapsulated P450s to activate the prodrug cyclo

66 Oxygen binding curves of sol-gel-encapsulated deoxy human adult hemoglobin (HbA)

67 The addition of CO to sol-gel-encapsulated deoxy-HbA triggers a detectable pro

68 yTS fluorescence for both solution-phase and sol-gel-encapsulated Hb samples.

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

70 ixtures of water and fructose shows that the sol-gel-encapsulated MbCO exhibits dynamics that are the

71 ion of the viscosity and, in the case of the sol-gel-encapsulated samples, sample preparation history

72 n kinetics from fully and partially liganded sol-gel-encapsulated T-state species provides a framewor

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

74 hodopsin (bR) and F(0)F(1)-ATP synthase; the sol-gel encapsulation converts the liposomal solution in

75 In the present work sol-gel encapsulation is used to trap and stabilize deox

76 Sol-gel encapsulation studies imply a shift toward a hig

77 robed using a combination of mutagenesis and sol-gel encapsulation that greatly slow or eliminate the

78 es can be obtained by using a combination of sol-gel encapsulation, addition of glycerol as a bathing

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

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

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

82 We conclude that fluorescence monitoring of sol-gel entrapped yeast hexokinase is a suitable system

83 he heme-bound CO, are influenced more by the sol-gel environment than those of HbCO.

84 A comparison of the sol-gel experimental results to viscosity-dependent vibr

85 sensors on the RP microelectrodes, we used a sol-gel film electrodeposition technique to create ATP a

86 Silver nitrate was first doped into the sol-gel film followed by chemical reduction of the silve

87 od using Ag colloidal sols, the silver-doped sol-gel film has the advantage that the silver particles

88 The detection limit for the silver-doped sol-gel film was 104 times lower than that for the silve

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

90 n sensitivity observed for NO donor-modified sol-gel film-based glucose sensors.

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

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

93 ably sized probes to study diffusion in thin sol-gel films.

94 f monolithic tetramethyl orthosilicate-based sol-gels for effective micro-solid-phase extraction (muS

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

96 rom hostile chemical environments during the sol-gel formation process has resulted in a novel approa

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

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

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

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

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

102 Sol-gel germania-coated capillaries of desired polarity

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

104 ed and attached to the surface of monolithic sol-gel glass.

105 e the same for both proteins encapsulated in sol-gel glasses compared to that in aqueous solutions.

106 ursor to water (R value) used to prepare the sol-gel glasses were found to have no effect on the fast

107 O) and -hemoglobin (HbCO) embedded in silica sol-gel glasses.

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

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

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

111 ntrapped in tetramethylorthosilicate-derived sol gel, hexokinase retained activity, with a 25% maxima

112 Our preliminary results also indicate that sol-gel hybrid germania coatings have the potential to o

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

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

115 A sol-gel hybrid sorbent, methyltrimethoxysilane-tetraetho

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

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

118 Sol-gel immobilization of soluble proteins has proven to

119 , the fluorescence responses to glucose with sol-gel immobilized hexokinase, with or without covering

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

121 s, active carbon, silica sol-gel, and silica sol-gel impregnated with crown ether and with active car

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

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

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

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

126 first instance that a germania-based hybrid sol-gel material is used as a sorbent in analytical samp

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

128 Furthermore, porous silica sol-gel materials are known to have affinities toward ma

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

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

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

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

133 ciated CO to trHbN in solution and in porous sol-gel matrices as a function of viscosity, conformatio

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

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

136 g site of hemoglobin in both solution and in Sol-Gel matrices.

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

138 age that the silver particles trapped in the sol-gel matrix are much more stable than Ag colloids in

139 and immobilization of the enzyme in a silica sol-gel matrix as a potential in vivo glucose sensor for

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

141 8nm of nano binuclear Pt(pca) (bpy) doped in sol-gel matrix by various concentrations of the 3-Nty wa

142 645nm of nano [Sm-(TC)2](+) complex doped in sol-gel matrix by various concentrations of the histidin

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

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

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

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

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

148 The template was covalently bound to the sol-gel matrix using a fluorene analogue functionalized

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

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

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

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

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

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

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

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

157 is of solid glass standards produced via the sol-gel method and their doping with Standard Reference

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

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

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

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

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

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

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

165 Using a sol-gel method, we have fabricated poly(dimethylsiloxane

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

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

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

169 particles was prepared by an acid-catalyzed sol-gel method.

170 ase nanocrystals were prepared by a modified sol-gel method.

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

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

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

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

175 The use of the model in a mesoporous sol-gel monolith containing grafted amine ligands for qu

176 n is covalently linked to a photopolymerized sol-gel monolith modified by incorporating poly(ethylene

177 lved investigation of the composition of the sol-gel monomer, fabrication conditions, and surface mod

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

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

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

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

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

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

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

185 to protect the enzyme; (3) NO donor-modified sol-gel particle-doped polyurethane; and (4) polyurethan

186 r the hybrid sol-gel/polyurethane biosensor, sol-gel particles are first modified with the NO donor a

187 In addition, the stability of the sol-gel particles in the supporting polyurethane membran

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

189 ithout aromatic nitrogen fail to promote the sol-gel phase transition in alcohols due to their inabil

190 We have found that compound 1 promotes the sol-gel phase transition in primary alcohols (from CH3OH

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

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

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

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

195 For the hybrid sol-gel/polyurethane biosensor, sol-gel particles are fi

196 A hybrid sol-gel/polyurethane glucose biosensor that releases nit

197 Blockage of the sol-gel pores by components in the lysed blood was obser

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

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

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

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

202 The metal ion concentration responses of sol-gels prepared with varying amounts of metal ion duri

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

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

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

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

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

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

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

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

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

212 A surface sol-gel process has been demonstrated to be an effective

213 ial based on carbon nanotubes and an aqueous sol-gel process has been developed.

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

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

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

217 entrapped in a silica matrix prepared by the sol-gel process were measured using a combination of cyc

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

219 red to composites made with an alkoxy silane sol-gel process.

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

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

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

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

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

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

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

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

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

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

230 (3.0-3.5 nm) silica layer, deposited using a sol-gel reaction performed on an intermediate self-assem

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

232 the silicate network of the films during the sol-gel reaction.

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

234 In contrast, the HbCO dephasing in the sol-gel reflects only a 2-fold increase in viscosity.

235 een synthesized by a simple, surfactant-free sol-gel route and are shown to have high BET surface are

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

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

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

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

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

241 rance produced by immobile barriers, we used sol-gels (silica nanostructures) that consist of a conti

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

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

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

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

246 ice (muSPD) was carried out in a silica bead/sol-gel SPE bed, where the purified DNA was eluted direc

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

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

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

250 be completely excluded from penetrating the sol-gel structure.

251 This silver-doped sol-gel substrate exhibits strong enhancement of Raman s

252 The performance of the new silver-doped sol-gel substrate was evaluated with uranyl ions and com

253 The sol-gel substrate was further used to obtain, for the fi

254 Sol-gel substrates offered very clean backgrounds compar

255 es acquired were substantially lower for the sol-gel surfaces than those of the pure active carbon un

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

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

258 Metal ion templating in a sol-gel synthesis is used to develop multiligand 8-hydro

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

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

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

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

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

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

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

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

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

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

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

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

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

272 ophore was encapsulated within a spin-coated sol-gel thin film, which was subsequently incorporated i

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

291 Local sol-gel transitions of the cytoskeleton modulate cell sh

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

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

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

295 n cationic probes and the negatively charged sol-gel walls causes the positively charged probes to be

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

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

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

299 Sol-gels were spin-coated on glass slides to create an o

300 meric membranes including the following: (1) sol-gel with immobilized glucose oxidase (GOx); (2) poly