ライフサイエンスコーパス: fused-silica

1 ch more uniform than for chemically modified fused silica.

2 octadecylsilane self-assembled monolayer on fused silica.

3 ed porous junction across a 3-4-mm length of fused silica.

4 achieve dispersion similar to that found in fused silica.

5 n of high-harmonic generation from amorphous fused silica.

6 he use of economic chip materials instead of fused silica.

7 spectively, using microfluidic chips made of fused silica.

8 We report laser-driven shock experiments on fused silica, alpha-quartz, and stishovite yielding equa

9 interface but for two different substrates, fused silica and chromatographic silica gel.

10 dicity by comparing harmonics generated from fused silica and crystalline quartz, which contain the s

11 to self-assembled monolayer silane films on fused silica and oxidized silicon substrates is describe

12 lecular dynamics studies of shock-compressed fused silica and quartz, we find that silica transforms

13 proposed for efficient laser modification of fused silica and sapphire by means of a burst of femtose

14 ing use of multivariate reference signals of fused silica and sapphire Raman signals generated from a

15 The combination of fabrication in fused silica and synchrotron radiation allows measuremen

16 y available high-purity samples of graphite, fused silica, and aluminum show respective nanogram per

17 ed monolayer of dimethyloctadecylsiloxane on fused silica; and the four mobile phases were acetonitri

18 ggesting that the strong adsorption sites on fused silica are chemically the same as those on chromat

19 ety of common substrates (Si/SiO2, sapphire, fused silica) as well as samples that were transferred f

20 man signals (e.g., shoulder of the prominent fused silica boson peak (~130 cm(-1)); distinct sapphire

21 an 12 min using a poly(vinyl alcohol)-coated fused-silica 'bubble cell' capillary.

22 Fused silica capillaries (i.d. 50 microm, o.d. 360 micro

23 The fused silica capillaries are prepared by coating anti-TN

24 modal pore distributions were synthesized in fused silica capillaries by catalyst-free polycondensati

25 water for treatment of the inner surfaces of fused silica capillaries have been tested employing an i

26 s are prepared in situ within fully enclosed fused silica capillaries via self-assembly and radical p

27 The water-treated fused silica capillaries with uniform internal diameter

28 These were coated on fused silica capillaries, and their gas chromatographic

29 y and viscosity allow them to be coated onto fused silica capillaries.

30 to stop the apparent fluid flow in uncoated fused silica capillaries.

31 The aptamer medium was packed into fused-silica capillaries (50-150-microm i.d.) to form af

32 solution of poly(ethylene oxide) in uncoated fused-silica capillaries allows high-resolution, repeate

33 Furthermore, the fused-silica capillaries are internally coated with poly

34 In this study, fused-silica capillaries are modified using a polyelectr

35 inear array consists of 19 chemically etched fused-silica capillaries arranged with 500 microm (cente

36 esized inside 75-microm i.d., UV-transparent fused-silica capillaries by photopolymerization.

37 porous polymer frits have been fabricated in fused-silica capillaries by the UV photopolymerization o

38 cibly resolved by CIEF using 100-microm-i.d. fused-silica capillaries coated with hydroxypropyl methy

39 In this approach, fused-silica capillaries coated with thin films of physi

40 olutions into the chip was carried out using fused-silica capillaries coupled to two syringes with th

41 low (EOF) for adsorbent and exchanger packed fused-silica capillaries for acetone as the marker incre

42 ed to modify glass microfluidic channels and fused-silica capillaries for electrophoretic separations

43 successfully used in microfluidic chips and fused-silica capillaries for separation of protein sampl

44 The monoliths are fabricated in fused-silica capillaries from lauryl methacrylate (LMA)

45 e for constructing perfectly aligned gaps in fused-silica capillaries has been developed for postcolu

46 Fused-silica capillaries immersed in an aqueous solution

47 en prepared within the confines of untreated fused-silica capillaries in a single step by a simple co

48 en prepared within the confines of untreated fused-silica capillaries in a single step by a simple co

49 The system uses 50 microm i.d. x 40-200 cm fused-silica capillaries packed with 1.4-3-microm porous

50 roteins was carried out using 50-microm-i.d. fused-silica capillaries packed with 5-microm silica bea

51 The RPLC separations used 50-microm-i.d. fused-silica capillaries packed with submicrometer-sized

52 crofabricated emitter array and conventional fused-silica capillaries showed similar spray characteri

53 The vials were fabricated from fused-silica capillaries that provided a transparent con

54 Sol-gel reactions were carried out within fused-silica capillaries that were filled with properly

55 hodamine 6G, are obtained in 100 microm i.d. fused-silica capillaries under CE conditions using runni

56 ion (ESI)-MS can compromise the integrity of fused-silica capillaries via aminolysis of their outer p

57 to mimic the behavior of PDMS microchannels, fused-silica capillaries were coated with PDMS and used

58 e plasmids from a single bacterial colony in fused-silica capillaries were developed.

59 Fused-silica capillaries with inner diameters of 33 micr

60 itical water for reproducible preparation of fused-silica capillaries with tapered geometry suitable

61 rcial cIEF apparatus with coated or uncoated fused-silica capillaries, both chemical and hydrodynamic

62 pared, without the need of high pressure, in fused-silica capillaries, by thermally induced in situ c

63 the monolithic material protrudes beyond the fused-silica capillaries, improving the monolith-assiste

64 f the wetting ability of the ionic liquid on fused-silica capillaries, the maximum operating temperat

65 For fused-silica capillaries, the mobility ((5.5 +/- 0.2) x

66 ong, 360 microm i.d.) connected via external fused-silica capillaries.

67 ) was covalently bound to the inner walls of fused-silica capillaries.

68 smotic flow arising from the use of uncoated fused-silica capillaries.

69 a 75-mum internal diameter polyimide-coated fused silica capillary (no inside coating) with 60cm tot

70 Construction from a fused silica capillary allows the laser excitation (at 2

71 resis-UV instrument using a polyimide coated fused silica capillary and an in-house designed flow-cel

72 a lab-made CZE apparatus equipped with bare fused silica capillary and UV-absorption detector operat

73 nitors the changes in streaming current in a fused silica capillary as target biomolecules bind to im

74 amples were hydrodynamically injected into a fused silica capillary at 25.0 mbar for 25.0 s.

75 ed by using a specially developed home-built fused silica capillary column stack and a halogen lamp f

76 ed and immobilized in the surface of a bared fused silica capillary column to obtain a magnetic adsor

77 -mer and a 20-mer, were covalently linked to fused silica capillary columns to serve as stationary-ph

78 preparative CE was performed with 180-micron fused silica capillary columns with tapered ends to coll

79 hieved using both microchip and conventional fused silica capillary emitters, but stable cone-jet mod

80 injection of a single mammalian cell into a fused silica capillary for subsequent analysis by chemic

81 The source was constructed by inserting a fused silica capillary into a stainless steel column enc

82 suit the specific application, since common fused silica capillary is used.

83 Fused silica capillary liquid chromatography columns wit

84 icron) are packed directly into laser-pulled fused silica capillary needles from which a spray origin

85 The probe is constructed to spin a fused silica capillary of 530 microns i.d., 700 microns

86 low confines analyte molecules eluted from a fused silica capillary over a planar SERS-active substra

87 s spectrometer was coupled via a deactivated fused silica capillary to an injector of a gas chromatog

88 pplied to a methanol solution flowing in the fused silica capillary to generate an ESI plume at the c

89 nchored to the inner walls of a 0.25 mm i.d. fused silica capillary to produce a sol-gel germania tri

90 in onto the surface of the inner wall of the fused silica capillary tubing.

91 50 microm (i.d.) x 38 cm (effective length) fused silica capillary was used for the separation, and

92 ined restriction placed inside a deactivated fused silica capillary was used to increase the cooling

93 side A and stevioside can be determined in a fused silica capillary with an inner diameter of 10mum a

94 The CBORR is a thin-walled fused silica capillary with an inner diameter ranging fr

95 covalent linkage to the inner surface of the fused silica capillary, and the feasibility to modify th

96 ation-exchange monolith was synthesized in a fused silica capillary, and used for solid phase extract

97 esign, based on a metal wire housed within a fused silica capillary, led to the most stable signals o

98 ovalently linked to the inner surface of the fused silica capillary, the array can be reused thousand

99 d makes use of a supercritical water-treated fused silica capillary, the inner surface of which has s

100 ubing from a solvent delivery device and the fused silica capillary, used with SAII, inserted into a

101 ,000,000 theoretical plates in a 25 mum i.d. fused silica capillary.

102 Micro-funnel, fabricated from biocompatible fused silica capillary.

103 l plates in a 60.2 cm, 25 mum inner diameter fused silica capillary.

104 ate-2 mM EDTA buffer (pH 8.75) using a 60-cm fused-silica capillary (50-micron i.d., 35-cm effective

105 The 17 peaks were separated in 19min using a fused-silica capillary (50mum internal diameter, 72cm of

106 buffer, pH 6.0, run buffer, and a 30-cm-long fused-silica capillary (75-microm i.d.) with dopamine, c

107 A single, 7-cm, 20-microm-i.d. fused-silica capillary (total volume, 70 nL), with a tap

108 by isoelectric focusing in a short length of fused-silica capillary after which the resolved proteins

109 130-cm-long, 20-microm-i.d., 150-microm-o.d. fused-silica capillary and by monitoring the m/z range o

110 Cells were aspirated into a fused-silica capillary and lysed, and components were se

111 or C-18) cartridge in-line with an uncoated fused-silica capillary and subsequently released for fre

112 instrument is based on a serially connected fused-silica capillary assembly.

113 sheathless electrospray emitter with a bare fused-silica capillary at pH 6.7.

114 nd TPOX, are coamplified simultaneously in a fused-silica capillary by a hot-air thermocycler.

115 A fused-silica capillary column is contained in a tubular

116 t-column heating is obtained by wrapping the fused-silica capillary column with resistance heater wir

117 ates/m was obtained on a 10 m x 0.25 mm i.d. fused-silica capillary column.

118 Fused-silica capillary columns packed with 1.0-microm no

119 were obtained and packed into 30-microm-i.d. fused-silica capillary columns up to 50 cm in length.

120 A number of sol-gel coated fused-silica capillary columns were prepared using sol-g

121 Fused-silica capillary connecting tubes were sealed into

122 A fused-silica capillary continuously samples headspace ga

123 for a range of acetylcholine concentrations, fused-silica capillary geometries, and operating flow ra

124 yl acridine orange (NAO) are injected into a fused-silica capillary in a solution of carrier ampholyt

125 ethod for pulling extracellular fluid into a fused-silica capillary in contact with the surface of ti

126 mical bonding with the silanol groups on the fused-silica capillary inner surface.

127 ay tip are integrated on a single piece of a fused-silica capillary is described.

128 trometry (ESI-MS) in which the end of a bare fused-silica capillary is immersed into aqueous hydroflu

129 Fused-silica capillary LC columns (25-microm i.d.) with

130 A separation process that occurred in the fused-silica capillary leading to the electrospray tip w

131 o be comparable to that of commercial pulled fused-silica capillary nanospray sources.

132 l from a short sample loading channel, and a fused-silica capillary separation column that connects s

133 y applied across the loading channel and the fused-silica capillary separation column.

134 (ES) containing acetonitrile (ACN) inside a fused-silica capillary that was dipped into the sample.

135 or wall of an (aminoalkyl)silane-derivatized fused-silica capillary tube via a biotin/streptavidin/bi

136 Fused-silica capillary tubes with 50-microm bores have b

137 printing approach for microarrays that uses fused-silica capillary tubes with tapered tips for print

138 The mixture was loaded into 150-micron-i.d. fused-silica capillary tubing with a pulled 5-10-micron

139 tion via alpha-cyclodextrin in an unmodified fused-silica capillary under reversed polarity.

140 rsible binding of conalbumin to the uncoated fused-silica capillary walls.

141 The other fused-silica capillary was connected to a Venturi easy a

142 A single 30-microm-i.d. fused-silica capillary was used both as the reaction ves

143 vely small pressure drop (<100 bar) across a fused-silica capillary which has both the inlet and outl

144 The stationary phase was formed inside a fused-silica capillary whose lumen was coated with coval

145 0-microm-i.d., 150-microm-o.d. underivatized fused-silica capillary with 1 M formic acid as the backg

146 ately 3, 60 muM with a 25 mum inner diameter fused-silica capillary) with good peak symmetry and base

147 Analytes are rapidly separated in the fused-silica capillary, and following separation, high-s

148 sensor into a hole drilled in the wall of a fused-silica capillary, which can be easily connected to

149 ) apparatus, constructed using a thin-walled fused-silica capillary, with a benchtop energy-dispersiv

150 roximately 50-cm-long and 500-nm-radius bare fused-silica capillary.

151 olycondensation reactions performed within a fused-silica capillary.

152 the tensile strength of the polyimide coated fused-silica capillary.

153 ymerized silica-based monolithic column in a fused-silica capillary.

154 otein complexes from polyacrylamide gel to a fused-silica capillary.

155 due to hydrogen bonding to the walls of the fused-silica capillary.

156 s and compared it with results obtained in a fused-silica capillary.

157 delivering reagents to the surface through a fused-silica capillary.

158 phoresis using an electrolyte of low pH in a fused-silica capillary.

159 -couple and guide laser emission on the same fused-silica chip.

160 ings within pretreated glass capillaries and fused-silica chips.

161 er ionization source via a short deactivated fused silica column.

162 ared with the CZE analysis performed on bare fused-silica columns with traditional sample injections.

163 nts ranging from 10 bp to 5 kb by using bare fused-silica columns.

164 design utilizes a short, continuous diameter fused silica conduit, which extends from the point of ab

165 d of the GC column using a two-way press-fit fused-silica connector housed inside the GC injection po

166 ected to the gel column via zero dead volume fused-silica connectors.

167 pump-probe X-ray diffraction measurements on fused silica crystallizing to stishovite on shock compre

168 e system utilized a shearing T-junction in a fused-silica device to generate a stream of monodisperse

169 te wetting of micro- and nanostructures in a fused-silica device with only a single inlet.

170 The laser damage precursors in subsurface of fused silica (e.g. photosensitive impurities, scratches

171 ithic chromatography support within a pulled fused-silica electrospray needle.

172 irect comparisons with conventional glass or fused silica emitters indicated very similar performance

173 ve developed a new procedure for fabricating fused-silica emitters for electrospray ionization-mass s

174 xtures are then infused into a metal-coated, fused silica ESI emitter for MS analysis.

175 tion function, a physisorbed stilbene dye on fused silica exhibited a narrow distribution centered at

176 A polyacrylate (PA) film was coated onto a fused-silica fiber as a permeation membrane in a membran

177 lification process to the sensing surface of fused silica fibers.

178 elective immobilization of polymerase to the fused silica floor of the ZMW was achieved by passivatio

179 To measure slow desorption from fused silica, fluorescence imaging combined with correla

180 ons smaller than 1 microm were fabricated in fused silica for high-sensitivity single-molecule detect

181 ary isoelectric focusing (CIEF) in a tapered fused silica (FS) capillary with matrix-assisted laser d

182 lase (OPH) were monitored upon adsorption to fused silica (FS) surfaces in the presence of BSA on a m

183 phobic trimethylsilane (TMS) and hydrophilic fused silica (FS) surfaces.

184 ulated over 563 +/- 104 optical periods of a fused silica grating structure, powered by a 800-nm-wave

185 phoresis (CE) separations on bare and coated fused silica have been detected on-line using a time-of-

186 The entire flow path is fused silica; inlet and outlet capillary inner diameters

187 The fused-silica-insulated platinum electrodes could be clea

188 ded spectral region was studied at the H(2)O/fused silica interface.

189 the evanescent-field layer (EFL) at a water/fused-silica interface.

190 The column was an uncoated fused-silica-lined stainless steel capillary column.

191 A fused silica liner, placed inside the vaporization micro

192 Furthermore, SML-FSHS required only a bare fused silica microcapillary and simple pressure control

193 The pressure cell consists of a single fused silica microcapillary.

194 Experiments were performed using fused silica microchips with and without octadecyltrimet

195 erchangeable fluid cartridges, a 2-cm-square fused-silica microfluidic chip, and a miniature laser-in

196 Furthermore, we determine conditions in fused silica nanochannels with which to generate optimal

197 dsDNA) oligonucleotides in custom-fabricated fused-silica nanochannels filled with a gel-free sodium

198 Lately, a reversible semimetallization in fused silica on a femtosecond time scale by using a few-

199 l samples to chemically derivatized walls of fused-silica open-tube capillary columns.

200 Physisorption of BSA-Ac onto a fused-silica optical fiber lowers the accessibility of A

201 wed diffusion of fibrinogen relative to bare fused silica or hydrophobically modified fused silica, s

202 nside polymer glass sandwich chips made from fused silica or soda-lime glass.

203 prepared by in situ polymerization in PEEK, fused silica, or stainless steel tubing having an inner

204 erent adsorption behaviors when contact with fused silica, polystyrene, and poly(methyl methacrylate)

205 Second, the time required to make the fused silica porous is reduced from approximately 1 h to

206 adsorbed RPE molecules on the surface of the fused-silica prism were counted with confidence based on

207 between an electrode and the hypotenuse of a fused-silica prism.

208 The mixture flows through a fused silica reactor capillary to a flow-gated interface

209 p-probe XRD measurements on shock-compressed fused silica, revealing an amorphous to crystalline high

210 ection of the fluorescence emission from the fused silica separation capillary.

211 quantify the interfacial free energy at the fused silica/single-layer graphene/water interface at pH

212 on copper, silicon carbide, and transparent fused silica (SiO(2)) substrates, enabling optical spect

213 action chambers etched into the surface of a fused silica slide to observe their individual substrate

214 ng greatly improved adhesion of the films to fused silica slides and allowed extensive optical studie

215 be lithographically patterned directly onto fused silica slides without any requirement for further

216 film on a transparent single-layer graphene/fused silica substrate.

217 ethod of high-quality concave microarrays on fused silica substrates based on temporal shaping of fem

218 ent nonlinear vibrational surface spectra of fused silica substrates functionalized with quinuclidine

219 e carried out in channels micromachined into fused silica substrates.

220 are fused silica or hydrophobically modified fused silica, suggesting that the mechanism of PEG resis

221 re dip-coated onto an etched and derivatized fused silica support and placed in a high-capacity UV re

222 erization of ionic liquid (IL) monomers on a fused silica support is described.

223 ar-supported lipid bilayers were prepared on fused silica supports using the Langmuir-Blodgett/Langmu

224 of the number of apparent silanol sites on a fused-silica surface has a linear relationship with the

225 in (RPE), an autofluorescent protein, on the fused-silica surface were studied in capillary electroph

226 At a fused-silica surface, molecular conformation and adsorpt

227 E molecules were partially adsorbed onto the fused-silica surface.

228 -nanometer-thick evanescent-field layer at a fused-silica surface.

229 ge resistance of scratched and non-scratched fused silica surfaces after HF etching with high-frequen

230 lecules were fabricated on glassy-carbon and fused-silica surfaces.

231 For the second type of site, for fused silica, the population of DiI is even higher than

232 M to 1.95 muM, with similar sensitivities in fused silica thin bottom chips for one-photon and two-ph

233 e subject single-layer graphene supported on fused silica to cycles of high and low pH, and show that

234 pray interface using a liquid junction and a fused silica transfer capillary.

235 The optical strength of polished fused silica transmissive optics is limited by their sur

236 annealing of the mixed elemental reagents in fused silica tubes as well as in situ (performed at the

237 num between 800 and 1000 degrees C in sealed fused silica tubes.

238 nless steel tube is replaced with Hydroguard fused silica tubing (0.53 mm x 30 m) and two lightweight

239 hrough a metal union linking two sections of fused silica tubing through which solution flows into th

240 fluorinated ethylene propylene and 50-microm fused-silica tubing for use with capillary HPLC analyses

241 from red blood cells (RBCs) as they traverse fused-silica tubing ranging in i.d. from 25 to 75 microm

242 , the carbon fiber emitter in 75-microm-i.d. fused-silica tubing was shown to give ion current compar

243 erythrocytes were not being lysed inside the fused-silica tubing, dog RBCs, which are known to contai

244 ase F monolithic reactor was fabricated in a fused silica using glycidyl methacrylate-co-ethylene dim

245 ed-ring resonator hosts were fabricated on a fused-silica wafer and filled with 3,3'-Diethyloxacarboc

246 bserved to adsorb and move at the methylated fused silica-water interface as a function of temperatur

247 s the interfacial free energy density of the fused silica/water interface by a factor of up to 7, whi

248 re bound to DNA 21-mers covalently linked to fused silica/water interfaces maintained at pH 7 and 10

249 microelectrodes insulated with 300 nm thick fused silica were fabricated using contact photolithogra

250 tionary phases, consisting of functionalized fused-silica windows, were investigated with VR-SFG spec