ライフサイエンスコーパス: capillary column

1 sed to increase light throughput through the capillary column.

2 f DNA sequencing fragments injected into the capillary column.

3 equent solvent, which is then delivered to a capillary column.

4 e affected by the flow resistance within the capillary column.

5 ven a single sea urchin egg lysed within the capillary column.

6 d isomers, which were well-separated using a capillary column.

7 nolayer in response to eluted samples from a capillary column.

8 ed geminal dicationic ionic-liquid-coated GC capillary column.

9 These methods utilize an uncoated capillary column.

10 using a typical 15 cmx75 microm i.d. packed capillary column.

11 uncoated fused-silica-lined stainless steel capillary column.

12 1-cm microreactor located at the entrance of capillary column.

13 tained on a 10 m x 0.25 mm i.d. fused-silica capillary column.

14 t four points along an optically transparent capillary column.

15 ed using a thick stationary phase (5-microm) capillary column.

16 useful for preparation of monolithic silica capillary columns.

17 wide range of analytical tools that utilize capillary columns.

18 ion that rival the performance of commercial capillary columns.

19 ts for the manufacture of particulate packed capillary columns.

20 derivatized walls of fused-silica open-tube capillary columns.

21 se of the small peak volumes associated with capillary columns.

22 iants of IgG mAbs was attained using a short capillary column (10 cm effective length).

23 ion of phenolic compounds using a monolithic capillary column (16.5 cm x 150 mum i.d.) synthesized fr

24 Silica-based monolithic capillary columns (25 cm x 10 microm i.d.) with integrat

25 l antibodies (mAbs) was obtained with a long capillary column (40 cm effective length), allowing the

26 Long capillary columns (80-cm) packed with small (3-micron) C

27 The design of the open-tube capillary column allows for facile direction of the proc

28 coating), which is over 25x greater than the capillary column and also affords it a 20-fold larger sa

29 s achieved using a 2.5 m x 0.10 mm SLB-IL111 capillary column and separates FAMEs based solely on the

30 d to the inside surface of a silanized glass capillary column and the antigen-binding sites of anti-P

31 yte molecules are adsorbed at the tip of the capillary column and then are heated and vaporized by in

32 use of long, relatively narrow open tubular capillary columns and a 30 degrees C/min programming rat

33 Several serially connected dual-capillary columns and electrospray ionization (ESI) sour

34 syringe pumps, a capillary mixing chamber, a capillary column, and a zero dead-volume microelectrospr

35 relatively constant electric field along the capillary column, and no pseudostationary phase in the i

36 The dual-capillary column approach eliminates the time delays for

37 The open-tube capillary columns are also characterized by exceptional

38 Conversely, C18 packed capillary columns are best packed using agglomerating so

39 Affinity-based open-tube capillary columns are demonstrated here to purify, enric

40 microm-i.d. porous layer open tubular (PLOT) capillary columns are described.

41 The open-tube capillary columns are designed for single use; combined

42 The separation efficiency of the dual-capillary column arrangement, optimal capillary dimensio

43 rations of small anions by IC using a packed capillary column as well as a series of nucleobases and

44 A capillary-column-based bioseparator/bioreactor was devel

45 ved in gas-liquid chromatography on nonpolar capillary columns but might play a role in packed-bed co

46 air as carrier gas, a 6-m-long, 0.25-mm-i.d. capillary column can generate approximately 12,500 theor

47 acing the multicapillary column (MCC) with a capillary column (CC).

48 VOCs are trapped in a 50 cm x 0.53 mm metal capillary column coated with a 7 mum thick film of polyd

49 and the electroosmotic flow velocity of the capillary columns could be studied independently over a

50 (id), and 25 mum film thickness low-polarity capillary columns (DB5MS type), signal-to-noise (S/N) ra

51 system uses several serially connected dual-capillary column devices.

52 The capillary column ensemble (0.18-mm i.d. x 0.18-microm fi

53 e significant on-line preconcentration using capillary columns filled with a photopolymerized sol-gel

54 describes the application of an open tubular capillary column for chiral ligand-exchange separation a

55 g., with trypsin) and injected into a packed capillary column for subsequent separation.

56 ed gas chromatograph that employs a standard capillary column for the fast separation of methyl and e

57 ddition to the "classical" use of monolithic capillary columns for the electrochromatographic separat

58 ntinuously produce the fibres using a silica capillary column functioning as a hydrothermal microreac

59 Solid-phase microextraction (SPME), capillary column gas chromatography, and pattern recogni

60 rivatives are determined quantitatively with capillary column gas chromatography.

61 omatographic analysis was performed on SE-54 capillary column; good retention and peak response of th

62 ter-volume deposition" technique employing a capillary column has been used to produce tiny ( approxi

63 erature, as well as internal diameter of the capillary column, have been optimized for this mixed sep

64 s as the interfaces between three, in-series capillary columns housed in a standard Agilent 6890 gas

65 Using 1.5 microm inner diameter (i.d.) capillary columns, hydrodynamically injecting femto- to

66 A fused-silica capillary column is contained in a tubular metal jacket,

67 odified monolith in tandem with a packed C18 capillary column is demonstrated with baseline separatio

68 AME) provided by a 200 m x 0.25 mm SLB-IL111 capillary column is enhanced by adding a second dimensio

69 me than the internal volume of the open-tube capillary column itself, thereby achieving 100-fold incr

70 icate that it is a useful alternative to the capillary column mode, particularly where analyte loads

71 A new porous polymer monolithic capillary column modified with gold nanoparticles that e

72 Newly developed porous polymer monolithic capillary columns modified with gold nanoparticles coate

73 ight-initiated polymerizations afford useful capillary columns, monoliths prepared using the former a

74 lary to pass through a specially constructed capillary column mount capable of micropositioning in th

75 lute samples of carbamate insecticides using capillary columns of 100-microm i.d. packed with a 5-mic

76 .5 cm/min is achieved for all the monolithic capillary columns of identical composition and porosity,

77 CZE methods using an uncoated capillary column offer a versatile, generic, and economi

78 ssure-tunable ensemble of two series-coupled capillary columns operated at subambient outlet pressure

79 tegy that uses a long (50 cm) anion-exchange capillary column operating in the electrostatic repulsio

80 extracted from only a few cells, inside the capillary column or on a microchip.

81 xture on a commercial 150 mum inner diameter capillary column packed with 1.7 mum particles.

82 concentrated onto a 50-micron-inner diameter capillary column packed with 5-micron reversed-phase par

83 parated without derivatization on a homemade capillary column packed with Waters YMC ODS-AQ reversed

84 Fused-silica capillary columns packed with 1.0-microm nonporous C(18)

85 omatographic conditions (specifically, 30-cm capillary columns packed with 1.7-mum bridged ethylene h

86 heights below 10 mum could be realized using capillary columns packed with 4 mum particles.

87 0 psi) to 930 bar (13,500 psi) in 22-cm-long capillary columns packed with C18-modified 1.5-microm no

88 om measurement of the current and the EOF in capillary columns packed with different stationary phase

89 the chromatographic separation efficiency of capillary columns packed with sub-2 mum particles, cover

90 hange) stationary phase has been used as the capillary column packing for investigation of the separa

91 The small dimensions of capillary columns permit the application of high voltage

92 ompounds due to the inability of the GC x GC capillary columns phases that we used to interact with a

93 ncentrated by sampling directly into a short capillary column precooled without the aid of cryogens.

94 covalently immobilized to monolithic silica capillary columns, providing approximately 500-fold more

95 matography was carried out using an 8-m DB-5 capillary column resulting in an analyte retention time

96 ns include the use of high-performance micro-capillary column separation techniques coupled to FTICR,

97 specially developed home-built fused silica capillary column stack and a halogen lamp for heat gener

98 The use of monolithic capillary columns sufficiently resolved intact proteins

99 procedure for fabricating internally tapered capillary columns suitable for the coupling of capillary

100 identifications using a 60-cm-long triphasic capillary column than with our traditional approach.

101 o a gas chromatograph fitted with a megabore capillary column that uses H(2) as the carrier gas.

102 ng a water stationary phase coated onto a SS capillary column, the packed column method provided sepa

103 ss-linked polyacrylamide gel electrophoresis capillary column, they comigrated, indicating that, in s

104 nd chemical characteristics of the open-tube capillary column, this provides exceptional purity to th

105 ed using a thick stationary-phase (5 microm) capillary column to avoid tailing due to hydrogen bondin

106 lized in the surface of a bared fused silica capillary column to obtain a magnetic adsorbent extracti

107 Current designs allow for up to 10 open-tube capillary columns to be applied simultaneously with no f

108 llary gas chromatography employing wide-bore capillary columns to isolate individual compounds from l

109 n dioxide and methanol were created in empty capillary columns to produce effective stationary phases

110 -mer, were covalently linked to fused silica capillary columns to serve as stationary-phase reagents

111 mation is not observed to occur within these capillary columns under our experimental conditions.

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

113 ut employing a splitter, making it ideal for capillary column use.

114 by GC on a 5% diphenyl-95% dimethylsiloxane capillary column, using an on column-injection system.

115 of both open and monolithic segments of the capillary column was found to exert a substantial effect

116 ansfer line was developed to ensure that the capillary column was heated efficiently from the GC oven

117 The capillary column was passed through the needle, resultin

118 The capillary column was placed inside a magnetic coil that

119 The capillary column was then rapidly heated by moving the c

120 mn regeneration (or equilibration) since one capillary column was used for a separation while the oth

121 atographic dimension (on-line reversed-phase capillary column) was used.

122 Two capillary columns were also run in tandem, separating tw

123 (LC-MS/MS) analyses, 75 microm i.d. x 14 cm capillary columns were interfaced with a commercial auto

124 Different macroporous, monolithic capillary columns were prepared to separate various bile

125 A number of sol-gel coated fused-silica capillary columns were prepared using sol-gel-active PEG

126 n contrast to the packing of microparticles, capillary columns were prepared, without the need of hig

127 t of free radical initiator, high-efficiency capillary columns were produced that are able to endure

128 Metal-jacketed capillary columns were used as they can tolerate the ele

129 The capillary columns were used for the separation of small

130 ically a 20 m, 100 mum inner diameter (i.d.) capillary column with a 0.4 mum film thickness to benefi

131 fluorescent dye) for BaNC-HDC, we flush the capillary column with a YOYO-1 solution; positively char

132 urface-sulfonated cyclo-olefin polymer (COP) capillary column with an inner diameter (i.d.) of 28 mum

133 ate derivatives were analysed on a wide bore capillary column with detection by flame ionization.

134 ing is obtained by wrapping the fused-silica capillary column with resistance heater wire and sensor

135 ovel monolithic poly(styrene-divinylbenzene) capillary columns with an internal diameter of 0.2 mm, w

136 hould lead to the routine analysis of DNA in capillary columns with an on-column sensitivity of appro

137 New monolithic capillary columns with embedded commercial hydroxyapatit

138 omatographic separations obtained in "empty" capillary columns with no ordinary stationary liquid pha

139 E was performed with 180-micron fused silica capillary columns with tapered ends to collect CE fracti

140 em ensemble of two 4.5-m-long x 0.25-mm-i.d. capillary columns with the first using a 0.50-microm fil

141 tent mean through-pore size distribution for capillary columns with the same internal diameter but wi

142 ence protein (GFP)-functionalized monolithic capillary column, with thrombin as an example.