ライフサイエンスコーパス: microprobe

1 ocarcinoma cells was measured using an X-ray microprobe.

2 ree-dimensional high resolution scanning ion microprobe.

3 l was measured with a force-calibrated glass microprobe.

4 The microchip is directly coupled to a Raman microprobe.

5 n of an IrOx reference electrode (RE) on the microprobe.

6 chemical processes, requiring a real-time pH microprobe.

7 modulation of tissue-embedded phosphorescent microprobes.

8 , in rats by using small-animal PET and beta-microprobes after pharmacologic challenges with N-acetyl

9 The electron microprobe allows elemental abundances to be mapped at t

10 secondary-ion mass spectrometry and electron microprobe analyses conducted on pyrite from the Bruceja

11 rent from the combined chemical and electron microprobe analyses in the literature.

12 torted octahedral coordination, and electron microprobe analyses indicate K and Na as major substitue

13 Ultraviolet laser microprobe analyses of a calcium-aluminum-rich inclusion

14 Ultraviolet laser microprobe analyses of a calcium-aluminum-rich inclusion

15 Here we present ion microprobe analyses of the carbon isotopes in individual

16 We also provide supporting X-ray microprobe analyses of the chemical state of these fossi

17 yielded a black organic residue in which ion microprobe analyses revealed hydrogen isotopic anomalies

18 Microprobe analyses show that Se is associated with the

19 d acid dissolution technique paired with ion microprobe analyses to specifically target carbonates fr

20 r Se localization and speciation using X-ray microprobe analyses.

21 Scanning electron microscopy (SEM), electron microprobe analysis (EMPA), and micro-X-ray fluorescence

22 local composition and structure by electron microprobe analysis and electron-backscatter diffraction

23 ithin detrital minerals revealed by electron microprobe analysis and Raman spectroscopy preserve petr

24 in situ microanalytical techniques (electron microprobe analysis and secondary ion mass spectrometry)

25 The solid-phase microprobe analysis confirmed the formation of pyromorph

26 Electron microprobe analysis indicated U was coprecipitated with

27 Microprobe analysis of a single crystal of composition F

28 hotoelectron spectroscopy (XPS) and electron microprobe analysis revealed a complex chemical fine str

29 Both EPMA-WDS (electron microprobe analysis using a wavelength dispersive spectr

30 Electron microprobe analysis yielded a similar chemical compositi

31 tobalite is based on Raman spectra, electron microprobe analysis, and microthermometric measurements

32 copy, scanning electron microscopy, electron microprobe analysis, and synchrotron X-ray diffraction a

33 l and scanning electron microscopy, electron microprobe analysis, and thermodynamic modeling.

34 A combination of synchrotron based X-ray microprobe and bulk techniques was used to study the spa

35 es were performed through X-ray fluorescence microprobe and energy-dispersive X-ray spectroscopic tec

36 Combined electron microprobe and laser ablation high-resolution inductivel

37 r 2050) high pCO2 (589 muatm) using Electron microprobe and NanoSIMS analysis.

38 nalyte is first captured on the surface of a microprobe and subsequently eluted from the microprobe i

39 oxygen and carbon isotopes determined by ion microprobe and uranium isotopes and U-Th dating by laser

40 Electron microprobe and X-ray absorption near-edge structure (XAN

41 Using both X-ray microprobe and X-ray absorption spectroscopy, we investi

42 stimulations to individual hair bundles with microprobes and measure whole cell transduction currents

43 l (scanning electron microscopy and electron microprobe) and structural (electron backscatter diffrac

44 ding spectroscopy, scattering, microbalance, microprobe, and electron microscopy.

45 packs were measured with a synchrotron X-ray microprobe, and inverse modeling was used to determine e

46 n of Hg-Al solids by bulk Hg EXAFS, electron microprobe, and microfocused-XRF mapping indicated coord

47 ahedral phases was characterized by electron microprobe, and the rotational symmetry was confirmed by

48 adout in precise spatial registry across the microprobe array.

49 s compatible with commercial X-ray and Auger microprobes as well as scanning or transmission electron

50 surements were carried out using a heavy ion microprobe at the Ruder Boskovic Institute.

51 17 zircons that were previously dated by ion microprobe at ~4.33 Ga using isotope dilution thermal io

52 Microprobes bearing immobilised antibodies to dynorphin

53 in the anaesthetized rat and cat by means of microprobes bearing immobilized antibodies to the C term

54 Microprobes bearing immobilized antibodies to the carbox

55 n oxygen source is commonly used in this ion microprobe but cannot achieve the same quality of images

56 We found that the LNA microprobe can distinguish lengths down to the attomolar

57 through a minimally invasive procedure, the microprobe can stay within a solid tumor and be repeated

58 ro-spectroscopy (SR-FTIR) is a bioanalytical microprobe capable of exploring the molecular chemistry

59 apture technique for protein targets, called microprobe-capture in-emitter elution (MPIE), which can

60 Microprobe CE-ESI-MS of <0.02% of the single-cell conten

61 e/oxidized glutathione ratios suggested that microprobed cells exhibited significantly lower oxidativ

62 /kg); and third, a small-animal PET and beta-microprobe cold blocking study (n = 6/condition) with un

63 The wireless EA microprobe consists of a millimeter-sized piezoelectric

64 zircon and TiO(2) identified by an electron microprobe could account for the hot spots.

65 by a miniaturized extractive sampling probe (microprobe) coupled to photoionization mass spectrometry

66 Here we present in situ zircon U/Pb ion microprobe data that dates the timing of eclogite facies

67 We have developed Ti-U-Th-Pb ion microprobe depth profiling to obtain age and temperature

68 Here a multi-modal coaxial microprobe design with a minimally invasive footprint (8

69 Since such microprobes detect extracellular molecules along their e

70 any active peripheral stimulus the antibody microprobes detected immunoreactive (ir)-dynorphin A(1-8

71 ed three different backbones of nucleic acid microprobes [DNA, peptide nucleic acid, and lock-nucleic

72 fraction, micro X-ray fluorescence, electron microprobe elemental mapping, and energy dispersive spec

73 s of both sediment samples and that electron microprobe elemental mapping, EDS spot analyses at the u

74 Samples are obtained by microprobe extraction from a nitrogen-diluted, methane/a

75 m samples of 12 individuals using a (1)H NMR microprobe featuring high-resolution magic-angle coil sp

76 report the application of a scanning nuclear microprobe for accurate and nondestructive depth profili

77 de-like electrodes into a polymer SU-8 based microprobe for neuronal recording applications.

78 scale spintronic devices, provides a desktop microprobe for spin transition; spin current is a flux o

79 bilities for tomographic imaging, the XRF-CT microprobe has been used to image the interior of an eco

80 dicates that RS-based serum analysis using a microprobe has immense potential for early, accurate, an

81 Overall, our dual L-glutamate:GABA sensor microprobe has its unique features to enable accurate, r

82 s well as charged particle microbeams, X-ray microprobes have been developed, and several groups are

83 data obtained at 600 MHz with a 1.7 mm cryo-microprobe in combination with FTMS, exciton coupled CD,

84 on brain slices using a focused proton-beam microprobe in combination with ionic metallic probes.

85 ts were obtained by positioning a calibrated microprobe in the beat path of sperm cells that were stu

86 c and geochemical techniques (laser ablation microprobe inductively coupled plasma mass spectrometry)

87 microprobe and subsequently eluted from the microprobe inside an electrospray emitter.

88 This work additionally shows that the X-ray microprobe is able to directly quantify Pt drug uptake o

89 The microprobe is capable of producing a direct current of 9

90 The fabrication of an all-diamond microprobe is demonstrated for the first time.

91 novel laboratory X-ray fluorescence (muXRF) microprobe is presented, which combines monochromatic, f

92 Using the Gray Cancer Institute soft X-ray microprobe, it has been possible to follow the response

93 Microprobe laser desorption/laser ionization mass spectr

94 l techniques and instruments include the ion microprobe, laser ablation gas MS, Auger EM, resonance i

95 d 5 mm in rigid length) and super-achromatic microprobe made with a built-in monolithic fiber-optic b

96 exceptional potentiometric properties of pH microprobes made with nanostructured palladium hydride m

97 g progressive illite formation, (2) electron microprobe mapping and EDS spot analyses both showed a d

98 ies provides elemental maps similar to X-ray microprobe maps for any cross section in the probed volu

99 al Al concentration was ascertained by laser microprobe mass spectrometry (LMMS).

100 igh-resolution atmospheric-pressure scanning microprobe matrix-assisted laser desorption/ionization (

101 ial-resolution atmospheric-pressure scanning microprobe matrix-assisted laser desorption/ionization m

102 -like cells by atmospheric-pressure scanning microprobe matrix-assisted laser desorption/ionization m

103 igh-resolution atmospheric-pressure scanning microprobe matrix-assisted laser desorption/ionization m

104 nimal PET with (11)C-ABP688 (n = 12) or beta-microprobe measurements (n = 10/condition) of (11)C-ABP6

105 Here we report quantitative ion microprobe measurements of late-stage apatite from lunar

106 Here we report ion-microprobe measurements of the carbon-isotope compositio

107 The microprobe-mediated EA ablative capability is demonstrat

108 A quantitative X-ray microprobe method was developed based on S 1s X-ray abso

109 y photoelectron spectroscopy (XPS), electron microprobe microscopy (EMP), ellipsometry, Fourier trans

110 Most MSI studies are conducted in microprobe mode, in which a mass spectrum is collected f

111 For the first image, a comparable microprobe-mode measurement would take more than 2 month

112 In microprobe-mode MSI, improvements in spatial resolution

113 le micromachined multi-electrode array (MEA) microprobe modified for utilization as a complete electr

114 In microprobe MSI, images are created through a grid-wise i

115 Synchrotron X-ray Fluorescence microprobe (mu-SXRF) showed that Hg accumulated at the r

116 platform, combining HPLC-PDA-MS and offline microprobe NMR analysis.

117 Together, integrated microprobe NMR spectroscopy, microscale degradation and

118 /electron loss near-edge spectroscopy, Raman microprobe, NMR spectroscopy, and inductively coupled pl

119 These PDMS-based microprobes of ultra-large tunable stiffness (ULTS) shou

120 ptor (D1R) or the D2 receptor (D2R) gene and microprobe optical imaging to assess the dynamic changes

121 gnaling during cocaine intoxication, we used microprobe optical imaging to compare dynamic changes in

122 a were acquired using a 77 K resonance Raman microprobe or preresonance Raman spectroscopy.

123 Although isotopic analysis with the ion microprobe plays a major role in the laboratory analysis

124 hniques with optical microscopy and electron microprobe point detection confirmed the qualitative ana

125 Modifications of electron microprobe procedure permit fine-scale mapping of carbon

126 Herein, we describe the use of SDS-PAGE and microprobe Raman spectroscopy to detect and distinguish

127 microscopy, X-ray and electron diffraction, microprobe Raman spectroscopy, and magnetic analysis.

128 itions of these concretions, measured by ion microprobe, range from delta18O = +9.5 to +20.5 per thou

129 eter H(+) ion-selective microelectrode or pH microprobe showed a Nernstian slope of 59 mV/pH and high

130 oscopy (cryo-TEM) and synchrotron hard X-ray microprobe (SHXM) data sets to precisely determine the d

131 Last, we used microprobe single-cell CE-ESI-MS to uncover previously u

132 High-spatial-resolution secondary ion microprobe spectrometry, synchrotron radiation-based Fou

133 Studies by Raman microprobe spectroscopy have shown that the black ink de

134 Whole cell microprobe SR-XRF identified endogenous Cu in the centra

135 sorption spectroscopy and x-ray fluorescence microprobe studies of 35-million-year-old calcite from a

136 rements are obtained using a modified quartz microprobe synchronized to open and close with the flame

137 ated using the high elemental sensitivity of microprobe synchrotron radiation X-ray fluorescence (SR-

138 1 ms, respectively, are obtained by using a microprobe system to focus displaced pump and probe lase

139 sured with an arteriovenous shunt and a beta-microprobe system.

140 However, these conventional microprobe techniques record spectra only at single poin

141 cell with in situ optical, Raman, and x-ray microprobe techniques reveals two previously unknown str

142 ort an ultrasonically powered implantable EA microprobe that may increase the clinical relevance of E

143 When the proximal flagellum is bent with a microprobe, the portion of the flagellum distal to the p

144 with and without Mg(2+) demonstrated the LNA microprobe to perform better in the presence of the diva

145 synchrotron-based X-ray fluorescence (SXRF) microprobe to quantify the elements Si, Mn, Fe, Ni, and

146 ng extracellular recording wires and silicon microprobes to measure electrically evoked damped oscill

147 Using microprobe two-step laser mass spectrometry (muL(2)MS),

148 composition of the concretion with electron microprobe, u-XRF, and fusion ICP-OES.

149 y emitted from bulk samples with an electron microprobe using high-resolution wavelength-dispersive s

150 ectable release of SP (using antibody-coated microprobes) was measured 3 and 6 h after SP-asODN injec

151 a solid-state H(+) and Ca(2+) ion-selective microprobe, we determined that the local Ca(2+) concentr

152 -retest), and both small-animal PET and beta-microprobes were able to discriminate changes in (11)C-A

153 The microprobes were inserted through the cerebral hemispher

154 When beta-microprobes were used, the average BPND in the caudate p

155 We used a novel hard x-ray microprobe with suboptical spatial resolution to analyze

156 Furthermore, microprobe x-ray absorption measurements at various subc

157 ected solid was characterized using bulk and microprobe X-ray diffraction coupled with pair distribut

158 coupled with pair distribution function and microprobe X-ray fluorescence analyses.

159 al tool in conjunction with synchotron-based microprobe X-ray fluorescence microscopy (XRFM) to disco

160 Microprobe X-ray fluorescence of tumor thin sections sho

161 smission electron microscopy (TEM) and X-ray microprobe (XMP) analyses indicated that As was primaril

162 Electron microprobe XRF characterization of sorption samples with