ライフサイエンスコーパス: ultrahigh

1 f magnitude, thus enabling the production of ultrahigh 6D-brightness beams.

2 ctric (ME) composite sensors that exhibit an ultrahigh AC magnetic sensitivity under the presence of

3 These nanoframes demonstrate an ultrahigh activity with 200 mA cm(-2) current density at

4 e demonstrate the ability to use peptides as ultrahigh affinity reagents that function in complex mat

5 both aptamers critically contribute to this ultrahigh affinity, highlighting the promise of such rea

6 epitopes on GFP, we were also able to design ultrahigh-affinity dimeric nanobodies with Kd values as

7 e separated into lamellar line patterns with ultrahigh area density.

8 e activation volumes, which explain both the ultrahigh athermal strength as well as the temperature-d

9 ts) that exhibit near-infrared fluorescence, ultrahigh brightness, large Stokes shifts, and excellent

10 All four sheets have ultrahigh carrier mobility and show anisotropy in-plane.

11 erties such as large carrier Fermi velocity, ultrahigh carrier mobility, and high material stability.

12 luding light effective quasiparticle masses, ultrahigh carrier mobility, as well as negative longitud

13 ining the crystal structure, morphology, and ultrahigh chemical stability of UiO-66.

14 s, electrical matching networks, and compact ultrahigh-concentration optics.

15 The ultrahigh cooling rate, approaching the highest liquid-q

16 its superior energy and power densities with ultrahigh cycle stability.

17 1) at 2 A g(-1) ), good rate capability, and ultrahigh cycling stability (93.6% retention over 20 000

18 The ultrahigh demand for faster computers is currently tackl

19 semiconducting nanotubes into well-aligned, ultrahigh-density and submonolayered arrays, with a cons

20 anostics, optical sensing, nonlinear optics, ultrahigh-density data storage, as well as plasmonic met

21 r axis have potential for the development of ultrahigh-density memories as every single column might

22 The ability to efficiently map ultrahigh-density pan-genome sequence anchors enables fi

23 an effective and powerful approach to handle ultrahigh dimensional data statistically, yet it has not

24 m that can be used to implement iMOMLogit in ultrahigh-dimensional settings ([Formula: see text]) and

25 Here, we implemented an ultrahigh-dimensional variable selection model to build

26 To address this ultrahigh dimensionality issue, this paper adopts a two-

27 tation of the sample strength to accommodate ultrahigh dynamic range without loss of information.

28 The capability of plasmas to sustain ultrahigh electric fields has attracted considerable int

29 Materials with an ultralow density and ultrahigh electromagnetic-interference (EMI)-shielding p

30 sent tunable negative-stiffness that enables ultrahigh energy absorption efficiencies.

31 se it is the insulating discharge product of ultrahigh energy density lithium-sulfur (Li-S) batteries

32 generation energy-storage devices due to its ultrahigh energy density.

33 aged to flexible photodetectors, yielding an ultrahigh external photoresponsivity of approximately 1,

34 inear band dispersion at the Fermi level and ultrahigh Fermi velocities of 10(6) m/s, which are virtu

35 Topics discussed included the future of ultrahigh-field NMR systems, emerging NMR detection tech

36 results demonstrate potential of (1)H MRS at ultrahigh fields.

37 cal, electronic and mechanical properties at ultrahigh frequencies and can be exploited for applicati

38 Generating, detecting and controlling such ultrahigh frequency phonons has been a topic of intense

39 ormalities were further interrogated with an ultrahigh-frequency ultrasound biomicroscopy.

40 An ultrahigh Hall mobility value of >20,000 cm(2) V(-1) s(-

41 ng and softening functions, illuminating the ultrahigh hardness demonstrated in the experiment.

42 X-ray-driven processes in complex systems at ultrahigh intensities is feasible.

43 tion to perform high-localization precision, ultrahigh-labeling density, multicolor localization micr

44 tal-organic framework, which demonstrates an ultrahigh lithium storage capacity of 2458 mAh g(-1) and

45 By taking advantage of the ultrahigh loading capacity of the AImuEA platform and th

46 ch length, and that this relationship causes ultrahigh localized mutation rates in specific homopolym

47 y ((1)H-MRS) acquisition scheme that uses an ultrahigh magnetic field (>/= 7T) capable of noninvasive

48 At ultrahigh magnetic field, manganese-enhanced magnetic re

49 eous high-resolution fMRI and TPM imaging at ultrahigh magnetic field.

50 ion of a Mn0.5Ce0.5Ox solid solution with an ultrahigh manganese doping concentration in the CeO2 cub

51 FT-ICR MS) provides ultrahigh resolution and ultrahigh mass accuracy measurements.

52 As a result, ultrahigh mass loading (0.125 g cm(-3), 2 g sulfur in a

53 up to 250), high mass accuracy (<1 ppm), and ultrahigh mass resolution (RMS up to 600-1200k at m/z 40

54 w ion and can only be determined by MS with ultrahigh mass resolution and high mass accuracy.

55 s can also be isotopically resolved with the ultrahigh mass resolution available in FT-ICR.

56 n single crystals, the protection results in ultrahigh mobility, 9 x 10(6) cm(2) V(-1) s(-1) at 5 K.

57 nce band, consistent with the observation of ultrahigh-mobility carriers in the conduction band.

58 l thin-walled (115 microm) sirolimus-eluting ultrahigh molecular weight amorphous poly-l-lactic acid-

59 Ultrahigh molecular weight polyethylene (PE-UHMW), a mat

60 bstrate capable of capturing vast amounts of ultrahigh-molecular-weight DNA.

61 to nanocrystal dispersions of disentangled, ultrahigh-molecular-weight linear polyethylene.

62 copy allows DOSY spectra to be measured with ultrahigh NMR resolution at improved sensitivity.

63 ion of live-cell SIM through two approaches: ultrahigh numerical aperture SIM at 84-nanometer lateral

64 es, nanonaps exhibit non-shifting spectra at ultrahigh optical densities and, following oral administ

65 The achieved ultrahigh oxygen evolution activity and strong durabilit

66 The ultrahigh oxygen evolution activity and strong durabilit

67 ass spectrometric (MS) techniques coupled to ultrahigh performance liquid chromatographic (UHPLC) sys

68 field scanning has been incorporated into an ultrahigh performance liquid chromatography (UHPLC) and

69 iquid interaction chromatography (HILIC) and ultrahigh performance liquid chromatography (UHPLC) data

70 and validated a multifunctional method using ultrahigh performance liquid chromatography coupled with

71 The analyses utilized ultrahigh performance liquid chromatography coupled with

72 The use of ultrahigh performance liquid chromatography hyphenated t

73 ity of this implementation with contemporary ultrahigh performance liquid chromatography is demonstra

74 Wipe extracts were analyzed by ultrahigh performance liquid chromatography-tandem mass

75 erformed a targeted metabolomics study using ultrahigh performance liquid chromatography-tandem mass

76 f bile acids (BAs) in blood, we developed an ultrahigh performance liquid chromatography/multiple-rea

77 An ultrahigh performance MoS2 photodetector with high photo

78 in HPLC technology led to the development of ultrahigh-performance instruments that allow rapid sampl

79 ne and then analyzed using an reversed-phase ultrahigh-performance liquid chromatography (RP-UHPLC) c

80 he resulting TSH-hydrazones are separated by ultrahigh-performance liquid chromatography (UHPLC) and

81 he current work explores the capabilities of ultrahigh-performance liquid chromatography (UHPLC) coup

82 rty-nine polyphenolics were identified using ultrahigh-performance liquid chromatography (UHPLC) coup

83 (Durham, NC), using ultrahigh-performance liquid chromatography (UPLC) and h

84 in a codY mutant strain, as determined using ultrahigh-performance liquid chromatography coupled to m

85 hy and mass spectrometry methods, especially ultrahigh-performance liquid chromatography coupled with

86 A fast, sensitive, and selective ultrahigh-performance liquid chromatography tandem mass

87 , we developed a solid-phase extraction with ultrahigh-performance liquid chromatography tandem mass

88 m stable derivatives, which were analyzed by ultrahigh-performance liquid chromatography with hyphena

89 ts of serum total and free IS and PCS (using ultrahigh-performance liquid chromatography), carotid in

90 usefulness of PlantMAT is exemplified using ultrahigh-performance liquid chromatography-electrospray

91 We report the development of an ultrahigh-performance liquid chromatography-electrospray

92 Nontargeted screening methods with ultrahigh-performance liquid chromatography-electrospray

93 tosan polymers into oligomeric fingerprints, ultrahigh-performance liquid chromatography-electrospray

94 lenge of untargeted metabolomic profiling by ultrahigh-performance liquid chromatography-high-resolut

95 ng, and metabolite profiles were analyzed by ultrahigh-performance liquid chromatography-mass spectro

96 through the isolation of the compounds using ultrahigh-performance liquid chromatography-mass spectro

97 ct filters)-IDA, SWATH, or MS(All)) using an ultrahigh-performance liquid chromatography-qudrupole ti

98 An untargeted ultrahigh-performance liquid chromatography-tandem mass

99 ing gas chromatography-mass spectrometry and ultrahigh-performance liquid chromatography-tandem mass

100 combination of three independent platforms: ultrahigh-performance liquid chromatography/tandem mass

101 tect (13)C, D2-formaldehyde-modified OSCs by ultrahigh-performance liquid phase chromatography couple

102 rate the particles based on their size, with ultrahigh-performance size-exclusion chromatography (SEC

103 pidomic analysis of biological samples using ultrahigh-performance supercritical fluid chromatography

104 in 1 h, and the analytes were measured using ultrahigh-performance supercritical fluid chromatography

105 ption, showed very strong PA response and an ultrahigh photothermal conversion efficiency (eta, appro

106 s rise to their defining properties, such as ultrahigh piezoelectric coefficients, high permittivity

107 The discovery of ultrahigh piezoelectricity in relaxor-ferroelectric soli

108 y suggests that the polymer is periodic with ultrahigh pore density.

109 Carbon monoliths of ultrahigh pore volume (5.35 cm(3) g(-1) ) and high surfa

110 The exceptional performance arises from the ultrahigh power factor, which comes from a high electric

111 s promise new single crystal applications in ultrahigh-power transducers that are capable of producin

112 New ultrahigh precision, double-spike mass spectrometry stab

113 At ultrahigh pressure (>110 GPa), H2 S is converted into a

114 the ROP process has been realized only under ultrahigh pressure (20,000 atm, 160 degrees C) and only

115 udy, we describe a novel approach which uses ultrahigh pressure liquid chromatography (UHPLC) coupled

116 such as high pressure liquid chromatography, ultrahigh pressure liquid chromatography and SDS-PAGE ge

117 Stable derivatives were analyzed by ultrahigh pressure liquid chromatography coupled tandem

118 we report Mg and O isotopic compositions for ultrahigh pressure metamorphic marbles and enclosed carb

119 gases are transported into the mantle, where ultrahigh-pressure (UHP) metamorphism takes place.

120 hy (LC) system in the first dimension and an ultrahigh-pressure LC system in the second dimension to

121 of two to four of the state-of-the-art nano ultrahigh-pressure LC system.

122 les in a Palythoa canariensis extract and an ultrahigh-pressure liquid chromatography coupled to an i

123 es (4.1-9.0%) across the 60 animals; (ii) an ultrahigh-pressure nano-LC setup with substantially impr

124 A compact ultrahigh-pressure nanoflow liquid chromatograph (LC) wa

125 e pumping system could successfully generate ultrahigh pressures for use in capillary LC.

126 on, showing that oxygen packing decreases at ultrahigh pressures to accommodate the higher than sixfo

127 as analogue materials for silicate melts at ultrahigh pressures.

128 Accordingly, Fe-CAT-5 exhibits ultrahigh proton conductivity (5.0 x 10(-2) S cm(-1)) at

129 We propose a mechanism of ultrahigh-Q metallic nanocavity resonances that involves

130 owly evolved dissipative Kerr solitons in an ultrahigh-Q microresonator.

131 Over the past decade, ultrahigh-Q optical whispering-gallery-mode resonators h

132 Ultrahigh-Q resonances supporting field enhancement fact

133 analysis fractionation is not feasible; use ultrahigh quality grade solvents and "vintage" analytica

134 capacitors based on the reduced GO showed an ultrahigh rate capability of up to 10 V s(-1) due to thi

135 age properties with ultralong cycle life and ultrahigh rate capability, comparable to state-of-the-ar

136 holey-graphene/niobia (Nb2O5) composite for ultrahigh-rate energy storage at practical levels of mas

137 Here, we propose to use ultrahigh resolution 15T MALDI-Fourier transform ion cyc

138 owing for continuous "grayscale" images with ultrahigh resolution and low dimensionality is described

139 tion mass spectrometry (nano-DESI/HRMS), and ultrahigh resolution and mass accuracy 21T Fourier trans

140 nance mass spectrometry (FT-ICR MS) provides ultrahigh resolution and ultrahigh mass accuracy measure

141 therto unknown mass ambiguities in high- and ultrahigh resolution data, while also ranking lipid clas

142 al composition of the WEOM was determined by ultrahigh resolution electrospray ionization Fourier tra

143 ydraulic fracturing wastewater samples using ultrahigh resolution Fourier transform ion cyclotron res

144 o resolve mass splits such as C3 vs SH4: (a) ultrahigh resolution Fourier transform mass spectrometry

145 solution TIMS (resolving power of 90-220) to ultrahigh resolution FT-ICR MS (resolving power over 400

146 phy coupled to a diode array detector and an ultrahigh resolution hybrid quadruple-time-of-flight mas

147 which could replace TEM for localization in ultrahigh resolution imaging analyses.

148 Ultrahigh resolution MALDI-FTICR MS allows the measureme

149 This new automated ultrahigh resolution mapping system produces low noise a

150 lity Spectrometry (OSA-TIMS) when coupled to ultrahigh resolution mass analyzers (e.g., FT-ICR MS).

151 e-consuming, if both gas chromatographic and ultrahigh resolution mass spectrometric data are concern

152 on Fourier-transform ion cyclotron resonance ultrahigh resolution mass spectrometry (ESI FTICR-MS) sp

153 henating APCI to gas chromatography (GC) and ultrahigh resolution mass spectrometry (FT-ICR MS) enabl

154 ns of SO2 added at pressing were analyzed by ultrahigh resolution mass spectrometry (FT-ICR-MS) and e

155 spheric pressure photoionization (ESI, APPI) ultrahigh resolution mass spectrometry (FT-ICR-MS) revea

156 ebec, Canada, using EEM/PARAFAC analysis and ultrahigh resolution mass spectrometry (FTICR-MS).

157 ed by flow injection-electrospray ionization-ultrahigh resolution mass spectrometry (uHRMS) and based

158 diversity, features previously inferred from ultrahigh resolution mass spectrometry and NMR studies o

159 The combination of GC with ultrahigh resolution mass spectrometry can improve the c

160 Here, we used ultrahigh resolution mass spectrometry data to evaluate

161 aration of naphthenic acid mixtures prior to ultrahigh resolution mass spectrometry detection, using

162 We use ultrahigh resolution mass spectrometry to elucidate mole

163 Here, we use ultrahigh resolution mass spectrometry to elucidate, at

164 Ultrahigh resolution mass spectrometry, such as Fourier

165 rmulae to exact masses that are generated by ultrahigh resolution mass spectrometry.

166 xane (PDMS) coated stir bars and analysis by ultrahigh resolution orbitrap mass spectrometry in elect

167 performance liquid chromatography (HPLC) and ultrahigh resolution Orbitrap mass spectrometry, a sensi

168 Ultrahigh resolution revealed changes not visible using

169 erformed using a triple quadrupole MS and an ultrahigh resolution TOF-MS.

170 Herein, we report three ultrahigh resolution X-ray crystal structures of CTX-M b

171 y ionization mass spectrometry (ESI-MS) with ultrahigh resolution, the molecular level fractionation

172 MALDI-MS methods require mass measurement at ultrahigh resolution, which is provided by Fourier trans

173 dementias would also benefit from imaging at ultrahigh resolution.

174 lithic fiber-optic ball lens, which achieves ultrahigh-resolution (1.7 microm axial resolution in tis

175 The ultrahigh-resolution digital image sensor can heavily im

176 Ultrahigh-resolution electron microscope images demonstr

177 dy, the hyphenation of a thermobalance to an ultrahigh-resolution Fourier transform ion cyclotron res

178 e features was molecularly characterized via ultrahigh-resolution Fourier-transform ion cyclotron res

179 To elucidate this mechanism, we utilize an ultrahigh-resolution frequency modulation-AFM for measur

180 Ultrahigh-resolution FTICR-MS measurements provided full

181 lution mobility (R approximately 70-120) and ultrahigh-resolution mass measurements (R > 400000) of s

182 (CE), electrospray ionization, and a tribrid ultrahigh-resolution mass spectrometer (HRMS) to enable

183 Ultrahigh-resolution mass spectrometry (MS) and nuclear

184 Through the combination of nontargeted ultrahigh-resolution mass spectrometry and multidimensio

185 Ultrahigh-resolution mass spectrometry, as well as optic

186 atography coupled to electrospray ionization ultrahigh-resolution mass spectrometry.

187 s via elemental analysis and molecularly via ultrahigh-resolution mass spectrometry.

188 ands using X-ray absorption spectroscopy and ultrahigh-resolution mass spectrometry.

189 The DOM was characterized using ultrahigh-resolution negative ion mode electrospray ioni

190 Monitoring of corneal wound healing using ultrahigh-resolution OCT might be an attractive alternat

191 volumetric imaging of Young's modulus using ultrahigh-resolution optical coherence elastography, and

192 ize of the corneal defect was measured using ultrahigh-resolution optical coherence tomography (OCT)

193 rwent detailed retinal imaging studies using ultrahigh-resolution optical coherence tomography.

194 teolysis reactors for mAb digestion prior to ultrahigh-resolution Orbitrap MS analysis.

195 upt climate transitions, a robust system for ultrahigh-resolution sampling of glacier ice is needed.

196 We additionally report the ultrahigh-resolution structure of the HDAC6-trichostatin

197 Using a combination of ultrahigh-resolution three-dimensional imaging and two-d

198 ta set I consists of neutron diffraction and ultrahigh-resolution x-ray structures (0.9 A resolution

199 ld promise for a new generation of bistable, ultrahigh-resolution, and flexible display technologies,

200 In this study, we use a recently developed ultrahigh-resolution, synchrotron-based, full-field tran

201 Ultrahigh resolving Fourier Transform mass spectrometry

202 s cycling back and forth: (i) full scan with ultrahigh resolving power (RP = 120,000, mass accuracy <

203 ee-form lattice architectures but also poses ultrahigh reversible stretchability (strain > 414%), 4 t

204 nt onset and improve outcomes in patients at ultrahigh risk for psychosis is dietary supplementation

205 In this study of 304 adults at ultrahigh risk for psychotic disorders, 153 (50.3%) rece

206 10PHOX2B > 0.28) identify 19% of children as ultrahigh risk, with 5-year EFS and OS rates of 0%; OS r

207 diagnosis objectively identify children with ultrahigh-risk disease who may benefit from novel treatm

208 t achieves broadband CARS measurements at an ultrahigh scan rate of more than 20,000 spectra/s - more

209 nalysis of permeation data suggests that the ultrahigh selectivities result from substantially increa

210 imperfectly-matched DNA duplexes produced an ultrahigh selectivity - one mutant in 1000 copies of the

211 d as electrochemical genosensor platform for ultrahigh sensitive detection of breast cancer 1 (BRCA1)

212 A simple, rapid response time and ultrahigh sensitive electrochemiluminescence (ECL) immun

213 Optical microcavity sensors are renowned for ultrahigh sensitivities due to strongly enhanced light-m

214 rapid response time ( approximately 5 s) and ultrahigh sensitivity (1.38 muA/fM).

215 area capacitance (of 5.4 muF cm(-2) ) and an ultrahigh sensitivity (of 3.1 nF kPa(-1) ), which is a t

216 The ultrahigh sensitivity and ease of fabrication of the dem

217 basis for a highly desirable combination of ultrahigh sensitivity and SLIM SUPER high-resolution IM

218 Ultrahigh sensitivity is achieved through gold depositio

219 The PNS sensor exhibits an ultrahigh sensitivity to NO2 in dry air and the sensitiv

220 y and high-homogeneity hotspots resulting in ultrahigh sensitivity with a surface enhanced Raman spec

221 The GO-dLPG based biosensor demonstrates an ultrahigh sensitivity with limit of detection of 7ng/mL,

222 new sensing device was developed to achieve ultrahigh sensitivity, by coupling polymer micropillars

223 ction to detect O-GlcNAcylated proteins with ultrahigh sensitivity.

224 ethods reported previously and hence affords ultrahigh sensitivity.

225 fluorescence-free measurement condition, for ultrahigh-sensitivity crude oil sensing.

226 ight-based science and technology, including ultrahigh-sensitivity spectroscopies, light energy harve

227 rmful byproduct ammonium, and achievement of ultrahigh soil strength.

228 ed and demonstrated, and the 2DPT array with ultrahigh spatial resolution has been developed through

229 oosts the supercapacitive performances to an ultrahigh specific capacitance of up to 313 F g(-1) at 1

230 arthquakes in the laboratory, enabled by our ultrahigh speed full-field imaging technique.

231 ated with experimental data captured with an ultrahigh-speed camera on the positions of the nucleatio

232 00 ps timescale, our results open the way to ultrahigh-speed compression of sparse signals.

233 were breakthroughs achieved in demonstrating ultrahigh-speed imaging (more than 10(5) frames per seco

234 The SS OCT device used is an ultrahigh-speed long-wavelength prototype that operates

235 The ability of ultrahigh-speed, swept-source OCTA to noninvasively visu

236 the space group of P2(1) as well as high to ultrahigh spontaneous polarizations (23-127 muC/cm(2)) a

237 our simulations, the metal is compressed at ultrahigh strain rates along its [001] crystal axis unde

238 haped with nanoscale precision by generating ultrahigh-strain-rate deformations.

239 uper-strong ones exhibiting a combination of ultrahigh strength and significant toughness, through a

240 uch as carbon nanotubes and graphene possess ultrahigh strength and toughness.

241 e metals and alloys is responsible for their ultrahigh strength, but also undesirable microstructural

242 performance of nanolattices, including their ultrahigh strength, damage tolerance, and stiffness, are

243 cations, NU-1103 combines for the first time ultrahigh surface area and water stability, where this m

244 films of the semi-2D perovskites display an ultrahigh surface coverage as a result of the unusual fi

245 This is mainly mediated by the ultrahigh surface-to-volume ratio and the effective coup

246 e due to the reduction in dimensionality and ultrahigh surface-to-volume ratio.

247 pally suppress the off-flavor development in ultrahigh temperature (UHT) treated milk, but little has

248 ice core record of atmospheric methane with ultrahigh temporal resolution, we find abrupt methane in

249 Here we report the observation of ultrahigh third-order nonlinearity about 0.45 cm(2)/GW i

250 dividually using 2D arrays of electrodes and ultrahigh throughput droplet microfluidics focused on th

251 of large numbers of compartments either for ultrahigh throughput screens or for the synthesis of fun

252 t and quantitate proteins in single cells at ultrahigh throughput.

253 ic bacteria and operates in a continuous and ultrahigh-throughput (>1 mL/min) manner.

254 whereas droplet microfluidic techniques are ultrahigh-throughput but require a custom assay for each

255 Here, we show that an ultrahigh-throughput droplet-based microfluidic screenin

256 Here, we present an ultrahigh-throughput method for mapping enzyme sequence-

257 ethod that greatly expands the generality of ultrahigh-throughput microfluidic screening.

258 Although ultrahigh-throughput RNA-Sequencing has become the domin

259 Ultrahigh-throughput screening (uHTS) techniques can ide

260 ar product titer into fluorescence, allowing ultrahigh-throughput screening of millions of variants.

261 tablish a practically undemanding method for ultrahigh-throughput screening that results in functiona

262 Ultrahigh-throughput screening, in which members of enzy

263 gas-phase, research with model catalysts in ultrahigh vacuum (UHV) and so-called high-pressure cell

264 nanometer-thin films on insulators and under ultrahigh vacuum (UHV) conditions from photocoupled brom

265 on induced decomposition of adsorbed 1 under ultrahigh vacuum (UHV) conditions proceeds through initi

266 curs on Au(111) upon thermal annealing under ultrahigh vacuum (UHV) conditions.

267 er absorbed on a rutile TiO2(110) surface in ultrahigh vacuum (UHV) is studied with spin-polarized de

268 In ultrahigh vacuum (UHV), TERS can be performed in pristin

269 by X-ray photoelectron spectroscopy (XPS) in ultrahigh vacuum at room temperature.

270 in few A to 5 nm gap sizes, performed under ultrahigh vacuum conditions between a Au-coated probe fe

271 y incompatibility of the liquid samples with ultrahigh vacuum environment of the electron optics and

272 rves cell morphology, allows analysis in the ultrahigh vacuum environment, and reduces topographic ar

273 in derivatives (2H-TPCN) with Co atoms in an ultrahigh vacuum environment.

274 ponents self-assembly on solid surface in an ultrahigh vacuum environment.

275 he PdO(101) surface as determined from model ultrahigh vacuum experiments and theoretical calculation

276 Annealing in ultrahigh vacuum revealed a thermal stability limit of a

277 t preparation by infrared laser pumping, and ultrahigh vacuum surface analysis techniques make it pos

278 While ultrahigh vacuum surface science techniques have provide

279 Ultrahigh vacuum tip-enhanced Raman spectroscopy (UHV-TE

280 us exposure of Cot molecules and Eu vapor in ultrahigh vacuum to an inert substrate, such as graphene

281 ructures have been investigated in real-time ultrahigh vacuum transmission electron microscopy (UHV-T

282 clusters are fairly stable upon annealing in ultrahigh vacuum up to 600 K, increasing the temperature

283 roximately 1 muC.cm(-2), and is preserved in ultrahigh vacuum, but disappears upon heating to 100 deg

284 111) homoepitaxial growth and ion erosion in ultrahigh vacuum.

285 tless X-ray photoelectron spectroscopy under ultrahigh vacuum.

286 njugated covalent networks on surfaces under ultrahigh vacuum.

287 n etching of epitaxial graphene/SiC(0001) in ultrahigh vacuum.

288 ion at the nano/atomic scale from ambient to ultrahigh-vacuum and electrochemical environments.

289 e interferometer near a spherical mass in an ultrahigh-vacuum chamber, we reduced the screening mecha

290 t is, deep within water's "no man's land" in ultrahigh-vacuum conditions.

291 s (i.e., borophene) on silver surfaces under ultrahigh-vacuum conditions.

292 ligomers directly on a Ag(111) support under ultrahigh-vacuum conditions.

293 work on size-selected supported clusters in ultrahigh-vacuum environments and under realistic reacti

294 yer friction for insulating BNNTs results in ultrahigh viscous-like dissipation that is proportional

295 Here, we demonstrate ultrahigh volumetric capacitance of 521 F cm(-3) in aque

296 This results in hybrid electrodes with ultrahigh volumetric capacitance of over 1,100 F/cm(3).

297 e surface polarity is quantified both by its ultrahigh water vapor uptake of 14.3 mmol g(-1) at low r

298 unction range, but hole-doped materials with ultrahigh work functions and, especially, electron-doped

299 tudy expands the scope of MOF materials with ultrahigh working capacity to include linkers having the

300 tra-large linear elastic strain of 4% and an ultrahigh yield strength of 1.8 GPa.