ライフサイエンスコーパス: exfoliate

1 showed that the reduced graphene was highly exfoliated.

2 ite into graphite nanoblocks, which are then exfoliated.

3 Our results suggest that chemically exfoliated 1T-MoS2/Si heterostructures are promising ear

4 Here we exfoliate 2D materials directly in pure water without us

5 vent degradation on the properties of liquid-exfoliated 2D materials.

6 frequency nanomechanical resonators based on exfoliated 2D molybdenum disulfide (MoS2) structures, an

7 er uneventful implant placement, one implant exfoliated 3 weeks postoperatively.

8 Here we exfoliate a hydrazone-linked covalent organic framework

9 Given that neoplasms exfoliate abundantly into the lumen and that DNA recover

10 One novel step of the exfoliated accompanying carboxylated graphene sheet from

11 RTEM imaging shows that the SWNT bundles are exfoliated after functionalization.

12 Besides serving as an effective exfoliating agent, BSA can also function as a strong sta

13 tients treated with calcium phosphate cement exfoliated all or most of the implant through the gingiv

14 onse to infection, superficial bladder cells exfoliate and are removed with the flow of urine.

15 In order to exfoliate and disperse the materials in water, we elevat

16 simple, one-step mechano-chemical process to exfoliate and functionalize h-BN into highly water-dispe

17 ked by weak van der Waals forces that can be exfoliated and combined together to create novel highly

18 Single-walled carbon nanotubes (SWNTs) are exfoliated and functionalized into small bundles and ind

19 Single walled carbon nanotubes (SWNTs) are exfoliated and functionalized predominantly as individua

20 studies to date have been largely limited to exfoliated and restacked flakes, and the controlled grow

21 alf-maximum of 48 meV, comparable to that of exfoliated and suspended monolayer crystals.

22 BP nanosheets were mechanically exfoliated and used as the sensing/conducting channel in

23 he COF powder in several laboratory solvents exfoliates and disperses thin COF-43 samples, which main

24 It can also be exfoliated, and layers can be incorporated in a polymer

25 roepithelium, but it occasionally adhered to exfoliated areas.

26 Circulating tumor cells (CTCs) are exfoliated at various stages of cancer, and could provid

27 rted the basal-plane thermal conductivity in exfoliated bilayer hexagonal boron nitride h-BN that was

28 Exfoliated black phosphorus (BP)-a layered two-dimension

29 he oxidation and passivation of mechanically exfoliated black phosphorus (BP).

30 Here, we spatially Raman map exfoliated black phosphorus using confocal fast-scanning

31 y the speciation analysis in microsamples of exfoliated bladder epithelial cells isolated from human

32 This method can be applied to exfoliate BN, MoS2 and a range of other layered crystals

33 The resulting hybrids were dispersed and exfoliated both in water and organic solvents in the pre

34 ation suppresses the chemical degradation of exfoliated BP even after three weeks of ambient exposure

35 l conductivity for three crystalline axes of exfoliated BP is measured by time-domain thermo-reflecta

36 We demonstrate that liquid-exfoliated BP nanosheets are potentially useful in a ran

37 hway controllably modifies the properties of exfoliated BP, and thus improves its prospects for nanoe

38 uent and alters the electronic properties of exfoliated BP, ultimately yielding a strong, tunable p-t

39 ple (n = 65,755) and a blood (n = 56,832) or exfoliated buccal cell (n = 8,934) sample.

40 We determined specific mRNA levels in exfoliated buccal cells collected by cytologic brush, us

41 In a pilot study, metabolic activity of exfoliated buccal cells was verified by 3-[4,5-dimethylt

42 human tissue types (peripheral blood cells, exfoliated buccal cells, paired nontumor-tumor lung tiss

43 Exfoliated buccal epithelial cells might provide a prote

44 The latter can be exfoliated by Li-ion intercalation and sonication to obt

45 ML-MFI was first exfoliated by melt compounding and then detemplated by t

46 sonication, multilayer graphene sheets were exfoliated by NaC, leading to better dispersion.

47 on g-C3N4, followed by electron transfer to exfoliated carbon nitride containing photocatalytic chai

48 TA spectroscopy indicates that exfoliated carbon nitride quenches photogenerated electr

49 Exfoliated carbon nitride, which liberates only trace hy

50 k g-C3N4 with 10% mass loading of chemically exfoliated carbon nitride.

51 The number of exfoliated cell layers evident in sections was increased

52 ies to resected bladder tumors (n = 128) and exfoliated cell samples (bladder washes and voided urine

53 s, from Tampa, Florida, who provided genital exfoliated cell specimens at semiannual visits during a

54 These analyses revealed that the exfoliated cell transcriptome closely mirrored the trans

55 red HPV DNA-testing results from 146 matched exfoliated-cell and formalin-fixed-tissue specimens coll

56 ing evidence that Mullerian duct cancers may exfoliate cells.

57 xed via the same conditions and protocols as exfoliated cells (Part 1) yield nearly identical results

58 Exfoliated cells adhered to Schirmer test strips were co

59 y necessary to evaluate the effects on fixed exfoliated cells but also fixed cultured cells because a

60 n papillomavirus (HPV) detection in cervical exfoliated cells collected as dry swab samples.

61 Immunohistochemical staining of urinary exfoliated cells for SV40T improved sensitivity to 85.7%

62 Specifically, we performed RNA-Seq on exfoliated cells found in feces and compared these data

63 Exfoliated cells from the anal canal of 902 MSW in Brazi

64 investigated the utility of using mRNA from exfoliated cells in stool as a means to surveil the dist

65 amous mucosa, the detection of telomerase in exfoliated cells of the cervical smear may have specific

66 cancer cells by morphological examination of exfoliated cells or biopsy material by a pathologist.

67 gene promoter methylation in sputum-derived exfoliated cells predicts early lung cancer.

68 ons resolved multiple infections detected in exfoliated cells to a single HPV type in only 46.9% of c

69 tection of HPV types, DNA purified from oral exfoliated cells was evaluated by polymerase chain react

70 Genital exfoliated cells were collected and genotyped for 36 HPV

71 Oral and genital swab exfoliated cells were collected simultaneously from 2566

72 fic IgE in serum, numbers of eosinophils and exfoliated cells within lavage, and elevated CD25 expres

73 methylation of gene promoters is present in exfoliated cells within sputum prior to lung cancer diag

74 for analysis, but DNA isolated from lysed or exfoliated cells within the cyst can be analysed for gen

75 y cells and urinary SV40T immunochemistry of exfoliated cells, to screen for BKVAN, (defined by refer

76 lts to findings in Part 1 of this series for exfoliated cells, where the exposure time in fixative an

77 ween methylation in tumors and corresponding exfoliated cells.

78 We concluded that exfoliated cervical cells could be collected as dry swab

79 ier-transform IR (FT-IR) spectra of pelleted exfoliated cervical cells from patients with cervical ca

80 troduction of liquid Pap smear methods using exfoliated cervical cells presents an opportunity to scr

81 Exfoliated cervicovaginal cells from 19 of 54 animals te

82 These exfoliated CONs have graphene-like layered morphology (d

83 linker could be the solution to produce self-exfoliated CONs without external stimuli.

84 : (1) Pseudomonas aeruginosa (PA) binding to exfoliated corneal surface cells; (2) central epithelial

85 nodetector exploiting a 10 nm thick flake of exfoliated crystalline black phosphorus as an active cha

86 scence emission are reported in mechanically exfoliated crystals of gamma-rhombohedral semiconducting

87 remarkable electrochemical properties of the exfoliated crystals, showing promise for a range of appl

88 Exfoliated cytologic specimens from mouth (buccal) epith

89 Stem cells from human exfoliated deciduous teeth (SHED) are a unique postnatal

90 Stem cells from exfoliated deciduous teeth (SHED) exposed to endothelial

91 Stem cells from exfoliated deciduous teeth (SHED) possess multipotent di

92 tal pulp stem cells (DPSCs), stem cells from exfoliated deciduous teeth (SHED), periodontal ligament

93 ultipotent stem cells [stem cells from human exfoliated deciduous teeth (SHED)].

94 al papilla), and SHED (stem cells from human-exfoliated deciduous teeth) cells produce a more highly

95 ensities across thin sections of enamel from exfoliated deciduous teeth.

96 We compared the photoresponse of the as-exfoliated device with annealed device both in air or am

97 In this study, the first example of in situ exfoliated, edge-rich, oxygen-functionalized graphene on

98 CRM revealed an exfoliated epithelium 4 h and 16 h after N-9 treatment,

99 a systematic infrared study of mechanically exfoliated few-layer black phosphorus, with thickness ra

100 rticles (AuNPs) took place on the surface of exfoliated few-layer graphene sheets.

101 s occupying the vacancies in the hydrophilic exfoliated flakes and subsequently bonding with water, n

102 terization show that the quality of the gold-exfoliated flakes is similar to that of tape-exfoliated

103 ne on a variety of substrates, as well as on exfoliated flakes of hexagonal boron nitride.

104 the Van der Waals interface between freshly exfoliated flakes of the high-T c superconductor, Bi-221

105 spectroscopy and Raman spectroscopy show the exfoliated flakes to be unoxidized and free of basal-pla

106 studies of the growth of GaN on mechanically-exfoliated flakes WS2 and MoS2 by metalorganic vapour ph

107 exfoliated flakes is similar to that of tape-exfoliated flakes.

108 ers, when selectively oxidized, unzipped and exfoliated, form graphene wings strongly attached to the

109 , and vibrational modes of few-layered PdSe2 exfoliated from bulk crystals, a pentagonal 2D layered n

110 t spin potentiometric measurements in flakes exfoliated from bulk insulating Bi2Te2Se crystals, using

111 iewed cytology specimens demonstrating cells exfoliated from cancer precursor lesions.

112 Using a PCM with a layered crystalline film exfoliated from In2 Se3 crystals on a graphene bottom el

113 ess the presence of metal particles in cells exfoliated from peri-implant oral mucosa around titanium

114 alence of gene promoter methylation in cells exfoliated from the aerodigestive tract of current and f

115 d with reduced promoter methylation in cells exfoliated from the airway epithelium of smokers.

116 ons, 2D-nanosheets of boehmite (gamma-AlOOH) exfoliated from the bulk and then rapidly dissolved, whe

117 stic method that involves the study of cells exfoliated from the oral mucosa.

118 y be used to detect metal particles in cells exfoliated from the peri-implant mucosa.

119 varian carcinoma, tumor cells are frequently exfoliated from the surface of the ovary, thereby losing

120 nder white light illumination) comparable to exfoliated GaSe nanosheets.

121 the pulsed laser ablation (PLA) technique to exfoliate GQDs from multi-wall carbon nanotube (MWCNTs),

122 Electrochemically exfoliated graphene (EEG) is a new generation of high-qu

123 on multiwalled carbon nanotubes (MWCNTs) and exfoliated graphene (GN) in conjunction with determining

124 exible supercapacitors, in which the in-situ exfoliated graphene act as active materials and conducti

125 xemplified by the electrochemical imaging of exfoliated graphene and graphite samples.

126 rious domain-wall structures in mechanically exfoliated graphene bilayers, including network-forming

127 octylbenzene molecules, the concentration of exfoliated graphene can be enhanced by 230% as a result

128 describe herein the first example of highly exfoliated graphene covalently linked to electron accept

129 ry nanosheets supported on electrochemically exfoliated graphene electrodes exhibit excellent catalyt

130 omic force microscopy (AFM) and mechanically exfoliated graphene field effect transistors (GFETs) to

131 e frequency dependence of the reflectance of exfoliated graphene flakes, including monolayer, bilayer

132 Nx |P-complex-doped carbon grown on flexible exfoliated graphene foil is designed and constructed for

133 solution phase approach was used to prepare exfoliated graphene oxide (GO), followed by electrochemi

134 sms have been developed using nanomaterials; Exfoliated Graphene Oxide and Gold Nano-Urchins for modi

135 An exfoliated graphene oxide sheet with carboxyl-long-chain

136 e mechanism of stabilization of liquid-phase-exfoliated graphene sheets in N-methylpyrrolidone (NMP),

137 ovalently to the graphene sheet (Gs) to form exfoliated graphene with grafted 1-one-butyric acid (Gs-

138 erconnect individual CFs through the in-situ exfoliated graphene with high surface area by the electr

139 films was equivalent to that of mechanically exfoliated graphene, in spite of being grown in the pres

140 ons produced from lithographically patterned exfoliated graphene, the charge carriers travel only abo

141 ransistors (SGFETs) fabricated with solution exfoliated graphene.

142 nsity aligned nanoporous activated microwave exfoliated graphite oxide (aMEGO) ionic actuator is stud

143 n high density aligned nano-porous microwave exfoliated graphite oxide have been studied.

144 (GNs) was prepared via in situ reduction of exfoliated graphite oxide in the presence of cationic po

145 Using chemical activation of exfoliated graphite oxide, we synthesized a porous carbo

146 ees C, this behemoth of a molecular compound exfoliates graphite to graphene in water under mild cond

147 small sizes because it is produced mostly by exfoliating graphite.

148 3D architectures constructed of graphene and exfoliated graphitic carbon nitride results in hybrids w

149 We integrated four t-BuLi exfoliated, group 6 TMD materials (MoS2, MoSe2, WS2, and

150 ticeably decreases the pi-pi stacking of the exfoliated Gs during the drying process.

151 s this issue, we have synthesized three self-exfoliated guanidinium halide based ionic covalent organ

152 ( approximately 13,000 (2) V(-1) s(-1)) with exfoliated h-BN.

153 and has electrical properties comparable to exfoliated hBN.

154 ies (up to ~50 nm) from restacking of liquid exfoliated hexagonal boron nitride nanosheets (BNNSs) is

155 The covalent chemical functionalization of exfoliated hexagonal boron-nitride nanosheets (BNNSs) is

156 In this study we found that exfoliated human deciduous tooth contains multipotent st

157 Here we show that a naturally exfoliated human organ contains a population of stem cel

158 The intercalated graphites readily exfoliate in dimethylformamide to give suspensions of cr

159 tained with the cleaner HOPG surface that is exfoliated in humidified air and covered with a nanomete

160 y these molecular alterations in tumor cells exfoliated in the urine, whereas prognostic tests have t

161 r identification of genetic changes in cells exfoliating in the bronchus.

162 iquids typically requires ultrasonication to exfoliate individuals CNTs from bundles.

163 Exfoliating infected bladder epithelium is a powerful ho

164 ere we report on the interface properties of exfoliated InSe on a sapphire substrate.

165 Through the investigation of the exfoliated intermediates combined with a theoretical cal

166 ons of these crystals allows them to readily exfoliate into fibers.

167 The etched h-BN was further purified and exfoliated into nanosheets that inherited the hole/edge

168 rocarbon two-dimensional polymer that can be exfoliated into single sheets, and its characterization

169 Assay of altered DNA exfoliated into stool represents an intriguing approach

170 y layers of a 2D electron gas (2DEG), can be exfoliated into two-dimensional (2D) nanosheets using li

171 Here, we show that graphite spontaneously exfoliates into single-layer graphene in chlorosulphonic

172 (natural or synthetic) to graphite oxide and exfoliate it to graphene oxide with consequent chemical

173 Highly exfoliated layers of WS2 mixed with Nafion solution, sol

174 conductivity, as well as the ability of the exfoliated layers to dynamically expand and intercalate

175 a rapid densification and restacking of the exfoliated layers via the spark-plasma-sintering techniq

176 to have a graphene-like layered morphology (exfoliated layers), unlike the parent COFs synthesized s

177 This work provides a novel strategy to exfoliate LDHs and to produce multivacancies simultaneou

178 The ability to exfoliate LDHs into ultrathin nanosheets enables a range

179 surface in which superficial cell layers are exfoliated, leaving breaches in the protective MUC16 gly

180 ndamental investigations can be performed on exfoliated material, large-area and high quality materia

181 es of these heterostructures with respect to exfoliated materials.

182 odes based on heterostructures of chemically exfoliated metallic 1T-MoS2 and planar p-type Si for sol

183 Chemically exfoliated, metallic MoS2 nanosheets are functionalized

184 zeolite with MFI structure reveals that the exfoliated MFI nanosheet is 1.5 unit cells (3.0 nm) thic

185 -conjugated COFs, as crystalline powders and exfoliated micron-size sheets.

186 bility and current density than mechanically exfoliated ML flakes due to the reduced contact resistan

187 ication and characterization of high-quality exfoliated mono- and bilayer graphene devices on single-

188 Exfoliated monolayer graphene flakes were embedded in a

189 le alignment and atomic-scale arrangement of exfoliated monolayer graphene is first discovered and su

190 ple domains and their topological defects in exfoliated monolayer graphenes on SiO2/Si substrates usi

191 Unlike chemically-exfoliated monolayer nanoparticles, the lithographically

192 astable and temperature-sensitive chemically exfoliated MoS2 (ce-MoS2 ) can be made into electrochemi

193 uminescence (PL) of many-layer, mechanically exfoliated MoS2 flakes by up to 20 times, without reduci

194 ear-infrared emission peak around 0.75 eV in exfoliated MoS2 flakes.

195 Here, we obtain-by folding exfoliated MoS2 monolayers-MoS2 bilayers with different

196 Here, we report the dispersion of chemically exfoliated MoS2 sheets in high boiling point organic sol

197 demonstrate ligand conjugation of chemically exfoliated MoS2 using thiol chemistry.

198 ching behavior of thin films of liquid phase exfoliated MoS2, when excited with a continuous laser of

199 Thicker sheets exfoliate much faster than trilayer and bilayer sheets.

200 lectromechanical actuation properties of the exfoliated nanocomposites.

201 Here, we show that chemically exfoliated nanosheets of MoS2 containing a high concentr

202 ctrode films formed by restacking chemically exfoliated nanosheets of two-dimensional metallic molybd

203 repared from existing MFI materials (such as exfoliated nanosheets or nanocrystals).

204 ials and then restacking the two-dimensional exfoliated nanosheets to form electrodes with enhanced e

205 els can be fabricated from pristine graphene exfoliated nanosheets using freeze gelation with nonaque

206 ned metallic 1T (octahedral) phase in the as-exfoliated nanosheets.

207 erimentally that kappa of monolayer graphene exfoliated on a silicon dioxide support is still as high

208 Recently, friction measurements on graphene exfoliated on a silicon oxide surface revealed an anomal

209 bium diselenide, and hexagonal boron nitride exfoliated onto a weakly adherent substrate (silicon oxi

210 effect transistors based on few-layered WSe2 exfoliated onto SiO2.

211 er between two layers of either mechanically exfoliated or chemical vapour deposition-grown graphene.

212 emical vapour deposited graphene rather than exfoliated or epitaxial graphene is used, because layer

213 cluding fixed and unfixed methods applied to exfoliated oral (buccal) mucosa cells.

214 t phenotype of the primary ovarian tumor and exfoliated ovarian carcinoma cells in the ascites fluid.

215 FI, followed by centrifugation to remove non-exfoliated particles.

216 ndomized trial of male circumcision provided exfoliated penile cells from 2 anatomical sites (glans/c

217 s following solution processing, the aqueous-exfoliated phosphorene flakes are used in field-effect t

218 oxygen plasma dry etching to thin down thick-exfoliated phosphorene flakes, layer by layer with atomi

219 ntrated, and comparable to micromechanically exfoliated phosphorene in structure and chemistry.

220 PTFE membranes exfoliated prematurely, with an average retention time o

221 Exfoliated primary teeth (unmatched to genotype) were av

222 Exfoliated primary teeth from an affected family member

223 ammonia) of graphite gives a highly reduced, exfoliated product that is free of lithium.

224 xuses and enters the thoracic cavity through exfoliated regions of the pleural mesothelium.

225 rfaces of bladder umbrella cells and not the exfoliated regions.

226 nity and comparable mobility to mechanically exfoliated samples, as confirmed by both atomic resoluti

227 high electrical performance rivaling that of exfoliated samples, which we demonstrate using optimized

228 ctrical properties comparable or superior to exfoliated samples.

229 Ultrasonically exfoliated sheets are in pure 2H phase, and oxidize much

230 typically involves heating of the chemically exfoliated sheets at elevated temperatures.

231 anochannels are readily formed by restacking exfoliated sheets of layered materials, such as graphene

232 und in graphite, to a percolating network of exfoliated sheets, defining hollow spheres.

233 Here, we report the exfoliated single layer WS2-intelayer based spin valve e

234 s) could degrade its performance relative to exfoliated, single-crystal graphene.

235 Thus, exfoliated teeth may be an unexpected unique resource fo

236 h-BN and the cryogenic L-N2 gasification to exfoliate the h-BN.

237 entrated sulfuric acid and (2) oxidizing and exfoliating the stage 1 GIC in an aqueous solution of 0.

238 d multilayer graphene sheets by mechanically exfoliating thin sheets from graphite over trenches in s

239 desired functionality, it would also help to exfoliate to CONs as well.

240 rge quantity, unfortunately does not readily exfoliate to yield individual graphene sheets.

241 ilized using p-PNCPA transitions from a more exfoliated to a more bundled state as the aqueous suspen

242 of stacks of layers that can be swollen and exfoliated to produce catalytically active materials.

243 ins (SEs), including SEA, SEC2, and SEE, and exfoliating toxin, known to be superantigens, were teste

244 alitatively from those reported recently for exfoliated transition metal dichalcogenides and indicate

245 ng the various layered compounds that can be exfoliated, transition-metal dichalcogenides exhibit int

246 y tumor into nearby organs and the spread of exfoliated tumor cells throughout the peritoneum, initia

247 Exfoliated two-dimensional (2D) sheets can readily stack

248 d palladium nanoparticles from solution onto exfoliated two-dimensional (2D) Ti3C2 titanium carbide (

249 Compared to pristine CoFe LDHs, the as-exfoliated ultrathin CoFe LDHs nanosheets exhibit excell

250 effectively produce multivacancies in the as-exfoliated ultrathin LDHs nanosheets.

251 crystals at quantitative conversion are wet-exfoliated under mild conditions and afford countless fe

252 OFF colonized the lamina propria underlying exfoliated uroepithelium, while MR/P ON colonized the lu

253 diabetes and concentrations of As species in exfoliated urothelial cells (EUC) as an alternative to t

254 report to show that BZ forms DNA adducts in exfoliated urothelial cells of exposed humans and that t

255 optical and confocal microscopy looking for exfoliated urothelial cells with IB.

256 te the presence of BZ-related DNA adducts in exfoliated urothelial cells, the excretion pattern of BZ

257 erials based on nanoscale components such as exfoliated vermiculite or mica platelets have been inten

258 om metallic nanosheets of 1T-MoS2 chemically exfoliated via lithium intercalation from semiconducting

259 ilm of one or two monolayers grown on SiC is exfoliated via the stress induced with a Ni film and tra

260 report monolayered nanosheets of chemically exfoliated WS(2) as efficient catalysts for hydrogen evo

261 Our results suggest that chemically exfoliated WS(2) nanosheets are interesting catalysts fo

262 Here, we demonstrate the first liquid phase exfoliated WS2-Nafion nanocomposite based electro-mechan

263 Some two-dimensional (2D) exfoliated zeolites are single- or near single-unit cell

264 We report here the results in exfoliated ZrTe5 thin flakes from the studies of aberrat