ライフサイエンスコーパス: crystalline

1 -ray analyses have shown that the sheets are crystalline.

2 -carbo-benzenes were also found to be highly crystalline.

3 2)H solid-state NMR spectra show that liquid crystalline 1,2-dimyristoyl-sn-glycero-3-phosphocholine

4 ions, such as solution-processable molecular crystalline 2D membranes for molecular separations.

5 A room-temperature-stable crystalline 2H-phosphirene (1) was prepared by treatment

6 can be reversibly stored in an electrode of crystalline 3,4,9,10-perylenetetracarboxylic dianhydride

7 We report that crystalline 3,4,9,10-perylenetetracarboxylic dianhydride

8 Both crystalline Ag2S and amorphous Ag2S and/or Ag-thiol were

9 s that the transition state from solution to crystalline aggregates is enthalpically unfavorable and

10 chemical etching is used to slice off single-crystalline AlGaN/GaN layers while preserving their micr

11 nductivities of solution-synthesized, single-crystalline all-inorganic halide perovskite nanowires co

12 R) spectroscopic study of the chain and ring crystalline allotropes of Se as well as of amorphous Se

13 It is found that, compared with crystalline alloys, MGs have some specific structural re

14 TDPs form non-crystalline amorphous solids (vitrify) upon desiccation,

15 Beyond a threshold dose, a crystalline-amorphous transition was observed.

16 m a mixed state to a coexistence of a liquid-crystalline and a gel, or a liquid-ordered and a liquid-

17 nts silicon and germanium have complementary crystalline and amorphous forms consisting of purely sp

18 ire can be tuned to a desired value (between crystalline and amorphous limits) with high spatial reso

19 pace-resolved structural information on both crystalline and amorphous phases that are present during

20 With the protection of crystalline and dense LiF coating, LixSi can be processe

21 ed is general and can also be applied to non-crystalline and extended crystalline samples.

22 In the gel phase, the nanosheets are crystalline and form honeycomb lattices.

23 The method was applied to crystalline and liquid aluminum and uranium at different

24 ayed plasticity in its capacity to bind both crystalline and soluble carbohydrates under a wide range

25 lids precipitated within the SDF groups were crystalline and that there was a positive correlation be

26 e route toward the rapid synthesis of highly crystalline and ultraporous COFs in seconds using a nove

27 thermal stability of semicrystalline, liquid-crystalline, and glassy organic semiconductor thin films

28 ly difficult because of their insoluble, non-crystalline, and polymorphic nature.

29 ic frameworks (MOFs) are a class of modular, crystalline, and porous materials that hold promise for

30 e of a hexagonal chiral helimagnet with high crystalline anisotropy, and has generated growing intere

31 s with an extensive drusen area, drusen with crystalline appearance, and drusen nasal to the optic di

32 intermolecular interaction determined by the crystalline arrangement and is in stark contrast with pr

33 The crystalline arrangement of the microparticles was of a V

34 The 3C(L127P) mutant produced crystalline arrays of FMDV-like particles in mammalian a

35 reciprocal space maps identify the in-plane crystalline axes of the V2O3; atomic force and scanning

36 novel materials presented herein its liquid-crystalline behaviour is rather different, indicating an

37 ignificantly reduce the rate of P. mirabilis crystalline biofilm formation on catheters, and increase

38 Proteus mirabilis forms extensive crystalline biofilms on indwelling urethral catheters th

39 as important for development of P. mirabilis crystalline biofilms, highlighting the potential for eff

40 Here the authors show the self-assembly of crystalline block copolymers into size-specific cylindri

41 ynthesize high quality, 2-dimensional single crystalline boron nitride nanosheets (BNNSs) at a low su

42 s persist in these materials, the interlayer crystalline boundaries and intralayer biphase interfaces

43 regimes reveals which samples have a single-crystalline bulk structure through the entire sample vol

44 le the surface layers of Ibeta cellulose are crystalline but with different structural and spectrosco

45 Herein, we focus on crystalline calcium-silicate-hydrates (C-S-H) as a model

46 CBM3, which binds the hydrophobic surface of crystalline cellulose, was infrequent until the wall was

47 ested have great difficulty degrading highly crystalline cellulosic substrates.

48 the cell and no loss of their elemental and crystalline characteristics.

49 AnCDA acts on chito-oligomers, crystalline chitin, chitosan, and acetylxylan, but not o

50 e accumulation and unique development of red crystalline chromoplasts in Cara Cara are discussed.

51 e accumulation and induced occurrence of red crystalline chromoplasts in cultured Newhall juice vesic

52 simulations how the formation of precritical crystalline clusters is connected to the kinetics of nuc

53 e presence of rudimentary ommatidial lenses, crystalline cones, and associated neural-like tissue wit

54 A highly crystalline copper(II) benzenehexathiolate coordination

55 ly the cellulose surface layers and the bulk crystalline core as well as the conformational differenc

56 en bonding networks of cellulose surface and crystalline core were also shown by the SFG signal.

57 d spectroscopic signatures compared with its crystalline core.

58 We synthesized a two-dimensional (2D) crystalline covalent organic framework (sp(2)c-COF) that

59 The cases of pest resistance to Bt crystalline (Cry) proteins produced by transgenic crops

60 smon polariton propagation distance based on crystalline crystal silver at low temperature.

61 After nanonization, native crystalline curcumin particles were converted into amorp

62 urcumin particles in water phase compared to crystalline curcumin particles.

63 known [2.2.2]diazabicyclic compounds or into crystalline derivatives suitable for X-ray analysis.

64 inima which are either amorphous (ageing) or crystalline (devitrification).

65 s, and shows incompressibility comparable to crystalline diamond.Diamond's properties are dictated by

66 e fluorescence intensity via 1) conventional crystalline DiI and 2) a novel DiI formulation with impr

67 and valley coherence as sensitive probes of crystalline disorder.

68 al density of thin and optically transparent crystalline DNA films formed through self assembly.

69 proteins called protamines mediate the near crystalline DNA packaging in most vertebrate sperm cells

70 of dense and compact FASnI3 film with large crystalline domain (>1 microm).

71 luble and unprocessable powders with typical crystalline domain sizes smaller than 50 nm.

72 ghly ordered superlattice films, with single crystalline domains of up to half a millimetre in two di

73 We show that crystalline doxorubicin dissolution can be described by

74 sion symmetry is naturally broken in several crystalline environments, such as at surfaces and interf

75 e(III) phase crystallinity, facilitating low-crystalline ferrihydrite in the absence of mineral sorbe

76 Using a PCM with a layered crystalline film exfoliated from In2 Se3 crystals on a g

77 e annealing of the films is shown to produce crystalline films of high chemical purity Li2S for the f

78 When molecular dimers, crystalline films or molecular aggregates absorb a photo

79 s (DPANs) has been described in rats through crystalline fluorescent DiI, while in the mouse, this te

80 Several common deliquescent crystalline food ingredients (including glucose and citr

81 e iron (oxyhydr)oxide, ferrihydrite, to more crystalline forms in the presence of the iron reducing b

82 s possess the ability to recognize different crystalline forms of cellulose and chitin over a wide ra

83 als, typically from less crystalline to more crystalline forms, affecting the biogeochemical cycling

84 further, systematic plastic response in the crystalline fraction, observable as a lattice misorienta

85 Crystalline frameworks composed of hexacoordinate silico

86 ously unknown, low-symmetry lyotropic liquid crystalline Frank-Kasper sigma phase.

87 ond.Diamond's properties are dictated by its crystalline, fully tetrahedrally bonded structure.

88 on of gold chloride occurs to produce highly crystalline G-Au nanocomposite.

89 capped with two guanine electron donors into crystalline G-quadruplex-based organic frameworks, where

90 ferent solid-state forms of indomethacin-the crystalline gamma and alpha forms, as well as the amorph

91 We validate the approach on crystalline GB1, with our experimental results in good a

92 on microscopy shows a high density of single-crystalline germanium nanostructures coherently embedded

93 and in situ TEM electrical testing on single-crystalline GeTe nanowires.

94 e in the presence of gamma-Al2O3, but either crystalline goethite or ferrihydrite when goethite was p

95 idized pyrite particles form an overlayer of crystalline goethite or lepidocrocite with porous struct

96 Goethite surfaces promoted the formation of crystalline goethite, while gamma-Al2O3 favored nano/sma

97 f a discrete number of gold atoms, forming a crystalline gold core.

98 n the distribution and interactions of their crystalline grains.

99 cing nickel layer is used to transfer single crystalline graphene grown on silicon carbide substrates

100 The crystalline growth and the local ferroelectric and piezo

101 n developing high-quality large-scale single-crystalline halide perovskite films requiring precise co

102 mistry can be precisely controlled in single-crystalline halide perovskite nanomaterials when combine

103 bly of guest-DNA conjugates with a specified crystalline hand.

104 ing density, molecular order, crystallinity, crystalline heterogeneity, gelatinization transition tem

105 Here, we probe the (1)(TT) state in crystalline hexacene using time-resolved photoemission a

106 For the first time, single-crystalline high-temperature VPE halide perovskite thin

107 anisation of the materials inside the liquid crystalline host.

108 hdNMR and partially randomly oriented (PRO) crystalline hydrogel samples.

109 manufacturing infrastructure for traditional crystalline inorganic semiconductor epifilms that does n

110 Topological crystalline insulators possess metallic surface states p

111 perties of the surface states in topological crystalline insulators remains a challenge.

112 a and applications predicted for topological crystalline insulators.Probing optical and transport pro

113 Identifying crystalline intermediates has implications for bulk-hete

114 encing the transformation rate of the poorly crystalline iron (oxyhydr)oxide, ferrihydrite, to more c

115 Here we present the synthesis of crystalline K2Pentacene and K2Picene by a solid-solid in

116 surface area are prepared by exfoliation of crystalline KxMnO2 and subsequent reassembly.

117 lectron-optical effects due to its honeycomb crystalline lattice.

118 , but the construction of objects, 2D and 3D crystalline lattices and devices is prominent among them

119 , we identify representative two-dimensional crystalline lattices as well as defects therein.

120 ands were detected by Northern blotting, and crystalline lattices of viral particles of approximately

121 hift of the temperature of the gel-to-liquid crystalline (Lbeta - Lalpha) phase transition, leading t

122 r bone; in another, total replacement of the crystalline lens by adipose tissue; and in a third, an a

123 The dislocation of the crystalline lens is a common finding in patients with Ma

124 rite in the absence of mineral sorbents, low-crystalline lepidocrocite in the presence of gamma-Al2O3

125 se films is markedly different from annealed crystalline Li2S, which is shown to be electrochemically

126 essfully transfer a centimeter-scaled single-crystalline LiFe5 O8 thin film on polyimide substrate.

127 Epitaxy-the growth of a crystalline material on a substrate-is crucial for the s

128 s work) remains the only example of a liquid-crystalline material to exhibit a phase transition from

129 a for virtually any stoichiometric inorganic crystalline material, reciprocating the available thermo

130 etwork of dislocation boundaries in deformed crystalline materials is unknown and critical for the re

131 trast, the unique prospects these porous and crystalline materials offer for application in electroni

132 Some nanoporous, crystalline materials possess dynamic constituents, for

133 ctural damage and performance degradation in crystalline materials served in nuclear plants.

134 xible metal-organic frameworks (MOFs)-porous crystalline materials that undergo a structural change u

135 scale lattice behaviour and strain fields in crystalline materials with a methodology that we call 3D

136 tions between macromolecules and surfaces of crystalline materials, macromolecule adsorption on diffe

137 nd critical for the resulting recrystallized crystalline materials.

138 y criterion can be directly applied to other crystalline materials.

139 the plasticity and mechanical properties of crystalline materials.

140 pplied to the self-assembly of protein-based crystalline materials.

141 iral molecular switch into an achiral liquid crystalline medium.

142 N-OMP/SiO2 nanocomposites, mesoporous SiO2 , crystalline mesoporous TiO2 , and TiPO, demonstrating it

143 ction techniques traditionally used to study crystalline metal oxide thin films.

144 by synchrotron X-ray diffraction analysis of crystalline microstructures, generated by heating and su

145 ffective approach for large-scale and highly crystalline molybdenum disulfide monolayers using a solu

146 Here we report that high-quality single-crystalline mono- and few-layer BN nanosheets are one of

147 ssing additives on the pathways and rates of crystalline morphology formation for spin-coated semicon

148 Here, single-crystalline MoS2 flakes are reported with regular trigon

149 cleic acids, deformable liposomes and liquid crystalline nanodispersions.

150 f grain boundaries between randomly oriented crystalline nanodomains.

151 Self-assembly via oriented attachment of crystalline nanoparticles is discussed as the most proba

152 110>, or <211> directions as faceted, single-crystalline nanowires.

153 The crystalline nature of cellulose microfibrils is one of t

154 valent chemistry is incorporated into liquid crystalline networks (LCNs) to facilitate spatiotemporal

155 at the HB enthalpy of the OHN LBHB formed in crystalline nicotinic acid is only 7.7+/-0.5 kcal mol(-1

156 amorphous oligodimethylsiloxane block and a crystalline oligo-l-lactic acid or oligomethylene block.

157 d by organic ligands do however exist in the crystalline or amorphous domain.

158 fixing enzyme Rubisco and is thought to be a crystalline or amorphous solid.

159 The development of distinct periodic crystalline or aperiodic quasicrystalline states depends

160 of oil to the lipid phase could disturb the crystalline order and form lattice defects.

161 hey result from the interplay of short-range crystalline order and kinematic constraints on the many-

162 idues predictably control both the assembled crystalline order and their accessible catalytic reperto

163 reversible amide bond formation that allows crystalline order to develop.

164 rts to realize long spin transport in single-crystalline organic semiconductors are discussed.

165 ion of structure order upon doping of highly crystalline organic semiconductors, which significantly

166 nm by micromechanical exfoliation, and their crystalline orientations are identified by polarized Ram

167 ng to the impurity rejection afforded by the crystalline oxadiazolium salts 3.

168 challenge to synthesize high-quality single-crystalline oxide thin film directly on flexible polymer

169 r single-crystal benzene monomer into single-crystalline packings of carbon nanothreads, a one-dimens

170 ow diverse molecular monomers to form single-crystalline packings of polymers, threads, and higher di

171 h transformation-the hydrogenation of single-crystalline palladium nanocubes from 15 to 80 nm-to bett

172 n is added to a sequence that directly forms crystalline particles, crystallization instead follows a

173 e the types and magnitudes of forces between crystalline particles.

174 tterns (DAMPs), including those triggered by crystalline particulates or degradation products of extr

175 alignment within the culture showed a liquid-crystalline pattern containing interspersed topological

176 Covalent organic frameworks (COFs) are crystalline, permanently porous, two-dimensional or thre

177 hanges in the transition temperature and the crystalline phase distribution inside the microstructure

178 supramolecular reconfiguration to the stable crystalline phase nanostructures enhances photosensitiza

179 Here we report that a high-pressure crystalline phase of bismuth can melt into a metastable

180 Such crystalline phase originates from THF, DCM, or the irrev

181 origin of size reduction effect on the MnAs crystalline phase transition.

182 The in situ XRD showed that the new crystalline phase was still a monoclinic structure but w

183 Specific Raman signatures in the crystalline phase were found and attributed to the coexi

184 In the stable crystalline phase, the molecules end up organized in a s

185 ophobic interactions, indicative of a liquid crystalline phase.

186 the metallic glass and its high temperature crystalline phase.

187 for the interface fabrication with distinct crystalline phases but also shows how polar and non-pola

188 transferrable ion species and of accessible crystalline phases could in principle greatly enrich mat

189 The liquid crystalline phases of matter each possess distinct types

190 Seven known crystalline phases were observed to form on warming in t

191 often involves the integration of different crystalline phases.

192 ths greater than 10-15 kilometres, the intra-crystalline plasticity of quartz and feldspar relieves s

193 xylthiophene-2,5-diyl), P3HT, and the liquid-crystalline poly(2,5-bis (3-tetradecylthiophen-2-yl)thie

194 gainst dissolution into the LCLC by a liquid crystalline polymer layer.

195 Low catalyst loadings provide crystalline polymer networks in nearly quantitative yiel

196 al covalent organic frameworks (2D COFs) are crystalline polymer networks with enhanced stability com

197 onsive helices based on hydrogels and liquid crystalline polymers have been reported, they have so fa

198 that precritical fluctuations connote which crystalline polymorph will form.

199 ity of titanium ions, particularly to afford crystalline porous coordination polymers.

200 -spin-based qubits within the framework of a crystalline porous material is a promising approach to c

201 Metal-organic frameworks (MOFs) are crystalline porous materials with designable topology, p

202 ecules are linked by covalent bonds to yield crystalline, porous COFs from light elements (boron, car

203 two-dimensional (2D) pi-conjugated COFs, as crystalline powders and exfoliated micron-size sheets.

204 tals that exhibit three-dimensional photonic-crystalline properties.

205 tal-organic frameworks (MOFs) to design a 3D crystalline protein lattice in which pseudospherical fer

206 ering the packing when analyzing dynamics of crystalline proteins.X-ray crystallography is the main m

207 ZT by laser annealing, and optimum volume of crystalline PZT are found to be the key factors in reali

208 structural analyses of FeRh films of varying crystalline quality and chemical order, we relate the di

209 h of Co25Fe75 epitaxial films with excellent crystalline quality evident by the clear Laue oscillatio

210 ng harmonics generated from fused silica and crystalline quartz, which contain the same atomic consti

211 Thermoelectric generator composed of crystalline radical ion salts: The unipolar charge trans

212 modules (CBMs) that specifically bind to the crystalline regions of cellulose, thus promoting enzyme

213 Here, the thermal conductivity of single-crystalline ReS2 in a distorted 1T phase is determined a

214 This study was inspired by the propensity of crystalline (-)-riboflavin in the eyes of vertebrates to

215 s relevant for a nuclear waste repository in crystalline rock.

216 As such, we provide evidence in crystalline rubrene for a singlet fission step that, unt

217 as a viable singlet fission material, single-crystalline rubrene is selected because its energetics a

218 The preparation of shelf-stable crystalline salts of tert-butylmethylphosphinous acid bo

219 SAXS measurements on bulk crystalline samples reveal that some ferritin-MOFs can a

220 o be applied to non-crystalline and extended crystalline samples.

221 nhomogeneous strain field within each single crystalline segment consistent with the disclination mod

222 Moreover, the five crystalline segments are found to be strained differentl

223 itinerant conductivity is typically found in crystalline semiconductors and metals.

224 materials differs fundamentally from that in crystalline semiconductors owing to the lack of long-ran

225 LeBail fitting of the crystalline series shows that the crystallographic a-axi

226 The crystalline shell of granulovirus OBs consists, on avera

227 arable performance to commercially available crystalline Si and III-V photodetectors.

228 est reported performance characteristics for crystalline Si photoanodes.

229 processes, however, remain unknown even for crystalline Si.

230 a graphite substrate to form a dense film of crystalline Si.

231 Inhalation exposure to airborne respirable crystalline silica (RCS) poses major health risks in man

232 The association between low-level crystalline silica (silica) exposure and mortality risk

233 or in-field or near real-time measurement of crystalline silica aerosol.

234 s general strategy to achieve this including crystalline silicon (c-Si) solar cell.

235 system was manufactured on a 30-microm-thick crystalline silicon chip by chemical etching process, wh

236 Solid substrates (glass and crystalline silicon) covalently functionalized with a re

237 mple origami approach for fabricating single-crystalline silicon-based focal plane arrays and artific

238 ders of magnitude higher than that of single crystalline silicon.

239 hese features are responsible for the liquid crystalline smectic-like behaviour of such systems at in

240 yse the train of HH waveforms generated in a crystalline solid by consecutive half cycles of the same

241 One important question is whether a crystalline solid may directly melt into a sustainable m

242 By thermal heating, a crystalline solid will always melt into a liquid above t

243 Defect-based color centers in wide-bandgap crystalline solids are actively being explored for quant

244 When deformed beyond their elastic limits, crystalline solids flow plastically via particle rearran

245 his study suggest that micro- and mesoporous crystalline solids maybe viable candidates for the treat

246 The formation of stable radiation damage in crystalline solids often proceeds via complex dynamic an

247 alent organic frameworks often pi stack into crystalline solids that allow precise spatial positionin

248 transport is essential to explore and design crystalline solids with ultralow thermal conductivity fo

249 Contrary to crystalline solids, amorphous solids always become softe

250 form transmission pump-probe spectroscopy in crystalline solids, based on the use nanocrystalline sus

251 lds, its observation is typically limited to crystalline solids.

252 So far these studies are confined to crystalline solids; therefore, decoupling the respective

253 High-harmonic (HH) generation in crystalline solids1-6 marks an exciting development, wit

254 in the solid-state is the recently developed Crystalline Sponge Method (CSM) by Makoto Fujita.

255 Herein, single-crystalline SrTaO2 N nanoplates and polyhedra are achiev

256 urified SisPINA forms hexameric rings in the crystalline state and in solution, similar to the HJ mig

257 ed by utilizing the tunable chemistry of the crystalline state are also highlighted.

258 ll esters, prevailing in a presumably liquid-crystalline state within the nano-scaled chromoplast tub

259 ly by a photodecarbonylation reaction in the crystalline state, we were able to detect the intermedia

260 between an amorphous aggregate state and the crystalline state.

261 h can then transition to the two-dimensional crystalline state.

262 mally-induced cycling, between amorphous and crystalline states, of large-area phase-change devices,

263 supramolecular C-H...F interactions in their crystalline states.

264 tion (PbCr1-xSxO4, with 0 </= x </= 0.8) and crystalline structure (monoclinic/orthorhombic).

265 systematic analysis of chemical composition, crystalline structure and defect chemistry, the substitu

266 his finding not only indicates that specific crystalline structure can lead to a large spin Hall effe

267 nanofiber model system to exploit its liquid crystalline structure for the creation of diverse hierar

268 e-dimensional CdSe network having a coherent crystalline structure inside hexagonal prisms was conclu

269 The crystalline structure of the T2SL is not altered by the

270 e of U and V is affected by water pH and the crystalline structure of U-V bearing minerals.

271 ation in nonlinear materials with asymmetric crystalline structures and topological properties.

272 evolve from amorphous to nanocrystalline to crystalline structures during annealing at different tem

273 ns with low hydration levels, giving rise to crystalline structures that are highly recalcitrant to e

274 tly, research has focused almost entirely on crystalline structures, yet now a clear trend is emergin

275 ks are known to contain defects within their crystalline structures.

276 s and could enable doped single crystals and crystalline substrates for a range of optoelectronic app

277 The crystalline sulfonamides could be further elaborated by

278 ndent elastic modulus for ceramic and single crystalline superconductors alike.

279 When these are assembled into crystalline superlattices with gold nanoparticles, we fi

280 orous coordination polymers (PCPs) are open, crystalline supramolecular coordination architectures wi

281 Crystalline supramolecular frameworks consisting of char

282 Interactions of macromolecules with growing crystalline surfaces play an important role in biominera

283 fold degenerate Dirac nodes protected by the crystalline symmetry and 4-fold degenerate Dirac nodes p

284 les structural transition without losing the crystalline symmetry of the parental phase and provides

285 possess metallic surface states protected by crystalline symmetry, which are a versatile platform for

286 des in honey yields a semi-amorphous or semi-crystalline system.

287 Above and below the lipid gel-liquid crystalline temperature, partitioning is exothermic with

288 d kinetics of the radical pairs from various crystalline tetraarylacetones were obtained using transm

289 monstrate a transformation from amorphous to crystalline thermal transport behaviour through manipula

290 ranking networks on a continuous scale from crystalline, through glassy intermediate states, to chao

291 of these iron minerals, typically from less crystalline to more crystalline forms, affecting the bio

292 Controllable growth of highly crystalline transition metal dichalcogenide (TMD) patter

293 Here we show that non-crystalline U((IV)) generated through biologically media

294 er in organic matter, iron sulfides, and non-crystalline U(IV) rapidly consume DO and nitrate to main

295 Changing the GST phase to crystalline via optical heating allows for direct transf

296 , we report the UED results from 10-nm-thick crystalline VO2 supported on Al2O3(0001) and examine the

297 ar weights (Mn) 1770 to 10000 g/mol and semi crystalline with crystallinity below 1%) were synthesize

298 supramolecular polyhedral compartments of a crystalline zeolite-like hydrogen-bonded framework illus

299 phonates and SZ-3 represents the most porous crystalline zirconium phosphonate and the only porous MO

300 multiwalled carbon nanotubes embedded highly crystalline ZnO nanowires.