ライフサイエンスコーパス: crystalline

1 hough amorphous 11 was highly bio-available, crystalline 11 was poorly soluble and suffered disappoin

2 C single bond formation for the synthesis of crystalline 2D CPs.

3 mergence of memristive behavior in amorphous-crystalline 2D oxide heterostructures, which are synthes

4 Obtaining crystalline 31 proved problematic, however; thus salt sc

5 chemical behavior with structural changes of crystalline active materials.

6 scalable, robust method of producing highly crystalline acylhydrazone two-dimensional (2D) COFs with

7 Fs have traditionally been limited to weakly crystalline aggregated powders, they were recently grown

8 DOX promoted crystalline alkyl tail ordering, which significantly inc

9 It is well established that cellulose is crystalline, although the orientational order of cellulo

10 duction across both amorphous region and its crystalline/amorphous interface is characterized by an e

11 in situ generation, in flow generation, and crystalline analogues of CF(3)CHN(2) were developed duri

12 ents" have several key advantages over their crystalline analogues, as they provide isotropic structu

13 In contrast to the extensively studied crystalline and amorphous phases, the combination of sho

14 ible structural transformations between many crystalline and amorphous phases.

15 Crystalline and amorphous structures are two of the most

16 are still poorly understood: a pentahydrate crystalline and anhydrate amorphous forms were already c

17 (=C(t)Bu)(CH(2)(t)Bu)(3) complex on a highly crystalline and mesoporous MOF, namely Zr-NU-1000, using

18 n of similar spectral characteristics in the crystalline and monomeric solution state for 6,13-bisary

19 alterations of starch, by SFE, in long-range crystalline and morphological structure of starch granul

20 When alloyed, crystalline and optical anisotropy are largely preserved

21 demonstrate direct exfoliation of the highly crystalline and oriented 2DP films down to a few nanomet

22 rap states in metal halide perovskite single-crystalline and polycrystalline solar cells.

23 Covalent organic frameworks (COFs) are crystalline and porous materials with bi- or three-dimen

24 synthesized few-layer WS(2) films are highly crystalline and stoichiometric.

25 s to discover three new crystalline forms (a crystalline anhydrate, monohydrate and dihydrate).

26 asurements identify Raman modes to determine crystalline anisotropy direction and offer insights into

27 of an electronic state transition in highly crystalline antiferromagnetic CrN films with strain and

28 and symmetry analysis of the large unit cell crystalline approximant of the quasicrystal, Ta(21)Te(13

29 verview on the significance of chiral liquid crystalline architectures in various living systems is g

30 abnormalities (hyperplasia, hypertrophy, and crystalline arrays) consistent with a mitochondrial neur

31 -dimensional (2D) and three-dimensional (3D) crystalline arrays.

32 scribe a naturally occurring mineral/protein crystalline assembly at atomic resolution.

33 The black crystalline (aza)triangulene-based covalent organic fram

34 4 orders of magnitude in a series of highly crystalline binary alloys of two-dimensional electricall

35 ective features, and identify the very small crystalline bodies not identifiable using other retinal

36 Notably, this is the first report of crystalline borafluorene radicals, and these species exh

37 In this study, single-crystalline CdSe(ethylenediamine)(0.5) and Mn(2+)-doped

38 l walls present a high ratio of amorphous to crystalline cellulose as compared to dicots.

39 difficult challenges to effective nanoscale crystalline characterization.

40 abiogenic precipitates were composed of more crystalline Co sulfides and/or Co-rich mackinawite, the

41 ulting suspensions were cast into continuous crystalline COF films up to 10 cm in diameter, with thic

42 ty carbonyl groups combined with the ordered crystalline COF structure greatly facilitate lithium ion

43 Notably, crystalline COF-122 comprises edges spanning over 10 phe

44 4'-biphenyldicarbaldehyde in one pot to form crystalline COF-701.

45 tegy, the gram-scale synthesis of two highly crystalline COFs (up to 1.4 g yield) was obtained in a o

46 gered extensive widening of the rhabdoms and crystalline cone tips.

47 o a modern type, putatively just a very thin crystalline cone.

48 , metal-organic frameworks (MOFs), which are crystalline coordination polymers with high porosity, ha

49 doping-tuned transport properties of single crystalline correlated materials exists, it has remained

50 trocatalytic performance compared with their crystalline counterparts.

51 ous nanoscale weaves(2-16) include isotropic crystalline covalent organic frameworks(12-14) that feat

52 u atoms, while O(2) exposure induces a quasi-crystalline CuOx phase.

53 ported by DFT calculations, it is shown that crystalline CuOx reversibly transforms into the amorphou

54 ene-linked two-dimensional (2D) polymers and crystalline cyclobutane-linked three-dimensional (3D) po

55 provide direct evidence of Re enrichment to crystalline defects formed during creep deformation, usi

56 e, a method that generally produces abundant crystalline defects(4).

57 ton diffusion in COF-5 is constrained by its crystalline domain size.

58 meworks (2D COFs) is needed to improve their crystalline domain sizes and to control their morphology

59 ning tunneling spectroscopic measurements of crystalline domain walls (DWs) in FeSe(0.45)Te(0.55) We

60 Emerging nonfullerene acceptors (NFAs) with crystalline domains enable high-performance bulk heteroj

61 in turn, allow for their rearrangement into crystalline domains via solid-state transformation.

62 tudies show that boundaries between alpha-6T crystalline domains with different orientations generate

63 y reveals how motor proteins can mold liquid crystalline droplets and has implications for the design

64 iotic protection, we found that phage liquid crystalline droplets form phase-separated occlusive comp

65 genome, and studied Pf4 assembly into liquid crystalline droplets using optical microscopy and electr

66 Liquid crystalline elastomers (LCE) undergo reversible shape ch

67 emory polymers (SMPs), hydrogels, and liquid crystalline elastomers (LCEs) and networks (LCNs).

68 A nematic liquid crystalline electrolyte modifies the kinetics of electro

69 we demonstrate a mechanism of using a liquid crystalline electrolyte to suppress dendrite growth with

70 In condensed matter physics, a crystalline electronic system is geometrically chiral wh

71 ar chemistry to include, for the first time, crystalline ester-linked COFs related to common polyeste

72 o perovskite inks enables phase-pure, highly crystalline FA-alloyed perovskites with extraordinary op

73 nism likely operates in soils rich in poorly crystalline Fe and Al minerals.

74 able Ca(2+) and/or (2) dissolution of poorly crystalline Fe and Al oxides by 1 M HCl, releasing P occ

75 maging enables spatially resolved studies of crystalline features through the exploitation and analys

76 , chemical vapor deposition growth of highly crystalline few-layer (>=2 layers) PdSe(2) crystals on v

77 Here, we describe a crystalline form of the cyclic GMP phosphodiesterases/ad

78 nd frameworks which could be obtained in the crystalline form under mild synthetic conditions.

79 In the single-crystalline form, MoS(2) shows superior electronic prope

80 ve humidity conditions to discover three new crystalline forms (a crystalline anhydrate, monohydrate

81 ical polymer networks, such as the advent of crystalline "framework" materials.

82 xide, controls the homopolymer assembly into crystalline frameworks or uniform nanostructured hydroge

83 maging sensor arrays are dominated by single-crystalline germanium and III-V semiconductors.

84 just a second, easily exfoliated and highly crystalline graphene was produced from abundant carbon-c

85 al approach is demonstrated to afford highly crystalline graphite nanosheets at ambient temperature.

86 il the null exciton character in a series of crystalline Greek cross (+)-assembly of 6,13-bisaryl-sub

87 Herein, we identified crystalline guanine as the enigmatic large-capacity and

88 We discovered that the storing capacity for crystalline guanine by the marine dinoflagellate Amphidi

89 We propose that crystalline guanine is the elusive N depot that mitigate

90 le of binding both soluble ionic calcium and crystalline HAP, with high affinity and chemical specifi

91 upon association with either calcium ions or crystalline HAP.

92 ochemical synthesis of a reticular family of crystalline heterobimetallic metal-organic frameworks (M

93 The resulting crystalline heterobimetallic MOFs are solid solutions of

94 Thin films of four discotic liquid-crystalline hexa-peri-hexabenzocoronene (HBC) derivative

95 hree metal bromide anions enabled the single-crystalline "host-guest" system to exhibit emissions fro

96 Carlo simulations, we establish HoAgGe as a crystalline (i.e., nonartificial) system that realizes t

97 ble aqueous colloidal solutions of sub-20 nm crystalline imine-based COF particles at room temperatur

98 wn by in situ X-ray diffraction to be highly crystalline in the reaction mixture, is much less crysta

99 ) energy conversion demands high performance crystalline inorganic solids that exhibit ultralow therm

100 Bulk single-crystalline InSe can be compressed by orders of magnitud

101 insulator: axion insulator, AFM topological crystalline insulator (TCI), and higher order topologica

102 iperovskite oxide Sr(3) SnO is a topological crystalline insulator, a new electronic phase of matter

103 , which is not required for many topological crystalline insulators.

104 ed boundary of three-dimensional topological crystalline insulators.

105 semiconductors and more intensive studies on crystalline insulators.

106 cryo-microscopy (Cryo-EM) imaging reveals a crystalline intermediate wherein N-terminal nucleation d

107 hich is a physical mixture of the drugs with crystalline lactose, and two spray-dried powders contain

108 ing the drugs along with either amorphous or crystalline lactose.

109 h of PE polymer chains extending through the crystalline lamellar domains.

110 The crystalline lattice insulates mobile electrons from oxid

111 terial--two critically important factors for crystalline lattice self-assemblies--shedding light on e

112 monstrate a scaffold-supported ferroelectric crystalline lattice that enables self-healing and a repr

113 ments are stochastically arrayed on a simple crystalline lattice.

114 escale of ~150 fs without yet perturbing the crystalline lattice.

115 hickness, intrinsic nanoscale porosity and a crystalline lattice.

116 We generated crystalline lattices of Small Tetraheme Cytochromes (STC

117 position process for creating a redox-active crystalline layer (denoted as RZx) on pyrolytic graphite

118 ge, one new type of anhydrous protein liquid crystalline (LC) gels, which exhibit flexible morphologi

119 This reaction precipitated a crystalline lead phosphate in both systems, which could

120 wed that spectral transmittance of the human crystalline lens can be easily estimated from optical de

121 ith aged-related cataracts, having undergone crystalline lens extraction by phacoemulsification and i

122 ot justify the significance of examining the crystalline lens for patient above 40 years.

123 and slit-lamp (SL) photography to image the crystalline lens in DS, compared with adult controls.

124 nd transmittance of ocular media (the mainly crystalline lens) in visible light.

125 al variation of scattering properties in the crystalline lens, and also provides a single figure desc

126 fluenza A virus embedded in synthetic liquid crystalline lipid bilayers using two-dimensional J-resol

127 the effective magnetic anisotropy of highly crystalline magnetite nanoparticles and is a step toward

128 The melting of any pure crystalline material at constant pressure is one of its

129 storage or during the shipment of raisins, a crystalline material may be developed on their surface,

130 dominant A(1) modes of the nonlinear optical crystalline material potassium dihydrogen phosphate and

131 ; remarkably, this substrate converts into a crystalline material, in which the newly formed Mo(III)

132 However, the flexibility and adaptiveness of crystalline materials are limited.

133 Plastic deformation in crystalline materials consists of an ensemble of collect

134 mechanical and functional properties of many crystalline materials depend on cooperative changes in l

135 ost and complexity associated with utilizing crystalline materials for spintronic devices.

136 w of recent studies on surface structures of crystalline materials in the presence of gases in the mT

137 anic frameworks (MOFs) are a class of porous crystalline materials showing great potential for applic

138 (MOFs) represent a promising class of porous crystalline materials that have demonstrated potential i

139 first time using novel purely organic porous crystalline materials with covalently bound two- and thr

140 stal surfaces, yet recurrent images of fully crystalline materials with layered surfaces are evidence

141 at the interface between two one-dimensional crystalline materials, here for the first time, we obser

142 In contrast to the behavior of crystalline materials, in the glass paddlewheel dynamics

143 plication to a wide variety of other locally crystalline materials.

144 ous conditions has not been used to assemble crystalline materials.

145 gen evolution (HER) electrocatalysts in bulk crystalline materials.

146 tform for the development of multifunctional crystalline materials.

147 the pairing of modifiers in the synthesis of crystalline materials.

148 n of the guest nanoparticles within the host crystalline matrix remains a formidable challenge.

149 tion method of producing freestanding single-crystalline membranes made from a wide range of complex-

150 nanometers thin quasi two-dimensional liquid crystalline membranes with bending rigidity of a few kT

151 Crystalline metal halide perovskites (MHPs) have provide

152 the gap between organometallic compounds and crystalline metal nanoparticles.

153 hindered by difficulties in preparing large crystalline metal-organic framework films with suitable

154 ties of adsorptive gas storage using porous, crystalline metal-organic frameworks (MOFs) are examined

155 electric materials and indicates that single-crystalline Mg(3) (Sb,Bi)(2) solid solutions can exhibit

156 In this work, it is shown that molecular crystalline microwires composed of (Z)-2-(3-(anthracen-9

157 ol is most likely supported by secondary non-crystalline mineral phases in interaction with soil orga

158 s or grinding and gives rise to different co-crystalline, mixed crystalline, or amorphous forms.

159 ystals with broken translational symmetry in crystalline molecular bottlebrush (mBB) polymers.

160 We find that adsorption energy of liquid crystalline molecules on a lithium surface can be a good

161 er droplets is driven by the elasticity of a crystalline monolayer, known to self-assemble at the oil

162 ed cubic (bcc) and face-centered cubic (fcc) crystalline nanoparticle lattices.

163 e state of the art of emerging chiral liquid crystalline nanostructured materials and their technolog

164 pment of the surface morphology and shape of crystalline nanostructures governs the functionality of

165 This stems from the highly crystalline nature of BC, as well as the large number of

166 their molecular building blocks, yet highly crystalline nature, metal-organic frameworks (MOFs) sit

167 Single-crystalline Ni-rich cathode has a great potential to add

168 owever, synthesis of high-performance single-crystalline Ni-rich cathode is very challenging, notwith

169 rocracking along the (003) plane in a single-crystalline Ni-rich cathode.

170 ure, and electrochemical behaviors in single-crystalline Ni-rich cathodes.

171 rm" composites that can have advantages over crystalline ones, such as nearly optimal, direction-inde

172 e growth rate of representative imine-linked crystalline open organics, including organic cages, cova

173 y with low-cost methods without compromising crystalline or electro-optical quality.

174 ives rise to different co-crystalline, mixed crystalline, or amorphous forms.

175 rough gating of Bragg diffraction by loss of crystalline order as damage progresses, but not if ioniz

176 t changes in crystal morphology, neither the crystalline order nor unit cell of hemozoin are affected

177 hierarchically porous macro-architecture of crystalline organic materials in the bulk scale.

178 c frameworks are an emerging class of porous crystalline organic materials that can be designed and s

179 dramatically condense DNA in sperm to almost crystalline packing levels.

180 lity, which was lower in oleogels containing crystalline particles (MG and RW).

181 n oleogels are stabilized by the presence of crystalline particles at the air bubble surface and in b

182 The size of crystalline particles is an important parameter in oil f

183 eralized nanostructures consisting of 2.5-nm crystalline particles self-assembled into nanoleaves.

184 stic phase transformations within individual crystalline particles were recorded by integration of se

185 very similar chemical-bonding nature between crystalline PCMs and one of the bonding subgroups (with

186 ramatic structural changes while maintaining crystalline periodicity and display efficient self-heali

187 trategy to rapidly access aligned and highly crystalline perovskite NW arrays.

188 Our computational study identifies a crystalline phase of CaO(3) by reaction of CaO and O(2)

189 liquid, amorphous semi-solid or glassy, and crystalline phase states.

190 o self-assemble into a chiral nematic liquid crystalline phase, leading to solid-state nanostructured

191 are influenced by the superstructure of the crystalline phase.

192 g, confirming the spontaneous formation of a crystalline phase.

193 Furthermore, the combination of both crystalline phases of TiO(2)(mix) has the highest perfor

194 ransformation of anodized amorphous NTs into crystalline phases was investigated.

195 contrast in magnitude between amorphous and crystalline phases, but also the very similar chemical-b

196 Both WD and ED resulted in lamellar liquid-crystalline phases, however, of different topology.

197 rozen glassy matrices, amorphous solids, and crystalline phases.

198 cking beneficial for the formation of liquid crystalline phases.

199 MACE often show a porous Si/SiO(x) shell on crystalline pillar cores introduced by local electrochem

200 Liquid crystalline polymers (LCPs) programmed to undergo three-

201 frameworks (COFs) are highly modular porous crystalline polymers that are of interest for applicatio

202 m, is typically observed in high-temperature crystalline polymorphs.

203 A strategy is presented for the synthesis of crystalline porous covalent organic frameworks via topol

204 on acs framework into pacs (partitioned acs) crystalline porous materials (CPM).

205 we report a family of pore-space-partitioned crystalline porous materials (CPMs) with exceptional C(2

206 frameworks (MOFs) are an intriguing type of crystalline porous materials that can be readily built f

207 As a class of crystalline porous materials, metal-organic frameworks (

208 ductive multidimensional and multifunctional crystalline porous materials.

209 c frameworks (COFs) are an emerging class of crystalline porous polymers with tailor-made structures

210 Ester-linked, crystalline, porous covalent organic frameworks (COFs) h

211 Herein, a series of highly crystalline, porous, and stable new covalent organic fra

212 igment, or hemozoin (Hz), is an undegradable crystalline product of the hemoglobin degradation pathwa

213 Cyt1Aa is the one of four crystalline protoxins produced by mosquitocidal bacteriu

214 lose-spaced sublimation, yet retain the same crystalline quality measured by X-ray diffraction rockin

215 taxial lift-off process that allows the high crystalline quality of films grown on substrates to be r

216 ensive single-crystal substrates yields high crystalline quality with excellent electro-optical prope

217 th CPMG acquisition and standard addition of crystalline quartz, quantitative detection of quartz con

218 diffusion into fractures (void space) within crystalline rock has been postulated to play an importan

219 which rock matrix diffusion operates within crystalline rock over timescales that are relevant to sa

220 Additional analyses of a contrasting crystalline rock system (Carnmenellis Granite, UK) corro

221 aters inhibited (210)Pb readsorption (felsic-crystalline rocks) and where reducing alkaline condition

222 ose collected in solution and crucially, the crystalline samples display thermal stabilities in good

223 planetary interiors, in particular, for non-crystalline samples where it is difficult to obtain conc

224 aterials takes advantage of mesoscale liquid crystalline self-assembly, which allows for pre-designed

225 t 2D imine-linked COFs rapidly polymerize as crystalline sheets that subsequently reorganize to form

226 Covalent long-range ordered (crystalline) sheets called 2D polymers have recently bee

227 umoconiosis caused by exposure to respirable crystalline silica.

228 In this study, we amorphize crystalline silicon by means of helium-ion irradiation,

229 ace thermal conductance across the amorphous/crystalline silicon interface is nearly independent of t

230 optically exciting electron-hole pairs in a crystalline silicon membrane, we single out the effect o

231 ric power conversion efficiency in thin film crystalline silicon solar cell architectures relies esse

232 integration with industry-relevant textured crystalline silicon solar cells.

233 XRD analysis illustrated the crystalline size of CTAB capped TiO(2), MoS(2)@TiO(2) an

234 py has provided invaluable insights for many crystalline solar cell materials, and we used this metho

235 HEAs are single or multiphase crystalline solid solutions with high ductility.

236 4)Ge(2) framework has been isolated as a red crystalline solid.

237 or polymorphic screening in all fields where crystalline solids are used.

238 Crystalline solids exhibiting glass-like thermal conduct

239 mics in intrinsically low thermal conductive crystalline solids is important to thermoelectrics, ther

240 surement of the electronic band structure of crystalline solids.

241 mposite films by simple mixing of two liquid crystalline solutions: a colloidal nematic phase compris

242 Structural analysis of the resulting crystalline sponge phases revealed that host-guest inter

243 were determined by 2D NMR studies as well as crystalline-sponge-based X-ray diffraction analyses.

244 roscopy (LPEM) captures the intermediate pre-crystalline stages of a small organic molecule, flufenam

245 The increased structural order of the crystalline state contributes to provide better resolved

246 cavity was remarkably similar to that in the crystalline state of the free dye, allowing us to isolat

247 rgoes a transition from a flowing and liquid crystalline state to a kinetically arrested state.

248 In its crystalline state, a dinuclear Cu-based metallocycle dis

249 s the organization of the macrocycles in the crystalline state, are strongly determined by the substi

250 s the supramolecular arrangement of 1 in its crystalline state, as evidenced by powder X-ray diffract

251 ymmetry in a single two-dimensional layer of crystalline state.

252 pai stacking is completely suppressed in the crystalline state.

253 le state into the thermodynamically favoured crystalline state.

254 ion of red light both in solution and in the crystalline state.

255 Topological crystalline states (TCSs) are short-range entangled stat

256 e that a hypothetical "nanowire" composed of crystalline STC with a cross-section of about 100 cytoch

257 Two diastereomeric crystalline steroid dimers were obtained by acid-catalyz

258 erature and thus may be considered the first crystalline steroid molecular rotor without the alkyne a

259 iometric domains of In(2)O(3-x) on a core of crystalline stoichiometric In(2)O(3), and has 100% selec

260 characteristic of polysaccharides with semi-crystalline structure (14.50-38.60%), due to the high co

261 Moreover, the presence of a rigid, crystalline structure based on organic linkers enables t

262 ve 400 nm are ascribed to the defects in the crystalline structure in the form of oxygen vacancies.

263 rised visible light indicated changes in the crystalline structure of the polysaccharide chains and l

264 noscale interplay between excitons and local crystalline structure that gives rise to these quantum e

265 ether with the iodine-binding properties and crystalline structure were studied for each of the starc

266 Here, the effects of sulfur on the crystalline structure, hydrophobicity, sulfur speciation

267 To unravel the combined role of crystalline structure, sample size and temperature on th

268 r physical properties such as electronic and crystalline structure.

269 r ions and leads to a loss of the compound's crystalline structure.

270 Here, the crystalline structures of cellulose in primary cell wall

271 tute a large and growing class of nanoporous crystalline structures that is attracting considerable a

272 rigid planar backbones, but with disordered crystalline structures, exhibit surprising structural to

273 d on a model of the enzyme in complex with a crystalline substrate, suggest that a network of hydroge

274 The effects of 2 wt% emulsifier and crystalline sugar on the isothermal solidification and p

275 cocoa butter can be muted in the presence of crystalline sugar, suggesting a complex interplay depend

276 discrete inorganic clusters within a porous crystalline support.

277 uniform catalysts (metal atoms dispersed on crystalline supports) which can be characterized incisiv

278 ere, we describe the design and synthesis of crystalline supramolecular architectures from charge-com

279 ure and pressure, surface science studies of crystalline surfaces in ultrahigh vacuum, and first-prin

280 This disordered-crystalline switch between two topological distinct meta

281 Recent theoretical works unveiled that these crystalline symmetries can stabilize fragile Bloch bands

282 ngled states jointly protected by onsite and crystalline symmetries.

283 th natural as well as architectured, possess crystalline symmetries.

284 is quantized by the simultaneous presence of crystalline symmetry and broken time-reversal symmetry,

285 rials are derived from the interplay between crystalline symmetry and dimensionality.

286 out the strict constraints of a well-defined crystalline symmetry and large energy barriers separatin

287 ction in nonmagnetic materials only when the crystalline symmetry is reduced.

288 te the structural phase, carrier density and crystalline symmetry of materials via ion-electron-latti

289 w magnetic symmetry while maintaining a high crystalline symmetry.

290 p with high-efficiency PSCs employing highly crystalline TiO(2) ETLs.

291 An investigation into the crystalline to amorphous phase transitions of prepared 1

292 [Formula: see text] undergoes a crystalline transition at [Formula: see text] with large

293 delivered greatly soluble and bio-available crystalline tris-salt 32.

294 ication, were demonstrated on a novel highly crystalline two-dimensional covalent organic framework (

295 We report the first transformation between crystalline vinylene-linked two-dimensional (2D) polymer

296 ball- or tetracyanoquinodimethane-integrated crystalline was conducted.

297 alline in the reaction mixture, is much less crystalline when isolated than the other COFs examined,

298 cular scale is that although PE becomes more crystalline with environmental exposure, the lamellar or

299 asurements show that the obtained product is crystalline with three-dimensional order that appears to

300 l(2) O(3) layers onto atomically thin single-crystalline ZnO nanosheets, is demonstrated.