ライフサイエンスコーパス: crystallinity

1 ability, resulting in lower surface area and crystallinity.

2 000 cycles, and a retention of intermetallic crystallinity.

3 mers showing tuneable permanent porosity and crystallinity.

4 ough the boron-cluster-doped films have poor crystallinity.

5 se (BNC), which benefit from high purity and crystallinity.

6 macropores without compromising on the bulk crystallinity.

7 ure give primary evidence of their degree of crystallinity.

8 ramic monoliths, with retention of mesoscale crystallinity.

9 lar structure due to higher degree of starch crystallinity.

10 he powders exhibited a slight development of crystallinity.

11 of adsorbate interactions afforded by their crystallinity.

12 sal of mass diffusion direction depending on crystallinity.

13 with fine milling slightly reduced cellulose crystallinity.

14 tion of starch and protein and reduced lipid crystallinity.

15 ling (ANN) modified starches showed the most crystallinity.

16 y with less carbonate substitution and lower crystallinity.

17 o-fiber oligomerization without losing their crystallinity.

18 stabilized the oxidation state and increased crystallinity.

19 h transparency due to its highly ordered hBN crystallinity.

20 improvement in microstructure alignment and crystallinity.

21 the rheological effects of water content or crystallinity.

22 tice symmetry, but improves the superlattice crystallinity.

23 fected by bulk properties such as the sample crystallinity.

24 ith both controlled morphological shapes and crystallinity.

25 undergo large-scale motions without loss of crystallinity.

26 y transform Fe(III) minerals and alter their crystallinity.

27 -98% conversion, as governed by surface area/crystallinity.

28 y crystallography to reveal their super high crystallinity.

29 factors such as nanoparticle size, shape, or crystallinity.

30 he cavity of the DBA units, and retention of crystallinity.

31 dividual atoms in materials without assuming crystallinity.

32 2) production as a function of nanostructure crystallinity.

33 ruts in the MOFs, without losing porosity or crystallinity.

34 frameworks (CD-MOFs) without altering their crystallinity.

35 into the film matrix induces an increase in crystallinity.

36 ion and enthalpy of NLCs and their degree of crystallinity.

37 es, swelling power, and altered the relative crystallinity.

38 gulating Li electrodeposition morphology and crystallinity.

39 differential scanning calorimetry gives the crystallinity.

40 to a cycloreversion while retaining the COF crystallinity.

41 e branched, nylon-like polymers with reduced crystallinity.

42 ly, for their surface areas, pore sizes, and crystallinity.

43 ling under hydration while disrupting matrix crystallinity.

44 reases under conditions of reduced cellulose crystallinity.

45 ntation and an increase in cellulose surface crystallinity.

46 largely determined by their morphologies and crystallinities.

47 The afforded graphite features high crystallinity, a high degree of graphitization, a thin n

48 Also, X-ray patterns indicated that crystallinity achieved a minimum value at CaCO3 concentr

49 XRD showed loss of crystallinity after encapsulation.

50 frameworks that maintain their porosity and crystallinity after moisture exposure, important molecul

51 An increased amylopectin content and crystallinity along with the loss of double helix conten

52 Moreover, no significant changes in crystallinity, amino acid composition, or phenolic conte

53 AT can be tuned by controlling the degree of crystallinity and alkyl side chain length.

54 photoconductivity, gas permeability, liquid crystallinity and chain helicity.

55 p-stack" in the solid state, leading to high crystallinity and charge mobility.

56 The obtained 1 L MoS2 exhibits high crystallinity and comparable mobility to mechanically ex

57 facets, defects, and bulk properties such as crystallinity and crystal size are key parameters for ch

58 fied by the presence of NOM, causing reduced crystallinity and degradation of the NPs.

59 Morphology, expansion index, viscosity, crystallinity and digestion in vitro of the extruded sam

60 The wax aggregate crystallinity and distribution of chemical functional gr

61 corrole-based COF, TPAPC-COF, exhibits high crystallinity and excellent chemical stability.

62 ceptors show unique interactions that reduce crystallinity and form a homogeneous mixed phase in the

63 d eroded surface in micrographs, decreased % crystallinity and FTIR peaks.

64 he solution-state structure, films with high crystallinity and good interdomain connectivity are obta

65 thesis of metal oxide nanocrystals with good crystallinity and high specific surface area by a modifi

66 r typical metal oxide nanocrystals with good crystallinity and high specific surface area were also s

67 ltodextrin increased the T(g,) decreased the crystallinity and improved the stability of powders.

68 oleophobicity in addition to retaining high crystallinity and intact porosity.

69 abile" linkers without affecting the overall crystallinity and integrity of the original framework.

70 c electronics, achieving a maximum degree of crystallinity and large domain sizes while allowing for

71 tial to be used as catalysts because of high crystallinity and large surface area.

72 Their high crystallinity and large surface areas (up to 1165 m(2).g

73 oparticles from all starch sources had lower crystallinity and lower thermal stability than did the n

74 od grade curcumin nanoparticles with reduced crystallinity and maximize the utilization of curcumin d

75 Owing to their crystallinity and modular nature, metal-organic framewor

76 Additionally, loss of crystallinity and molecular order was observed from XRD

77 Changes in the relative crystallinity and molecular weight of the proteins extra

78 Crystal type, relative crystallinity and morphological changes were characteris

79 At the 10-nm length scale, metal crystallinity and patterning as well as probing of surfa

80 High crystallinity and permanent porosity of the layered two-

81 and 2' by direct oxidation with retention of crystallinity and permanent porosity.

82 Crystallinity and porosity are of central importance for

83 ity, as the parent cobaltous MOF retains its crystallinity and porosity even after three oxidation/re

84 This tight binding comes with retention of crystallinity and porosity, allowing a fourth drug to be

85 ctions and conformational flexibility to COF crystallinity and porosity.

86 uch frameworks, with full retention of their crystallinity and porosity.

87 site MMOs, and polymetallic oxide) with high crystallinity and remarkable porous properties by grindi

88 covalent organic frameworks (COFs) with high crystallinity and robustness.

89 uence of storage temperature and time on the crystallinity and RS content of bread.

90 nce of storage temperature and time on total crystallinity and RS content.

91 tor (OFET) performance as a function of film crystallinity and show that changing the crystallinity o

92 tions and growth and prebake temperatures on crystallinity and smoothness.

93 s of metal oxide nanocrystals, balancing the crystallinity and specific surface area.

94 d and Raman spectra confirm the single-phase crystallinity and stability of MIL-100(Fe) under reactio

95 ption spectrum with IDIC, PM6 possesses high crystallinity and strong pi-pi stacking alignment, which

96 self-assembly had negligible effects on drug crystallinity and structure but resulted in drug nanocry

97 olate COF materials significantly erodes the crystallinity and surface area of the several isolated m

98 COFs studied, with all exhibiting excellent crystallinity and surface areas, including the highest s

99 es C under 15 mTorr Ar, indicating excellent crystallinity and surface smoothness; moreover, an addit

100 s is achieved largely through the control of crystallinity and surface/interface defects.

101 able double-bond stereochemistry defines the crystallinity and the concomitant mechanical properties

102 observation was attributed to the long range crystallinity and the contaminant-free surfaces of these

103 ing of the correlation between the degree of crystallinity and the emergent perovskite/hole (or elect

104 ncy is strongly influenced by the perovskite crystallinity and the film morphology.

105 eding such eruptions, which largely controls crystallinity and therefore eruptability.

106 composition, morphology, functional groups, crystallinity and thermal properties.

107 parameters are explored as a function of the crystallinity and thickness of the TiO2 shell.

108 exposed {001} crystal facets has the better crystallinity and thus is selected to study the effect o

109 rior optoelectronic properties, and improved crystallinity, and also of electronically clean interfac

110 nal groups and secondary structure, thermal, crystallinity, and antioxidant properties.

111 and organic linkers featuring high porosity, crystallinity, and chemical tunability at multiple lengt

112 ectron microscopy was used to determine iron crystallinity, and energy-dispersive X-ray spectroscopy

113 The combination of photochromism, liquid crystallinity, and fabrication techniques has enabled so

114 rge volume expansion (ca. 10 times), loss of crystallinity, and growth of large pores.

115 uch as chemical functionality, charge, area, crystallinity, and hydrophilicity, plays a pivotal role

116 frameworks without losing their porosity or crystallinity, and in turn achieving designed properties

117 In sum, minor changes in pasting, thermal, crystallinity, and morphological properties of the isola

118 evolution of solute structure (aggregation, crystallinity, and morphology) with film thickness.

119 the corresponding particle size, morphology, crystallinity, and other factors to be visualized.

120 The fibers presented different structural, crystallinity, and thermal properties, depending on the

121 iodine binding, X-ray diffraction patterns, crystallinity, and thermal properties, we demonstrated,

122 surface coating, differing by their type of crystallinity are governed by Co-Co magnetic interaction

123 d on the assumption that extensive order and crystallinity are needed.

124 stpolymerization, the high surface areas and crystallinity are now readily maintained after heating t

125 aracteristics of QDs, such as morphology and crystallinity, are tuned mostly by trial and error in a

126 770 to 10000 g/mol and semi crystalline with crystallinity below 1%) were synthesized in various comb

127 freestanding film with near-perfect in-plane crystallinity but a mixed stacking order through the thi

128 HMT and ANN increased the relative crystallinity but DR decreased it.

129 lease of trans-cinnamaldehyde enhanced bread crystallinity but gave lower rate of hardness increase d

130 ginally affected, decreasing with decreasing crystallinity but still maintaining superionic behavior.

131 WPC and moisture increased crystallinity, but only WPC increased solubility and dec

132 s it, in principle, allows estimation of the crystallinity by percolation theory and the location of

133 imuli, demonstrating that their porosity and crystallinity can be reversibly controlled by alternatin

134 yields low costs, but comparatively inferior crystallinity, carrier transport, and recombination.

135 swelling power, solubility, morphology, and crystallinity characteristics, as well as in vitro diges

136 triangular sheets which suggests an enhanced crystallinity compared to the h-BN synthesized under the

137 ractometry (XRD) to evaluate its morphology, crystallinity, composition and purity.

138 y hole-transporting PBDTT-FTTE, and (iv) low-crystallinity conducting PEDOT:PSS.

139 in the gas/solid system, the changes in the crystallinity could be reliably monitored.

140 , and morphology can be harnessed to control crystallinity, create doping gradients, and pattern poly

141 lopectin branching density, molecular order, crystallinity, crystalline heterogeneity, gelatinization

142 anoparticle formation method to generate low-crystallinity curcumin nanoparticles to enhance the bioa

143 om and in-plane growth, our model results in crystallinity degrees of 93.1% to 99.7% and mean radii o

144 full coverage, uniform morphology, and good crystallinity; demonstrated interface layers used in fle

145 polymers which stand out by virtue of their crystallinity, diverse framework topologies and accessib

146 Changes to molecular order, crystallinity, double helical content, radial orientatio

147 l that sorption and desorption depend on the crystallinity, elasticity, and hydrophobicity of the pol

148 scusses rational approaches to stability and crystallinity engineering in COFs, which are apt at over

149 exhibited extended pai-conjugation, improved crystallinity, enhanced stability, and additional functi

150 al transformation and the specific degree of crystallinity (eta) in the evolution process.

151 All of the polymorphs retain their crystallinity even after treatment with acids and bases.

152 at 21% pO2, and SRFA decreased Fe(III) phase crystallinity, facilitating low-crystalline ferrihydrite

153 was slower at low pO2 and resulted in higher-crystallinity Fe(III) phases.

154 The biogenic precipitates displayed higher crystallinity for Co sulfides (up to the formation of na

155 ine cobalt pentlandite, Co(9)S(8)) and lower crystallinity for Co-rich mackinawite, suggestive of min

156 ng NS derived from beta-cyclodextrin of high crystallinity for the encapsulation of PIP at high loadi

157 The change in crystallinity from A-type of the starch granules to a mo

158 rmation of Fe-rich clay minerals of variable crystallinity from aqueous Fe(3+) with small amounts of

159 relaxations of the cluster-cloud to improve crystallinity: from a poorly crystallized phase, the par

160 core starches were higher, and the degree of crystallinity, granule size and gelatinization parameter

161 ations to starch structure and properties as crystallinity, granule size, polymorphism, amylopectin c

162 fabricated into 3D monoliths possessing high crystallinity, hierarchical pores with high surface area

163 The h-BNNS has high crystallinity, high porosity with a surface area of 347

164 ilding blocks, are well-known for their high crystallinity, high surface areas, and high component tu

165 Epitaxial aluminum films with superb crystallinity, high surface smoothness, and interface sh

166 lline electron-transporting N2200, (iii) low-crystallinity hole-transporting PBDTT-FTTE, and (iv) low

167 perties, correlated with the extent of fibre crystallinity, i.e. degree of molecular order.

168 their high chemical stability, porosity and crystallinity in comparison to previously reported COFs.

169 ntrast, inulin considerably decreased starch crystallinity in the bread, resulting in a softer crumb.

170 f PBTTT, which can be ascribed to its higher crystallinity, in turn induced by a combination of molec

171 f manganese oxide nanomaterials of different crystallinity, including alpha-, beta-, gamma-, delta-,

172 The relative crystallinity increased in ANN-treated starches and decr

173 o <0 degrees C and solubility to <25%, while crystallinity increased to >40%.

174 The BCNCs crystallinity increased, and the size of nanocrystals de

175 action yield, final viscosity, enthalpy, and crystallinity, independent of the grain pericarp colorat

176 Starch gelation decreased the crystallinity index (CrI) from 59% to approximately 23%;

177 On the other hand, the crystallinity index was for the first time determined fo

178 arized light microscopy was used to localize crystallinity induced in the samples under controlled co

179 Crystallinity is another major controlling factor for ma

180 al ionic liquid crystals in which the liquid crystallinity is enabled by halogen-bonded supramolecula

181 se boron carbide datasets substantiates that crystallinity is maintained to the point of field evapor

182 d crystals in which the occurrence of liquid crystallinity is not driven by the alkyl chains of the c

183 Crystallinity is seldomly utilized as part of the microp

184 Diffraction data indicate onset of crystallinity loss upon approximately 15 MGy of irradiat

185 c texture, micrometer-grain morphology, high crystallinity, low trap density ( approximately 4 x 10(1

186 Commonly used methods to assess crystallinity, micro-/mesoporosity, Bronsted acid site d

187 gy affected the digestibility while relative crystallinity might change the pasting point.

188 interstitial regions were analyzed for DMB, crystallinity, mineral to organic matrix ratio, mineral

189 An increase in the resistance to digestion, crystallinity, molecular weight, polydispersity and mole

190 peratures accelerated RS formation and total crystallinity more than storage time at both frozen and

191 Moreover, crystallinity, morphology, swelling power, solubility, p

192 entration of d-electrons or d-states, and/or crystallinity need to be controlled.

193 creased amylose lipid complexes and relative crystallinity observed by the DSC and XRD, suggesting th

194 epared, with a decrease in active ingredient crystallinity observed vs solution-phase deposition.

195 situ, as well as different compositions and crystallinities of cell wall components.

196 lysis showed a type-C starch with a relative crystallinity of 23.31+/-2.41%.

197 ct the solubility, aggregation behavior, and crystallinity of carbohydrate materials.

198 ns and soil solutes, degradation and loss of crystallinity of cellulosic polysaccharides, and silicif

199 Notably, the crystallinity of COF films is observed only at longer re

200 Metallic glasses (MGs) lack the crystallinity of conventional engineering alloys, and so

201 Impregnation into NSAs decreased the crystallinity of curcumin and did not create any chemica

202 al transformation, which stems from the soft crystallinity of ferritin-MOFs, illustrates the advantag

203 eastern floodplain coincided with increased crystallinity of goethite, relative to the oxic layers.

204 Nanoscale confinement disrupts the crystallinity of M(2)CO(3) and engenders strong base rea

205 Control over morphology and crystallinity of metal halide perovskite films is of key

206 izing the morphology, surface roughness, and crystallinity of metal nanoparticles (NPs) in two-dimens

207 ITP)2 and analogues thereof combine the high crystallinity of metal-organic frameworks, the physical

208 s and intermediates combined with tuning the crystallinity of NRR electrocatalysts.

209 The crystallinity of NS was enhanced by increasing diphenyl

210 onding, and improve the thermal behavior and crystallinity of oleogels.

211 ed, which is a direct result of the superior crystallinity of perovskite thin films on NiO.

212 ion of face-on crystallite despite intrinsic crystallinity of polymers.

213 interface between PZT and Metglas, improved crystallinity of PZT by laser annealing, and optimum vol

214 ), F(-)), we observe a complex effect on the crystallinity of SBUs.

215 n the other hand, decreasing aggregation and crystallinity of the acceptor polymer too much reduces t

216 Additionally, we show that the lower crystallinity of the active layer is less sensitive to t

217 o the alpha-phase of FAPI which confirms the crystallinity of the as-deposited film and reveals a pre

218 del, without altering the morphology and the crystallinity of the cellulose bundles.

219 ge time had a positive effect (49 to 53%) on crystallinity of the composite extrudates.

220 re optimized by taking advantage of the high crystallinity of the donor material and afforded a PCE o

221 No modification of the crystallinity of the film is observed.

222 d the near-infrared, while the structure and crystallinity of the frameworks are fully retained.

223 nomer choice also results in a change to the crystallinity of the material, which manifests through a

224 mics could contribute to the flexibility and crystallinity of the material--two critically important

225 tions that are ultimately destructive to the crystallinity of the material.

226 h the increase of annealing temperature, the crystallinity of the Ni shells over the ZnO NRs graduall

227 ilm crystallinity and show that changing the crystallinity of the polymer by thermal annealing increa

228 The crystallinity of the samples was modified by adding guar

229 vaccine over a time period determined by the crystallinity of the silk matrix.

230 The addition of SFC decreased the crystallinity of the starch granules (71 to 49%), wherea

231 gelatinization enthalpy change and relative crystallinity of the starch.

232 It not only helps improve the crystallinity of the ZnP-TBO and 6TIC blend, but also fo

233 h solution-phase aggregation and solid-state crystallinity of these acceptor polymers are progressive

234 ume ratio, a spectral indicator of nanoscale crystallinity of water.

235 Relative crystallinity of waxy corn starch increased from 42.4 to

236 While crystallinity offers numerous advantages, the ability to

237 There was a decrease in relative crystallinity on both black and red rice subjected to pa

238 thus is selected to study the effect of high crystallinity on photoelectric properties.

239 this study indicate that the structural and crystallinity, optical, and electrical properties can be

240 Due to the improved crystallinity, optimal blend morphology, and higher char

241 Ferrihydrite with varying crystallinity or impurities such as organic matter, Al o

242 monitor the effects of self-irradiation upon crystallinity over time.

243 bstitution (p < 0.001), and a 2% increase in crystallinity (p < 0.001) in the embalmed donors group c

244 D) was assessed, besides the microstructure, crystallinity, pasting properties and starch hydrolysis

245 treatments, tannins significantly increased crystallinity, pasting temperature, peak viscosity, and

246 e alkyl groups, the resultant COFs show high crystallinity, permanent pores, and exceptional stabilit

247 icization that increased molecular mobility, crystallinity, permeability but limited volatile release

248 t of the intricate interplay among materials crystallinity, phase separation, and the relative positi

249 lent organic frameworks (PAE-COFs) with high crystallinity, porosity and chemical stability, includin

250 The high crystallinity, porosity, photochemical stability, and li

251 Insight into the crystallinity, preferred orientation, and cage crystal g

252 he redshift of the film absorption, enhanced crystallinity, prominent phase separation, improved mobi

253 y, thermal annealing does not alter the film crystallinity, R-SoXS characteristic size scale, relativ

254 ting substantial improvements in epitaxy and crystallinity relative to nanocrystalline sputtered film

255 carrier mobility, and that the high polymer crystallinity required with dopants such as F(4) TCNQ is

256 ction pattern, with 41.0% and 37.7% relative crystallinity, respectively.

257 This frustration of crystallinity reveals that La(3+) disrupts the hydrogen-

258 onate (0.0-2.0%w/w CaCO3) on the morphology, crystallinity, rheology and hydrolysis of gelatinized ma

259 acroporous, ~10-20 nm wall thickness, ~10 nm crystallinity) show high energy storage capability, hier

260 lymorphs (Type II) and increased in relative crystallinity showed by differential scanning calorimetr

261 Relative crystallinity significantly (p <= 0.05) decreased after

262 ure of H-bonding connections, HOFs show high crystallinity, solution processability, easy healing and

263 lecular weight distribution, gelatinisation, crystallinity, specific surface, intrinsic viscosity.

264 ew strategies have surfaced that bypass this crystallinity - stability dichotomy.

265 ontrol the properties of COFs, including the crystallinity, stability, and functionalities.

266 Crystallinity, structure, morphology, flexibility, surfa

267 highly crystalline cellulose as well as low crystallinity substrates making it the only known cellul

268 Lower crystallinity supported more rapid drug binding when com

269 Crystallinity, surface area, and porosity of these 1 mum

270 ns in the monomers dramatically affected the crystallinity, surface area, pore structure, and lumines

271 ns, which result in differential reactivity, crystallinity, surface areas, and size distributions.

272 showed more uniform orientation and greater crystallinity than the samples treated with CS-AMEL hydr

273 Benefiting from its high crystallinity, the relatively thick SnO2 electron-transp

274 evaluate the physicochemical, morphological, crystallinity, thermal, and pasting properties of starch

275 ltrasound treatment induced changes in grain crystallinity These changes affected the eGI, increasing

276 We obtained polymers with high crystallinity, thickness of ~2 nm and an average crystal

277 ioresorbable scaffolds (BRS) rely on polymer crystallinity to achieve mechanical strength resulting i

278 The changes of crystallinity to amorphous structures of starch, content

279 s a base-labile protecting group and confers crystallinity to these cyclopropanone precursors, were f

280 nted combination of large surface area, high crystallinity, tunable pore size, and unique molecular a

281 (2) g(-1)) and to retain its composition and crystallinity under both strongly acidic and basic condi

282 and contract anisotropically without losing crystallinity, undergo prompt bending motions in respons

283 As the decrease in crystallinity upon activation of these porous molecular

284 tely 15 MGy of irradiation and total loss of crystallinity upon exposure to approximately 25 MGy of H

285 nalyses showed a significant reduction of QC crystallinity upon formulating with PG that was associat

286 -crystal Cu(2)O cubes upon air exposure, low crystallinity upon passivation, and high mobility under

287 Lower crystal size along with reduced crystallinity was observed in treated protein isolates t

288 ncy of shv3svl1 but indicated that cellulose crystallinity was unaffected in the mutant.

289 sicochemical properties [color, porosimetry, crystallinity, water solubility and absorption, pasting

290 Thermal stable BCNCs with high crystallinity were successfully produced to meet the pro

291 mmetry measurements confirmed the absence of crystallinity when polyvinylpyrrolidone exceeded 50%w/w.

292 ese polymers are amorphous materials with no crystallinity, which is in contrast to the natural poly(

293 eometry, quasi-1D structure and high-quality crystallinity, which outperforms their tubular counterpa

294 in the formation of thin films with enhanced crystallinity with characteristic peak width and splitti

295 s-synthesized macroporous COFs preserve high crystallinity with high specific surface area.

296 The thin films have nanodomains of crystallinity with lattice spacing similar to those of d

297 QDs possess improved surface morphology and crystallinity with reduced defect densities, in comparis

298 acid-catalyzed conditions, showing signs of crystallinity within a few minutes, and maximum crystall

299 stallinity within a few minutes, and maximum crystallinity within hours.

300 The presence of crystallinity within the amorphous matrix is thus seen t