ライフサイエンスコーパス: mechanical property

1 ocesses that respond discreetly to substrate mechanical properties.

2 in the block copolymer further regulates the mechanical properties.

3 erials with controlled assembly and tailored mechanical properties.

4 ns due to its excellent biocompatibility and mechanical properties.

5 opmental potential can be predicted by their mechanical properties.

6 low-density nanocomposites with exceptional mechanical properties.

7 experiments performed on phantoms with known mechanical properties.

8 and polyglutamylation can alter microtubule mechanical properties.

9 in (ELP) organogel fibers with extraordinary mechanical properties.

10 processes related to transport and effective mechanical properties.

11 type and leading to measurable bulk-material mechanical properties.

12 nover dictates the morphology as well as the mechanical properties.

13 ws control over nanofibrils morphologies and mechanical properties.

14 f their superlative electrical, optical, and mechanical properties.

15 patible microenvironment along with improved mechanical properties.

16 ics, and exhibit polyolefin-like thermal and mechanical properties.

17 reviously unknown materials with outstanding mechanical properties.

18 icle shape plays an important role in tuning mechanical properties.

19 nstrated that histone variants encode unique mechanical properties.

20 to its superior electrical, biochemical, and mechanical properties.

21 erties, including the optical, magnetic, and mechanical properties.

22 through which nature tunes a gating spring's mechanical properties.

23 ice counteracted bone loss and enhanced bone mechanical properties.

24 a manner consistent with changes in membrane mechanical properties.

25 between electrical, optical, transport, and mechanical properties.

26 ble 3D kirigami metastructures with distinct mechanical properties.

27 risingly powerful method to induce nonlinear mechanical properties.

28 ckness rather than fluctuations in cell wall mechanical properties.

29 evaluated for conductivity, flexibility, and mechanical properties.

30 fective way of making materials with unusual mechanical properties.

31 ckness, extracellular matrix components, and mechanical properties.

32 ty, biocompatibility, biomimicry, and proper mechanical properties.

33 cle while subjects fed on foods of different mechanical properties.

34 and furcation regions in both structure and mechanical properties.

35 esponses through modulation of its cell wall mechanical properties.

36 hape forming process (3D printing) and final mechanical properties.

37 s of hard colloids, leading to their unusual mechanical properties.

38 cron resolution, including their optical and mechanical properties.

39 a softer core layer leads to a reduction in mechanical properties.

40 enous forces and their interplay with tissue mechanical properties.

41 on of the fault with fundamentally different mechanical properties.

42 ed, thus unmasking cell-to-cell variation in mechanical properties.

43 ceived much interest owing to their enhanced mechanical properties(1-5).

44 , and micro- and nano-lattices with enhanced mechanical properties(10,11).

45 d integrate composites that have exceptional mechanical properties(3).

46 kappa values greater than 2 and poor thermo-mechanical properties(5).

47 omposites have been developed to improve its mechanical properties, although so far without simultane

48 itanium components can result in anisotropic mechanical properties and are therefore undesirable(2).)

49 In vivo and in vitro tests showed that the mechanical properties and biocompatibility of the adhesi

50 issolution in body fluids, biocompatibility, mechanical properties and bioelectrical sensing/stimulat

51 id significantly improved bone structure and mechanical properties and cartilage structural parameter

52 le or to understand the relationship between mechanical properties and cell physiology.

53 ies with tailored surface chemistry, elastic mechanical properties and chemical stability in water.

54 may be important determinants of whole-bone mechanical properties and contribute to the risk of age-

55 However, the poor mechanical properties and electrical conductivities of r

56 caffolds possess both cortical bone-matching mechanical properties and excellent osteoconductivity fo

57 a promising structure for improving both the mechanical properties and functional capabilities of rei

58 bstrates without compromising their original mechanical properties and geometry.

59 lerate our understanding of musculotendinous mechanical properties and have numerous research and cli

60 ce its performance is often hindered by poor mechanical properties and high roughness.

61 processable polyamides with stereocontrolled mechanical properties and high-fidelity shape memory beh

62 tropy ceramics have potential to improve the mechanical properties and high-temperature stability ove

63 important class of biomaterials with robust mechanical properties and improved resistance to prematu

64 have been reported with the aim of improving mechanical properties and in vivo performance of the mic

65 nts and that vimentin bundling perturbs cell-mechanical properties and inhibits the invasive properti

66 ality hybridization with collagen, improving mechanical properties and integrity, and decreased the e

67 GA does not affect negatively the chemical/mechanical properties and it does not increase dentin er

68 Recent investigations into the mechanical properties and mechanochemical reactions of m

69 ider silk, many researchers have studied the mechanical properties and microstructure of the spider w

70 ms to elucidate the relationship between the mechanical properties and microstructures of poly(p-phen

71 sphonate to generate hydrogels with enhanced mechanical properties and preserved protein binding able

72 ell envelope frames our understanding of its mechanical properties and role as the environmental inte

73 aser-printed metals do not tend to match the mechanical properties and thermal stability of conventio

74 s; e.g., sickle cell anemia or malaria), the mechanical properties and thus shape responses of cells

75 The cell volume, mechanical properties, and actin cytoskeleton structure

76 edented control of functional group density, mechanical properties, and counterion identity.

77 ibacterial properties coupled with favorable mechanical properties, and its superior performance in a

78 terms of solvent compatibility, optical and mechanical properties, and sorption of inorganic and org

79 ertical through-hole structure with improved mechanical properties, and thus facilitated migration of

80 robots with ample functionalization: tunable mechanical properties, anti-biofouling and non-immunogen

81 onal models when homogeneous contractile and mechanical properties are assumed.

82 ctural properties of wood in relation to its mechanical properties are explored.

83 The coupled effects of geometrical and mechanical properties are included in this model and stu

84 Polymer fibers with specific chemical and mechanical properties are key components of many biomate

85 iding EM protection and required thermal and mechanical properties are normally used.

86 heir low-dimensional geometries and superior mechanical properties, are amenable to exquisite strain

87 (shear and inertial) which can expose subtle mechanical properties arising from subcellular component

88 itected materials are as important for their mechanical properties as are crystallographic microstruc

89 the resulting materials can display the same mechanical properties as the native material, but they c

90 als from active forces and changes to tissue mechanical properties as well as extrinsic mechanical si

91 e amount of LiTFSI significantly affects the mechanical properties, as the shear modulus varies betwe

92 n be improved by assessing the breast tissue mechanical properties associated with pathological chang

93 design of crystals with desired dynamic and mechanical properties at the macroscopic level remains a

94 erical indentation also correlated with bone mechanical properties at this length scale but to a less

95 ly significant differences were found in the mechanical properties between the two phases, reinforcin

96 This results in improved static mechanical properties (both strength and yield) in compa

97 tures, have achieved optimal combinations of mechanical properties but suffer from limited mechanical

98 microstructures with dramatically different mechanical properties can be effectively engineered in t

99 en helix-heterotetramers, showing that their mechanical properties can be modulated by changing the s

100 ltiple solid tumours, including gliomas, the mechanical properties change as the disease progresses.

101 ral reinforcement of biomass giving wood its mechanical properties, CNM is strong and stiff, but also

102 Favorable mechanical properties comparable to commercial resin wer

103 od and CNF resulted in enhanced physical and mechanical properties compared to the ones made by physi

104 Altering target mechanical properties demonstrated more efficient phagoc

105 d for fixed or randomized values of cellular mechanical properties (diameter, shear elasticity, corti

106 ted in wafers with different microstructure, mechanical properties, disintegration time, and release

107 t decrements in bone micro-architectural and mechanical properties due to hindlimb unloading alone an

108 cations in exotic materials with specialized mechanical properties, efficient synthetic protocols to

109 o far, there is a lack of knowledge of their mechanical properties, especially toughness and strength

110 hydrogels demonstrated biocompatibility and mechanical properties for a possible long-term transplan

111 ffects of age on valve matrix components and mechanical properties for aortic and mitral valves have

112 to form an internal representation of their mechanical properties for cognitive perception and for p

113 To establish baseline mechanical properties, four Cu-Ta films were co-sputtere

114 rtilage explants (N = 10), and the resulting mechanical properties from both the creep and recovery p

115 ting biological particles by analyzing their mechanical properties has attracted increasing attention

116 However, unsatisfactory mechanical properties have limited the scope for wider a

117 ently engineered helix-heterotetramers whose mechanical properties have yet to be characterized.

118 versible thermogelling behavior, outstanding mechanical properties, high bioactivity, and switchable

119 operties such as ease of fabrication, higher mechanical properties, high thermal stability, and many

120 nges in USL microstructure and corresponding mechanical properties, however, are not fully understood

121 precipitate mineral carbonates with enhanced mechanical properties, however, understanding exactly ho

122 based mineralized structure with exceptional mechanical properties-immediately after ecdysis until th

123 htly packed assemblies that have spring-like mechanical properties in addition to a strong affinity f

124 ge to harnessing their exceptional intrinsic mechanical properties in bulk forms.

125 n strategy to expand the range of accessible mechanical properties in covalent adaptable networks (CA

126 s interest to utilize cellulose's intriguing mechanical properties in designing high-performance func

127 g indicated dramatically altered periodontal mechanical properties in Hyp versus WT mice.

128 uch as bone, can autonomously modulate their mechanical properties in response to external loading to

129 s of bone, a material system that adapts its mechanical properties in response to external mechanical

130 1 serves as a key factor involved in sensing mechanical properties in the tumour and can regulate bot

131 rization of mouse skeletal muscle and tendon mechanical properties in vivo using elastography thereby

132 ass transition temperature (T(g) ), superior mechanical properties including toughness and ductility,

133 embryonic stem cells (mESCs) display unique mechanical properties, including low cellular stiffness

134 the propensity for fiber formation and fiber mechanical properties, including the effect of polymer s

135 ls possessing a broader range of thermal and mechanical properties is accomplished by polymerising a

136 Production of objects with varied mechanical properties is challenging for current manufac

137 s reveal that this combination of beneficial mechanical properties is enabled by the local deformatio

138 The enhancement in mechanical properties is tied to an increase in the conf

139 In most cases, such mechanical property is strictly connected to the periodi

140 known that this process depends on the cell mechanical properties, it is still poorly understood due

141 nthetic structural materials have unchanging mechanical properties limiting their mechanical performa

142 their high ionic conductivity and desirable mechanical properties, many known sulfide solid electrol

143 esses polymer materials with a wide range of mechanical properties, moving VAM beyond the limitations

144 odeling that incorporates relevant continuum mechanical properties, multilayered envelope structure,

145 ioning, and the resulting position-dependent mechanical properties, must be included to reproduce sev

146 However, it remains difficult to measure the mechanical properties noninvasively.

147 egrees C to 0 degrees C on the structure and mechanical properties of 1,2-dipalmitoyl-sn-glycero-3-ph

148 lations to characterize the global and local mechanical properties of a DNA origami triangle nanostru

149 a piece of foreign material, depends on the mechanical properties of a larger object from which the

150 s to investigate, in vivo, physiological and mechanical properties of abnormal muscles.

151 neate the impact of metabolic disease on the mechanical properties of adipose tissue.

152 These data illustrate why the mechanical properties of anatomy, not just neural circui

153 Force volume AFM can precisely capture the mechanical properties of biological samples with force s

154 Mechanical properties of biological tissues and, above a

155 to obtain quantitative information about the mechanical properties of biomolecules such as chromatin

156 ture creates new opportunities to tailor the mechanical properties of CANs in ways that are otherwise

157 Together, our model describes how different mechanical properties of cells can contribute to the reg

158 that a location-dependent modulation of the mechanical properties of cells leads to robust axis exte

159 The mechanical properties of cells strongly regulate many ph

160 QD design to isolate and control the quantum mechanical properties of charge, spin, and light present

161 The structural and mechanical properties of chromatin inside the nucleus ar

162 surements, we demonstrate that the intrinsic mechanical properties of chromatin play a fundamental ro

163 An emerging challenge is to relate the mechanical properties of chromatin to more nuanced organ

164 The mechanical properties of collagen fibrils play an import

165 levels whether these bonds contribute to the mechanical properties of collagen.

166 oach provides the opportunity to explore the mechanical properties of complex tissues at the length s

167 As the elastic mechanical properties of cortical bone correlated with p

168 ntrosome to the apical membrane controls the mechanical properties of cortical RGPs, and consequently

169 etetraacetic acid (EDTA) on the chemical and mechanical properties of dentin to investigate the poten

170 have evaluated the architectural designs and mechanical properties of different tendons throughout th

171 lack of high-throughput tools to measure the mechanical properties of DNA has limited our understandi

172 The mechanical properties of extracellular vesicles (EVs) ar

173 gree of flexibility, highlighting the unique mechanical properties of glassy materials.

174 l synthesis, while the unique combination of mechanical properties of GO/Mfp films will be attractive

175 The exceptional mechanical properties of graphene enable the controlled,

176 t the extraordinary electronic, thermal, and mechanical properties of graphene.

177 Improvement in mechanical properties of healing MRL/MpJ vs C57Bl/6 tend

178 ncentration, providing parameters for tuning mechanical properties of high-entropy ceramics.

179 The results show that along with the mechanical properties of individual fibers, the fusion b

180 mergent meshwork whose topology dictates the mechanical properties of individual filaments.

181 s and distributions may be used to infer the mechanical properties of individual tRNA molecules.

182 changes in the cardiac ECM result in altered mechanical properties of ischemic or infarcted myocardia

183 obust Features)-based algorithm to study the mechanical properties of isolated nuclei and in living c

184 our MPT-SURF analysis to study the apparent mechanical properties of isolated nuclei from patients o

185 elops organelles to sense and respond to the mechanical properties of its surroundings.

186 easurements of the chemical compositions and mechanical properties of kerogen help understand the for

187 , including elastography, that evaluates the mechanical properties of liver or spleen tissue in conco

188 use first principles methods to compare the mechanical properties of lizardite Mg(3)(Si(2)O(5))(OH)(

189 xtracellular matrix accumulation and altered mechanical properties of lung tissue.

190 versatile and practical means of extracting mechanical properties of materials.

191 ons during plastic deformation influence the mechanical properties of materials.

192 ssing, providing a new avenue for tuning the mechanical properties of medium- and high-entropy alloys

193 es are a versatile tool for investigation of mechanical properties of meso- and nano-scale objects wi

194 process utilized in practice to enhance the mechanical properties of metals.

195 We sought to quantify the multiaxial mechanical properties of murine dissecting aneurysm samp

196 protocols that allow for the analysis of the mechanical properties of muscle and tendon tissues.

197 loring the chemical, optical, electronic, or mechanical properties of MXenes.

198 stry is an effective tool in controlling the mechanical properties of nanomaterials as a function of

199 Both altered mechanical properties of nuclei and abnormal nuclear mor

200 mpressive pressure by the actin cap, and the mechanical properties of nuclei govern their subsequent

201 he breathing strain and the evolution of the mechanical properties of poly(3,4-propylenedioxythiophen

202 es opens up new possibilities to improve the mechanical properties of polycrystals, as discussed.

203 We propose a method to examine the mechanical properties of proteins subject to applied for

204 dynamic interactions can be used to tune the mechanical properties of pultrusion-based fibers and the

205 e show that collagen V deficiency alters the mechanical properties of scar tissue, and altered recipr

206 ntribution of each hemicellulose type to the mechanical properties of secondary plant cell walls rema

207 nt at new methods for rapidly characterizing mechanical properties of single mammalian cells in a pop

208 stals, and polymers are used to engineer the mechanical properties of soft materials, with broad impl

209 nes: models that simulate the geometries and mechanical properties of soft tissue systems and multima

210 ults demonstrate dramatic differences in the mechanical properties of structurally homologous utrophi

211 synthesis method that significantly improves mechanical properties of sulfur-polymers and allows cont

212 Carbon nanotube fibers (CNTfs) combine the mechanical properties of suture materials with the condu

213 nown how the crosslinking contributes to the mechanical properties of tendon or whether crosslinking

214 Thus, changes in the mechanical properties of the acutely (softer) or chronic

215 However, the mechanical properties of the biological structural mater

216 We couple the geometrical and mechanical properties of the bistable Kresling pattern w

217 amplification mechanism and reveals that the mechanical properties of the BM and organ of Corti tune

218 ibers is a critical parameter for tuning the mechanical properties of the bulk material.

219 als could be an important determinant of the mechanical properties of the cell wall and of cellulose-

220 coiled phenotype is associated with specific mechanical properties of the cell walls that provide les

221 s delay, in combination with a change in the mechanical properties of the converging and extending ti

222 to matrix rigidity is controlled by internal mechanical properties of the cytoskeleton and puts forwa

223 external stimuli on the thermal and dynamic mechanical properties of the elastomers are investigated

224 s support adaptation to changes in visual or mechanical properties of the environment.

225 DMSO also alters the mechanical properties of the erythrocyte membrane in a c

226 ernal environment, and it is unclear how the mechanical properties of the feet affect balance.

227 Other mechanical properties of the glass-only-filled prototype

228 However, characterization of the mechanical properties of the healthy and injured CNS mye

229 content in the border zone and enhanced the mechanical properties of the injured area.

230 on the role of interfibrillar bonds and the mechanical properties of the interfibrillar matrix in th

231 the 3D fibrillar network and the optical and mechanical properties of the macroscopic matrices, we sh

232 f these structures significantly affects the mechanical properties of the material.

233 ngineered hydrogels, we demonstrate that the mechanical properties of the matrix regulate anomalous E

234 Here we describe an approach that considers mechanical properties of the membranes in the analysis o

235 al (internal/external) and chemical factors, mechanical properties of the membranes should be conside

236 and mineral (ceramic) phases, the intrinsic mechanical properties of the mineral phases are poorly u

237 The mechanical properties of the MN array were investigated

238 rovided in-depth insights into altered chemo-mechanical properties of the myosin motors that affect t

239 ng gelation kinetics of pre-gel solution and mechanical properties of the post-gel matrix.

240 As a compromise between water resistance and mechanical properties of the prepared films, the use of

241 Incorporation of the FA reduced the mechanical properties of the prototype and bisGMA/TEGDMA

242 We demonstrate that the mechanical properties of the resultant composite parts a

243 fect the reaction pathways and, thereby, the mechanical properties of the rock.

244 Both the chemical composition and the mechanical properties of the scar tissue have been impli

245 ling to investigate how deformation rate and mechanical properties of the shallow crust affect fault

246 ion process in connection with structure and mechanical properties of the spheroids from human somati

247 ows in a direction that is influenced by the mechanical properties of the stigma papillae and the org

248 nction in an indirect manner by altering the mechanical properties of the surrounding bilayer.

249 eleton, thus coupling cell metabolism to the mechanical properties of the surrounding tissue.

250 es can merge the functional, structural, and mechanical properties of the two components and are usef

251 ic radiation force to evaluate the localized mechanical properties of the underlying tissue.

252 We demonstrate that this model captures mechanical properties of the worm's body and accurately

253 a different shape, cells need to change the mechanical properties of their surface.

254 The mechanical properties of these bundles are critical for

255 d to the ultrastructural design and superior mechanical properties of these radular teeth, providing

256 aggrecan lead to the brush architecture and mechanical properties of this important component of car

257 n turn impair the biological nature and even mechanical properties of those systems.

258 onant ultrasound measurements to predict the mechanical properties of Ti-6Al-4V manufactured by selec

259 at, much like the cell-generated forces, the mechanical properties of tissues are modulated during de

260 ges with age is key to understanding why the mechanical properties of tissues change over a lifetime.

261 nding following the Hofmeister series on the mechanical properties of wet fibrillar networks, and lin

262 h is independent of the loading mode and the mechanical property of individual fibers.

263 Herein, we investigated the mechanical property of individual human telomeric G-quad

264 itosan films remarkably enhanced the desired mechanical property of the chitosan films.

265 The mechanical property of the Na-K alloy is confirmed by si

266 at capitalise on the different particle bond mechanical properties offered by different polymorphs.

267 the well-established dependence of cartilage mechanical properties on the frequency of the applied lo

268 ties for developing materials of exceptional mechanical properties or enhanced functional properties

269 of chemical identity, surface potential, and mechanical properties provide insight into the structure

270 c molecular dynamics simulation and the bulk mechanical properties, providing insight into how one co

271 DNA structures with various geometrical and mechanical properties, realizing intricate structures an

272 portant composites with enhanced thermal and mechanical properties rely on the reinforcement by the h

273 Alteration of membrane mechanical properties represents a potentially important

274 ects, enabling 3D printed polymer parts with mechanical properties similar to their bulk material cou

275 odel network hydrogels exhibit new levels of mechanical properties (storage modulus, bond lifetimes)

276 roteins(3) or nucleic acids(4)), and unusual mechanical properties (such as silk-like strength(3), st

277 iour of the Ln-MOF powder but also excellent mechanical properties, such as flexibility, elasticity,

278 the resulting variability in the chromatin's mechanical properties, suggesting that nucleosome spacin

279 le metals (BMs) as bone implants have better mechanical properties than biodegradable polymers, yet t

280 yielding unique electronic/photophysical or mechanical properties that can be exploited as optical p

281 d skin, and are critically important for the mechanical properties they endow.

282 mic-scale lattice distortion and macro-scale mechanical properties through experimental verification

283 Cells precisely control their mechanical properties to organize and differentiate into

284 and 10 per cent elongation, showing superior mechanical properties to those of ancient Damascus steel

285 We sought to characterize the lung mechanical properties underlying these two asthma phenot

286 is difficult to experimentally determine the mechanical properties using stress-strain data obtained

287 4)C(3)T(x), with their unique electronic and mechanical properties, using solid-state NMR spectroscop

288 changes in ESCRT-III filament structure and mechanical properties via exchange of the filament subun

289 ion of secreted ACLP to extracellular matrix mechanical properties, we generated and mechanically tes

290 vimentin is known to strongly influence cell-mechanical properties, we hypothesized that a flexible v

291 tion; however, no significant differences in mechanical properties were observed in the perpendicular

292 moc)-Asp exhibits the lowest CGC and highest mechanical properties when compared to a library of dipe

293 of incorporating regional variations in cell mechanical properties when estimating emergent stress fi

294 -based materials, including poor barrier and mechanical properties which frequently cause a shorter s

295 anding the effects of biofilm structural and mechanical properties, which can influence biofilm cohes

296 ttributed to the inherent variability in RBC mechanical properties, which is confirmed by a model tha

297 infrared absorption, surface potential, and mechanical properties with approximately 10 nm spatial r

298 e binding modes with significantly different mechanical properties, with one breaking at ~500 pN and

299 ally-invasive optical method to characterize mechanical properties within the interior of biological

300 lar biocompatibility, transparency, and good mechanical properties without the need for any post-cure