ライフサイエンスコーパス: self-healing

1 or, followed by a rapid structural recovery (self-healing).

2 ccount for the key chemical steps needed for self-healing.

3 gical muscles-strong, elastic and capable of self-healing.

4 imaged, showing rapid vacancy migration and self-healing.

5 ity transition that occurs during epithelial self-healing.

6 es a minimum essential stop signal to induce self-healing.

7 observed to be reversibly shear-thinning and self-healing.

8 rystalline periodicity and display efficient self-healing.

9 des with the lack of the important nature of self-healing.

10 ydrogels are shear-thinning, injectable, and self-healing.

11 ng from damage sensing to fully regenerative self-healing.

12 edance and cross-talk when eFASH is used for self-healing.

13 media and undergoes shear-thinning and rapid self-healing.

14 may even confer emergent properties such as self-healing.

15 operties (modulus and toughness) and dynamic self-healing.

16 dimensional metamolecules with an intriguing self-healing ability in a linearly polarized optical fie

17 f extremely stretchable hydrogels with rapid self-healing ability is described.

18 toughness, damping, fatigue resistance, and self-healing ability is required.

19 the top and bottom molecules, revealing the self-healing ability of the beta roll stack.

20 synthesis of a stiff material with intrinsic self-healing ability remains a key challenge.

21 hese thermoplastic elastomers show excellent self-healing ability under ambient conditions without an

22 bstrates and successfully demonstrated their self-healing ability.

23 This self-healing activity represents the simplest sequence-d

24 Hierarchical assembly of self-healing adhesive proteins creates strong and robust

25 ful properties to these hydrogels, including self-healing after deformation, microporous architecture

26 We observe self-healing after the obstructions, and assess crosstal

27 -curable resin and act as reservoirs for the self-healing agent.

28 Here we report a general self-healing and -assembly strategy based on a multiphas

29 rroelectric crystalline lattice that enables self-healing and a reprogrammable stiffness for dynamic

30 ve been recognized as essential in acute the self-healing and clearance mechanism, we highlight speci

31 materials exhibiting both high efficiency in self-healing and excellent mechanical properties at ambi

32 bility, high dielectric strength, autonomous self-healing and mechanical actuation.

33 by free-energy minimization, are inherently self-healing and provide opportunities for the developme

34 the recent progress made in light-controlled self-healing and shape memory polymers.

35 using light as a unique trigger for polymer self-healing and shape-memory are also discussed.

36 nks in transient polymer networks (TPNs) for self-healing and stimuli-responsive applications.

37 ties, as well as adaptive properties such as self-healing and temperature-responsive shape-memory pro

38 We show that the catalyst is self-healing and that phosphate is the crucial factor re

39 abilities, adhesion and sealing to surfaces, self-healing and the capability to undergo morphogenesis

40 recent advances using encapsulation, remote self-healing and the role of shape memory polymers.

41 ce the tendon fibrils' self-organization and self-healing and therefore contribute to toughness and s

42 pled reaction network, they are autonomously self-healing and they are highly adaptive to small chang

43 ed thiophene units, with the processability, self-healing, and alignment features inherent in nematic

44 coelasticity, stretchability, self-recovery, self-healing, and energy dissipation.

45 ions afford the formation of highly dynamic, self-healing, and mechanochromic nanocomposite materials

46 mblies, ionic interactions, chemo-mechanical self-healing, and shape memory polymers.

47 g properties such as stimuli-responsiveness, self-healing, and shape-memory.

48 t focuses on chemical reactions that lead to self-healing, and the primary classes are the covalent b

49 ability; iii) with electrical and mechanical self-healing; and iv) that can be printed.

50 esponsive polymeric materials for autonomous self-healing applications.

51 s to blood clotting and thereby be useful in self-healing applications.

52 In this study, a novel self-healing approach is investigated, in which fungi ar

53 The simplicity and effectiveness of this self-healing approach make it potentially applicable to

54 Two mechanisms of self-healing are identified: viscoelastic shape memory (

55 Immune surveillance, sensory detection, and self-healing are other critical functions of the skin.

56 Pressure sensitivity and mechanical self-healing are two vital functions of the human skin.

57 roperties such as stimuli-responsiveness and self-healing arising from their dynamic behaviour and th

58 rolled by internally generated fractures and self-healing, as well as unbinding and annihilation of o

59 in the polymer pores and facilitate polymer self-healing at a temperature>the hydrated polymer glass

60 ipation capability, but also facile complete self-healing at room temperature.

61 The equilibrium configuration and self-healing behavior can be further tuned by modifying

62 over, with the presence of calcium ions, the self-healing behavior can be significantly facilitated/e

63 for achieving materials capable of autonomic self-healing behavior in response to external forces.

64 the perovskite solar cells benefits from the self-healing behavior to recover its efficiency loss fro

65 atents from the 1950s that suggest that this self-healing behavior was likely obvious 60 years ago.

66 ion with a human body, and even to mimic the self-healing behavior with fast functionality recovery u

67 These materials exhibit self-healing behavior, can be injected through a syringe

68 respond to environmental stimuli or exhibit self-healing behavior.

69 thesis conditions, these materials exhibited self-healing behaviour.

70 mentally investigate the potential of using 'self-healing' Bessel-Gaussian beams carrying orbital-ang

71 se leishmaniasis, a disease that ranges from self-healing but scarring cutaneous lesions to fatal vis

72 s at various length scales capable of remote self-healing by physical and chemical responses will be

73 When L. major skin lesions of self-healing C57BL/6 mice reached their maximum size, th

74 ntists and engineers have been incorporating self-healing capabilities into synthetic materials.

75 nterphase with a high interfacial energy and self-healing capabilities, development of "anode-free" L

76 ith force sensing (e.g., mechanochromism) or self-healing capabilities.

77 oft glycine- and tyrosine-rich segments with self-healing capability and hard beta-sheet segments.

78 ular polymer networks, exhibiting remarkable self-healing capability at room temperature.

79 s demonstrate that natural skin's repeatable self-healing capability can be mimicked in conductive an

80 ess and toughness of nanocomposites with the self-healing capability of dynamic supramolecular assemb

81 These findings reveal a remarkable self-healing capability of peripheral nerves that are af

82 haviour supports the high stretchability and self-healing capability of the material.

83 stic simulations reveal that such remarkable self-healing capability stems from high density of coher

84 microencapsulation of proteins based on the self-healing capacity of poly (DL)-lactic-co-glycolic ac

85 and thermal protection of space vehicles to self-healing ceramic nanocomposites.

86 hat of MnOx electrodeposition elucidates the self-healing characteristics of these catalyst films.

87 Here, inspired by nature, we apply self-healing chemistry to silicon microparticle (SiMP) a

88 ects, reconfigurable antennas, soft sensors, self-healing circuits, and conformal electrodes.

89 al corrosion phenomena in damaged Zn(Mg, Al) self-healing coatings deposited on steel.

90 Our results reveal a unique route to build self-healing colloidal structures assembled from simple

91 A self-healing composite is fabricated by confining a supr

92 lithographic 3D printing of an extrinsically self-healing composite, comprised of commercial photocur

93 of stereolithographic printing to fabricate self-healing composites with user-defined structures, av

94 Latest-generation embedded sensors, self-healing composites, and nanoscale and responsive ma

95 applications, including the reinforcement of self-healing composites.

96 Langerhans cell histiocytosis with a benign, self-healing course.

97 the different clinical symptoms ranging from self-healing cutaneous leishmaniasis lesions to fatal vi

98 mptoms range from the more prevalent single, self-healing cutaneous lesion to a persistent, metastati

99 shmania cause human diseases that range from self-healing cutaneous lesions to fatal visceral leishma

100 ollective process of thermally activated and self-healing defect formation.

101 by L. panamensis strains from patients with self-healing disease and those presenting chronic diseas

102 l data for FDN probes are compared to single self-healing dye systems such as Cy5-Trolox, and as a pr

103 "Self-healing" dyes, in which triplet states are intramol

104 to this work is the electric field assisted self-healing (eFASH) of open faults.

105 sesterification to tune the malleability and self-healing efficiencies of bulk materials.

106 cally unfavorable leading the enhancement of self-healing efficiency of hydrophobic copolymers by a f

107 and tensile loads, and exhibit a remarkable self-healing efficiency.

108 /Si foam electrode is enabled by a conformal self-healing elastic polymer coating.

109 mportant to the excellent performance of the self-healing elastomer.

110 highest reported mechanical performance for self-healing elastomers at room temperature, with a tens

111 itable for applications in soft robotics and self-healing electronics(5-7).

112 ecent development of hydraulically amplified self-healing electrostatic (HASEL) actuators, a new clas

113 ing the Peano-HASEL (hydraulically amplified self-healing electrostatic) actuator as a model system.

114 ion method with or without gelatin or by the self-healing encapsulation method.

115 Active self-healing encapsulation of two antigens, ovalbumin an

116 ons such as stimuli-responsiveness, sensing, self-healing, environmental problems, and nano and bioma

117 sive but self-healing skin tumours (multiple self-healing epitheliomata).

118 , as a class of dynamic materials presenting self-healing features and, more generally, the ability t

119 Importing self-repair or self-healing features into inert materials is of great r

120 n be eliminated thanks to the deformable and self-healing features of liquid metals.

121 of thermoplastic elastomers and the dynamic self-healing features of supramolecular materials.

122 e aggregates, and CDN-dictated stiffness and self-healing functions of hydrogels.

123 er includes innovative anomaly detection and self-healing functions that improve the efficiency of da

124 A transparent, self-healing, highly stretchable ionic conductor is pres

125 1500% are developed, which can be used as a self-healing human-machine interactive touch pad with pr

126 They may also serve as an active payload for self-healing hydrogels or repair of biological tissue.

127 lications of such easy-to-synthesize, smart, self-healing hydrogels.

128 ations ranging from recyclable thermosets to self-healing hydrogels.

129 In this work we report the acceleration of self-healing in alternating/random hydrophobic acrylic-b

130 inked hydrogels can be engineered to exhibit self-healing in an aqueous environment.

131 Despite these advancements, achieving self-healing in permanently cross-linked hydrogels has r

132 van der Waals (vdW) forces which facilitate self-healing in relatively narrow copolymer compositiona

133 -functionalized polymer networks, biological self-healing in wet conditions, as occurs in self-assemb

134 omposite allows for both rapid and efficient self-healing (in only several minutes) at room temperatu

135 ne responses, which produce asymptomatic and self-healing infection, or appropriate treatment, intrac

136 to its fluidic nature, forms a defect-free, self-healing interface that eliminates the pinning of a

137 Self-healing is a capacity observed in most biological s

138 Self-healing is a natural process common to all living o

139 Self-healing is achieved with a dual-microcapsule system

140 , suggesting that the triggering of complete self-healing is enabled underwater by the formation of e

141 timum dispersion concentration for effective self-healing is identified.

142 e metamolecules, we found that the origin of self-healing is the inhomogeneous interparticle electrod

143 Self-healing is triggered by crack-induced rupture of th

144 repair damage spontaneously, which is termed self-healing, is an important survival feature in nature

145 a functionally stable OER catalyst owing to self-healing, is derived from MnOx redeposition that off

146 lymers have been synthesized, resulting in a self-healing material that combines the advantageous mec

147 ity analysis suggests that it is a promising self-healing material well-suited for biomedical applica

148 In this epoxy self-healing material, 150 um diameter microcapsules wit

149 ng route towards the design of strong, ideal self-healing materials able to self-repair repeatedly wi

150 his has been exploited in the development of self-healing materials and in applications such as drug

151 Self-healing materials are a very promising kind of mate

152 Self-healing materials can repair damage caused by mecha

153 Nanograined metals have been explored as self-healing materials due to point-defect recombination

154 e coating and size, researchers have created self-healing materials for improved sustainability and s

155 rug releasing biomedical device surfaces and self-healing materials for light harvesting applications

156 A major goal in the field of self-healing materials is to combine robust mechanical a

157 ers and may be useful for the development of self-healing materials or for the development of biocomp

158 Inspired by nature, self-healing materials represent the forefront of recent

159 Most approaches to self-healing materials require the input of external ene

160 The self-healing materials were manufactured in one step wit

161 Self-healing materials with the ability to partially or

162 ve been widely explored as reprocessable and self-healing materials, but their use as solid electroly

163 d properties for covalent materials, such as self-healing materials, covalent adaptable networks (CAN

164 namic covalent bond exchange for dynamic and self-healing materials, it remains a challenge to be abl

165 we demonstrate a bio-inspired new design for self-healing materials, where unit cells embedded in the

166 om energy storage/conversion to bioactive or self-healing materials.

167 change, makes diphenyl diselenides ideal for self-healing materials.

168 ich could be adapted for applications beyond self-healing materials.

169 nt, in contrast with the previously reported self-healing materials.

170 anging from sensing to molecular release and self-healing materials.

171 Self-healing may be realized if the catalysts are able t

172 This self-healing mechanism can be used to prepare antimicrob

173 Here, we systematically examine the self-healing mechanism in cyanine-class organic fluoroph

174 The type of self-healing mechanism is molecular weight dependent.

175 This unprecedented systematic self-healing mechanism, which enables these particles to

176 The concept may be applicable to other self-healing mechanisms involving reversible covalent bo

177 Since two autonomous self-healing mechanisms result from viscoelastic behavio

178 mposition, may utilize mechanically induced, self-healing mechanisms that allow the hole to be closed

179 nd natural photosystems exhibit a variety of self-healing mechanisms.

180 ising new class of materials for fabricating self-healing membranes.

181 Active self-healing microencapsulation of manufacturing process

182 loading conditions to provide optimal active self-healing microencapsulation of vaccine antigens in P

183 ally administered, which creates an array of self-healing microthermal zones (MTZs) in the skin.

184 A new self-healing multiphase polymer is developed in which a

185 athieu beams show high robustness and have a self-healing nature.

186 art discusses thermodynamic requirements for self-healing networks in the context of conformation cha

187 Self-healing of an electrical circuit is demonstrated wi

188 Rapid self-healing of conductivity, custom-designed LEDs with

189 Rapid self-healing of conductivity, customer-designed LEDs wit

190 Self-healing of covalently cross-linked polymers under a

191 ible electrodes enabled the demonstration of self-healing of damage caused by repeated mechanical def

192 sing assays and stimuli-responsive switching/self-healing of materials.

193 Although self-healing of microscopic defects has been demonstrate

194 PLGA microspheres resulted in suppression of self-healing of PLGA pores, which was then overcome by i

195 Self-healing of pores in Poly(lactic-co-glycolic acid)s

196 Finally, the self-healing of the infection in mice was correlated to

197 Carbonation of the bulk cement, self-healing of the leakage path in the cement specimen,

198 ternary complex cross-links allows for rapid self-healing of the materials after damage caused by def

199 e vacancies in the nearby bulk, resulting in self-healing of the radiation-induced damage.

200 s to produce tunably non-Gaussian, partially self-healing optical modes.

201 ly design supramolecular polymers capable of self-healing or reconfiguring their structure in a dynam

202 has been achieved in creating biodegradable, self-healing, or breathable, on-skin electronics.

203 t on the multivariate parameters critical to self-healing organic fluorophore design.

204 Self-healing organic fluorophores, wherein the triplet s

205 use two overlapping skin disorders: multiple self-healing palmoplantar carcinoma (MSPC) and familial

206 ted with L. panamensis strains isolated from self-healing patients (n = 4) and those presenting chron

207 ed in macrophages infected with strains from self-healing patients.

208 Our embodiments also show good self-healing performance and disuse of lead-containing m

209 ock copolymer, Pluronic F127, to fabricate a self-healing photosynthetic protein photoelectrochemical

210 Self-healing poly (ethylene co-methacrylic acid) ionomer

211 y a new strategy, whereby an in situ derived self-healing polymer matrix that penetrates the void spa

212 We also apply the model to the case of a self-healing polymer network reported in the literature,

213 The design of this self-healing polymer uses ion-dipole interactions as the

214 This self-healing polymer-beta-sheet peptide hybrid hydrogel

215 uid metal wires in microchannels composed of self-healing polymer.

216 e an excellent cycle life when coated with a self-healing polymer.

217 nd stiffest (J = 300 mN/tex, or E ~ 320 MPa) self-healing polymers able to repair under typical ambie

218 Self-healing polymers composed of microencapsulated heal

219 Self-healing polymers crosslinked by solely reversible b

220 eral and should enable development of tough, self-healing polymers of practical usage.

221 Recent developments in the field of self-healing polymers undeniably indicate that the main

222 a promising direction for the preparation of self-healing polymers with excellent mechanical properti

223 ent and non-covalent bonding chemistries for self-healing polymers, an ultimate goal is to create hig

224 In contrast to previous self-healing polymers, this new system spontaneously sel

225 h resembles the behavior of shape-memory and self-healing polymers.

226 outlines the recent advances in the field of self-healing polymers.

227 crylate-terminated polymers may be useful in self-healing polymers.

228 parable to the pristine strength of existing self-healing polymers.

229 ed on tissue engineering that leverage local self-healing potential may represent promising alternati

230 cs of the redeposition of the ion during the self-healing process has been derived.

231 lyst may be operated in acid by exploiting a self-healing process.

232 Evidence is offered of a "self-healing" process, where the broken Si-C bond can be

233 s substances to stimulate autoregulatory and self-healing processes.

234 uilibrium system in tandem with its inherent self-healing properties and triggered release functional

235 materials with intrinsic stretchability and self-healing properties are of great importance.

236 icles, which shows mechanical and electrical self-healing properties at ambient conditions.

237 -assembled hydrogels with shear-thinning and self-healing properties employing rationally engineered

238 enge to be able to tune the malleability and self-healing properties of bulk materials through simple

239 Experiments probing reversible adhesion or self-healing properties of bulk samples indicate that si

240 In this work, the self-healing properties of several disulfides, diselenid

241 t-guest interaction, and consequently in the self-healing properties of the corresponding gels, which

242 ity of the Diels-Alder reaction and turn the self-healing properties of the polymer "off" and "on", r

243 n is an element used for adding strength and self-healing properties to load-bearing materials.

244 protein hydrogel shows excellent repetitive self-healing properties without using any external stimu

245 nd that MoS2 monolayers on silicon oxide had self-healing properties, meaning that when the separated

246 that microtubules are ductile materials with self-healing properties, that their dynamics does not ex

247 ected acceleration profile and the intrinsic self-healing properties.

248 Ns, elastic organogels formed that exhibited self-healing properties.

249 oach covalently cross-linked gels as well as self-healing properties.

250 mussel byssal threads and proposed to endow self-healing properties.

251 olymer compositions can significantly impact self-healing properties.

252 ogels with suitable shear thinning and rapid self-healing properties.

253 impart synthetic organic fluorophores with 'self-healing' properties.

254 e protein hydrogel with excellent biomimetic self-healing property is presented.

255 The self-healing property of MoS2 is potentially applicable

256 We attribute the observed self-healing property to swelling of the pore-filling hy

257 for the material's mechanical toughness and self-healing property.

258 eversible, thereby additionally providing a "self-healing" property to the material.

259 The self-healing protein gel is made by inducing calcium ion

260 that earthquake ruptures may propagate in a self-healing pulse-like mode.

261 The self-healing reported here is rapid, occurring within se

262 Importantly, these arrays are robust, self-healing, reproducible and extremely easy to handle.

263 omplex cross-links, whereas facile and rapid self-healing requires a low energetic barrier to ternary

264 Self-healing (SH) chemicals such as diglycidyl ether or

265 3D printable self-healing shape memory polymer (SMP) microlattices co

266 onds may exhibit dynamic properties, such as self-healing, shape memory and environmental adaptation.

267 ovides it with powerful properties including self-healing, shape-memory properties, increased toughne

268 SE gene predisposes to multiple invasive but self-healing skin tumours (multiple self-healing epithel

269 lides behind a fast-moving rupture front, or self-healing slip pulses, where the fault relocks shortl

270 explain how earthquake ruptures propagate as self-healing slip pulses.

271 llenges, here we report a strategy to create self-healing, slippery liquid-infused porous surface(s)

272 Multiple self-healing squamous epithelioma (MSSE), also known as

273 Multiple self-healing squamous epithelioma (MSSE), also known as

274 Shear-thinning and self-healing steroid-drug-based hydrogels are presented,

275 resulting from their dynamic nature, such as self-healing, stimuli-responsiveness and adaptability.

276 controlled dual initiator systems and novel self-healing strategies and motifs.

277 This article describes the fabrication of self-healing stretchable wires formed by embedding liqui

278 sible exploit this design in order to create self-healing structural composites by using thin supramo

279 gn of next generation genetically engineered self-healing structural proteins.

280 e need to develop new modular, hierarchical, self-healing supramolecular architectures for solar fuel

281 that when swelled with methanol give rise to self-healing supramolecular gels.

282 Here, we report a self-healing system capable of autonomously repairing re

283 Albeit various intrinsic self-healing systems have been developed over the past f

284 mprove mechanical properties in a variety of self-healing systems.

285 strongly plasticized by water, lowering the self-healing temperature close to body temperature.

286 A self-healing thermo-reversible elastomer is synthesized

287 hydrogels are highly dynamic, adaptable, and self-healing, those derived from lipoic acid are rigid,

288 demonstrate solvent-welding based autonomous self-healing to afford 87% recovery of the initial criti

289 ssess a wide range of responses ranging from self-healing to mechanical work are continually emerging

290 or mitigating malicious attacks, and furnish self-healing to reconstruct failed infrastructure system

291 as 350% before failure and undergo efficient self-healing to recover >85% of their original toughness

292 hmaniasis causes a spectrum of diseases from self-healing to severe nonhealing lesions.

293 obial genes were preferentially expressed in self-healing tuberculoid lesions and mediated antimicrob

294 thane fibers and films capable of autonomous self-healing under ambient conditions.

295 Principles for designing self-healing water-splitting catalysts are presented tog

296 s) was not detected, implying that CuRhO2 is self-healing when air is present.

297 nder applied shear stress, followed by rapid self-healing when the stress is relaxed.

298 Epithelial monolayers undergo self-healing when wounded.

299 syringe and then reassemble within seconds (self-healing) when shear forces are removed.

300 ar bonds allows hydrogel injection and rapid self-healing, while gentle reaction conditions permit ce