ライフサイエンスコーパス: polymer

1 let accumulation of HA, a highly hygroscopic polymer.

2 of Poly(3,4-ethylenedioxythiophene) (PEDOT) polymer.

3 third ever case for a scsc synthesis of a 2D polymer.

4 peptide (ELP), an uncharged thermoresponsive polymer.

5 acceptor, PDI-V, a perylenediimide-vinylene polymer.

6 and biocompatible poly(epsilon-caprolactone) polymer.

7 age of the bacterial peptidoglycan cell-wall polymer.

8 with gum arabic as it also act as a co-wall polymer.

9 e pristine strength of existing self-healing polymers.

10 elivered to a greater extent than long-chain polymers.

11 chain dimensions and physical properties of polymers.

12 at problematic in the formation of synthetic polymers.

13 and insoluble branched ethylene-oxide-based polymers.

14 the degradation of recalcitrant carbohydrate polymers.

15 ride taylorgrams, including non-UV absorbing polymers.

16 3D network within high-concentration protein polymers.

17 chromatin modulate the properties of longer polymers.

18 cluding metals, metal oxides, and conductive polymers.

19 stem as consisting of three different linear polymers.

20 nd charge-transport properties of conjugated polymers.

21 thod to induce memory behavior in conjugated polymers.

22 gineering of stress-responsive properties of polymers.

23 tigated by (13)C NMR of isotopically labeled polymers.

24 ive linkers released BENSpm from the DSS-BEN polymers.

25 membrane is not sufficient to remove all PAH polymers.

26 strategy to high performance semiconducting polymers.

27 pping to be conducted for specific cell wall polymers.

28 rs to analyze the topology of arbitrary (bio)polymers.

29 ion between the two interpenetrating charged polymers.

30 ant-containing heterodimers into microtubule polymers.

31 tructure, and luminescence properties of the polymers.

32 a strategy to synthesize a high-performance polymer acceptor PZ1 by embedding an acceptor-donor-acce

33 A new polymer acceptor, naphthodiperylenetetraimide-vinylene (

34 recent developments in inorganic materials; polymer adsorbents and related research pertaining to am

35 to neat PEI films and other high-temperature polymer and nanocomposite dielectrics.

36 Confined mixtures of a polymer and nonspecifically binding particles (condenser

37 f LHGs, different types of amphiphiles (both polymer and small-molecule surfactants) were guided to f

38 Both the precursor polymer and the SCNPs can be well ionized via ESI MS, an

39 of NMR to distinguish between free and bound polymer and to characterize the degree to which the segm

40 d upon exposure of plasma to certain anionic polymers and artificial surfaces.

41 F-MS) was used for the analysis of synthetic polymers and fibers.

42 n of the outer layers thereby exposing xylan polymers and increasing the extractability of arabinans,

43 o alpha-branched compounds as precursors for polymers and other chemicals.

44 Fabricated solely from polymers and polymer composites, these flexible probes m

45 e cargo movement without the requirement for polymers and suggest a segregation mechanism by which Pa

46 rating high-performance ambipolar conjugated polymers and unipolar small molecules as the transport l

47 for viruses containing double-stranded DNA (polymer) and condensing proteins (particles).

48 to form multiple layers, each of a distinct polymer, and of controlled layer thickness.

49 as metal-organic frameworks, porous-organic polymers, and mesoporous carbons.

50 ongeners were quantified in the two sampling polymers, and the results confirmed the good precision o

51 ing and predictions of these surface-grafted polymer architectures.

52 ch the segments of the nanoparticle-wrapping polymer are mobile (loops and tails) versus immobile (tr

53 ture photodetectors encapsulated in an ionic polymer are reported, which are uniquely able to operate

54 rates can be accessed in scenarios in which polymers are allowed to diffuse back into the mesophyll.

55 Self-immolative polymers are distinctive materials able to disassemble i

56 with previous in vitro studies, E46K alphaS polymers are likely distinct aggregated conformers that

57 Porous conductive polymers are one of important materials, featuring light

58 These atactic polymers are produced from racemic propylene oxide using

59 HA polymers are rationally designed from relatively low-mol

60 Purified CA polymers are sufficient to promote longevity via ATFS-1,

61 mals, the most abundant of the proteinaceous polymers are the collagens, which constitute the fibrous

62 In both environments, complex organic polymers are used as sources of nutrients.

63 Electrochemically active polymers are widely used in (opto)electronic application

64 (3-thiophene acetic acid) (P3), a conjugated polymer as an immobilization matrix.

65 he high percentage of the crosslinker in the polymers, as detected by solid-state (13) C NMR spectros

66 cles have significantly advanced the area of polymer assembly.

67 there are multiple problems associated with polymer based approaches: The polymer makes up a majorit

68 s, we optimized the production of a low-cost polymer based microarray and tested its analytical perfo

69 e aim of this study was to find a conducting polymer-based solid contact (SC) for ion-selective elect

70 This self-healing polymer-beta-sheet peptide hybrid hydrogel with tailorab

71 ng inorganic nanoparticles within a flexible polymer binder matrix, the rationally designed artificia

72 could also include other disciplines such as polymers, biological, catalytic, and forensic sciences w

73 elastomers, hydrogels, functional polymers, polymer blends, composites, and biological systems.

74 c nanoparticle as a sensor to understand the polymer brush formation is applicable to investigating t

75 he chemical and physical characterization of polymer brushes, as well as an ever increasing set of co

76 helical conformation is engineered into the polymers by preinstalling the beta configuration of the

77 which culminate in disassembly of ESCRT-III polymers by the AAA ATPase Vps4.

78 repolymers were turned into thermoresponsive polymers by thiol-ene modification to introduce pendant

79 vated depots of insulin without the need for polymers, by linking photolysis to an isoelectric point

80 The dynamic polymer can reversibly switch between its "liquid" and "

81 ults show that sequence control in synthetic polymers can have a dramatic impact on polymer propertie

82 In this work, a polymer-catechol conjugate containing a superhydrophilic

83 A series of cyclobutane-containing polymers (CBPs), namely poly-alpha-truxillates, were obt

84 3EHT exhibits a rather broad distribution in polymer chain conformation due to the strong steric hind

85 The polymer chain is terminated by a beta-linked Kdo (3-deox

86 lecules tend to break hydrogen bonds between polymer chains and form new hydrogen bond bridges betwee

87 ogenation cross-linking reactions within the polymer chains leads to the unexpected formation of poro

88 Hydrogels are formed from hydrophilic polymer chains surrounded by a water-rich environment.

89 favored because the Gnd(+) cross-linked the polymer chains together.

90 tin can have tightly packed organizations of polymer chains with low hydration levels, giving rise to

91 d form new hydrogen bond bridges between the polymer chains, while above 10% MC, water molecules aggr

92 in density when monomers covalently join in polymer chains.

93 n efficient n-type dopant for the conjugated polymer ClBDPPV.

94 ule array patterns with differing degrees of polymer coalignment and orientation to the cell's growth

95 The polymer coat was designed to protect the particles from

96 These results suggest that the polymer coated CaO2 NP formulation offers significant po

97 The oxygen generating capability of the polymer coated NPs was demonstrated in aqueous solution

98 a drug-eluting stent with a fully absorbable polymer coating containing and embedding a microcrystall

99 Overall, this study shows that polymer coating of decellularized vessels provides a new

100 The polymer coating serves two purposes: to concentrate hydr

101 form analogous particles with surfactant and polymer coatings in both catalysis and surface-enhanced

102 ological systems, we report a supramolecular polymer-colloidal hydrogel (SPCH) composed of 98 wt % wa

103 To this liquid is added the third polymer component, which represents the short-chain alco

104 nt has long been studied to understand how a polymer composed of a single protein can switch between

105 find that SFM4-3 can efficiently synthesize polymers composed of these nucleotides, and most interes

106 Fabricated solely from polymers and polymer composites, these flexible probes minimized tiss

107 Structure determining parameters include polymer composition and concentration, temperature, and

108 ries followed by the identification of their polymer composition using micro-Raman spectroscopy.

109 The polymer composition varied among the size classes.

110 lecule calcein co-incubated with the protein-polymer conjugate increased only 5-fold.

111 ated using well-defined full-length antibody-polymer conjugates (APCs).

112 way of increasing protein permeability via a polymer conjugation process that co-localizes permeation

113 Suberin lamellae are glycerolipid polymers covering the endodermal cells and likely functi

114 eate an unusual one-dimensional coordination polymer (CP), 3, prepared from S = 1/2 Co(TPP), 1 (TPP =

115 copper(II) benzenehexathiolate coordination polymer (Cu-BHT) has been prepared.

116 e preparation of various materials including polymers, dendrimers, and other macromolecules.

117 ch as complexes and multilayers from charged polymers depends on (inter)diffusion of these polyelectr

118 Casparian strips are ring-like lignin polymers deposited in the middle of anticlinal cell wall

119 multivariate analysis using composition and polymer descriptors yielded a strong correlation (r(2)=0

120 Aspects of polymer design, additives, and processing parameters as

121 e, for the first time, a backbone-degradable polymer directly synthesized via CVD.

122 obe of lanthanide-coordinated semiconducting polymer dots (Pdots), which possess fluorescence and mas

123 The metabolism of carbohydrate polymers drives microbial diversity in the human gut mic

124 To improve therapeutic efficacy, polymer drug conjugates carrying synergistic pairs of ch

125 ized a new SMART analogue, SMART-OH, and its polymer-drug conjugate, methoxy-poly (ethylene glycol)-b

126 ing reveal extensive degradation of the wood polymers during the eight year period since conservation

127 internal friction, and theoretical models of polymer dynamics provide a framework for interrelating t

128 idity for both conjugated and non-conjugated polymers, e.g. poly(9,9-di-n-octylfluorene-alt-benzothia

129 on nanotube electrodes, graphite electrodes, polymer electrodes and metals).

130 This insight can be invoked to design polymer electrodes with kinetic selectivity toward redox

131 m electrode modified with a droplet of a gel-polymer electrolyte (GPE) was immersed directly into sam

132 Polymer electrolyte membrane fuel cells (PEMFCs) running

133 lecules, structure prediction, properties of polymers, entanglement in fluids and fields, etc.

134 low emission has been achieved from the F8BT polymer filled and aligned along the periodic nano-chann

135 f shift current photovoltaics, ferroelectric polymer films and single-layer orthorhombic monochalcoge

136 ormation of air-processable and high-quality polymer films on an aqueous substrate.

137 (hexyloxy)cyanoterephthalylidene) conjugated polymer films.

138 systems is greatly amplified by those of the polymer-fluid interface; and of the structure and functi

139 opropylacrylamide), a thermoresponsive model polymer for proteins at solid-liquid interfaces.

140 e to traditional medical stainless steel and polymer for the clinical application.

141 that relies on using photoresists, typically polymer formulations, that change solubility when illumi

142 Here, a polymer-free clean transfer of sub-centimeter-sized grap

143 jectories of loci located on the constructed polymers from 5C data, we found a large variability of t

144 olyMOC network is composed of tetra-arm star polymers functionalized with ligands on the chain ends,

145 ds of micrometers are typically derived from polymers, gel spun fibers, modified carbon fibers, carbo

146 nct clusters on the surface, (Cu) m ,(Ag) n |polymer|glassy carbon electrode (GCE), as shown by X-ray

147 The created polymer-GNR intraribbon heterostructures have a type-I e

148 tum dots embedded silica molecular imprinted polymer (GQDs-embedded SMIP) was synthesized and used as

149 self-assembly of nanoparticle vesicles from polymer-grafted colloids, and the closely related field

150 genous cross-linkers, and blending synthetic polymers has all been applied to form more mechanically

151 We developed core shell lipid-polymer hybrid nanoparticles (CSLPHNPs) with poly (lacti

152 close to the glass transition temperature of polymer (i.e., 217 degrees C) where pristine PEI almost

153 behind one of the most abundant lipid-based polymers in nature.

154 cumulation of environmentally derived chitin polymers in the airways and expression of pro-fibrotic c

155 thers, degradation of side-chain fluorinated polymers in the environment and landfills can be a long-

156 response to the physical arrangement of the polymers in the substrate and refer to the directed move

157 y classifying and analyzing >30 coordination polymers incorporating this polyoxometalate (POM) ligand

158 ations of a polymeric shell and cross-linked polymer interior.

159 ical polymerization, yielding a well-defined polymer-iodide.

160 enhanced when the energetic disorder of the polymer is minimized.

161 ntrolling the primary structure of synthetic polymers is itself a great challenge, the potential of s

162 e-carrier mobility of organic semiconducting polymers is known to be enhanced when the energetic diso

163 applications utilizing natural carbohydrate polymers is rooted in the fact that naturally occurring

164 ion, after clean up on molecularly imprinted polymers, is herein described.

165 on ester and tertiary amine groups, the bulk polymer itself is elastomeric and hydrophobic while its

166 Recently, chemically robust heptazine-based polymers known as graphitic carbon nitrides (g-C3N4) hav

167 Nanoparticles are frequently modified with polymer layers to control their physical and chemical pr

168 d about the morphology and dynamics of these polymer layers.

169 itable for synthesizing insoluble conductive polymers, layers with high densities of organic function

170 dable NPs consisting of synthetic or natural polymers, liposomes, and virus-like particles as well as

171 eptor-donor-acceptor building block into the polymer main chain.

172 ssociated with polymer based approaches: The polymer makes up a majority of the material, making it i

173 widely used in chemical, pharmaceutical, and polymer manufacturing.

174 olled release in vitro, indicated by similar polymer mass loss kinetics, but only one of the formulat

175 on of functional oxide materials in flexible polymer materials has proven an effective way to achieve

176 nct dispersion and assembly behaviors within polymer matrices due to the entropy variation associated

177 eraction with imprints that can be made into polymer matrices to mimic biological systems at a molecu

178 incorporation of metal nanoparticles into a polymer matrix can effectively increase the specific sur

179 Polymer nanocomposites-materials in which a polymer matrix is blended with nanoparticles (or fillers

180 owed that silica particles were dispersed in polymer matrix uniformly.

181 (P-SICM) for ion-conductance measurement in polymer membranes and epithelial cell monolayers at disc

182 owledge, this is the first report for p-type polymer memory achieved using n-type charge-transfer dop

183 ning iron-oxide nanoparticles connected by a polymer mesh.

184 efined thin interlayer, composed of either a polymer, metal, or even atomically thin graphene, betwee

185 new ground on the controlled preparation of polymer micro and nanostructures.

186 taining coacervate microdroplets and protein-polymer microcapsules (proteinosomes) that interact via

187 he physical surface properties of conducting polymer microcups can be precisely modulated to control

188 The biocompatible polymer microneedle was fabricated at 60 degrees C.

189 ason behind reported long retention times of polymer microparticles in organisms.

190 of Treg inducing factors through degradable polymer microspheres (TRI microspheres; TGF-beta1, Rapam

191 s study was to prepare molecularly imprinted polymers (MIPs) with ampicillin (AMP) and to evaluate th

192 A novel magnetic molecularly imprinted polymer (MMIP) for the preconcentration of melamine, a n

193 that combines magnetic molecularly imprinted polymer (MMIP)-based sample preparation with surface-enh

194 s that could be obtained by increasing doped polymer mobilities.

195 tive, fast, sensitive and specific imprinted polymer modified electrochemical sensor for the targeted

196 eans of molecular imprinting of a conducting polymer, molecular cavities selective for oxytocin nonap

197 The polymer mounts were prepared in batches of 49 in 1 h 15

198 Two new studies report that FtsZ polymers move around the ring by treadmilling, which gui

199 oduced silicon chip coated with a functional polymer named copoly(DMA-NAS-MAPS) to the simultaneous d

200 tanding the dielectric breakdown behavior of polymer nanocomposites is crucial to the design of high-

201 Polymer nanocomposites-materials in which a polymer matr

202 requirements for nasal dosage forms and the polymer nanoparticles alone were found to be biocompatib

203 , we summarize the key aspects of conjugated polymer nanoparticles optical properties and phenomena,

204 e report a beta-cyclodextrin (beta-CD)-based polymer network with higher affinity for PFOA compared t

205 describe the construction of supramolecular polymer networks through an in situ copolymerization of

206 ocal micrographs of percolating pores in the polymer, not previously observed in vitro.

207 We report an ultrapermeable polymer of intrinsic microporosity (PIM-TMN-Trip) that i

208 internal friction effects are important for polymers of modest length.

209 ld enable development of tough, self-healing polymers of practical usage.

210 During bacterial division, polymers of the tubulin-like GTPase FtsZ assemble at mid

211 Homologous and heterologous cross-linked polymers of whey protein isolate (WPI), soy protein isol

212 ity and macroporosity characteristics of the polymer on the TPB.

213 Unlike classical covalent polymers, one-dimensionally (1D) elongated supramolecula

214 ity of the nanocarriers consists of either a polymer or a lipid component along with other excipients

215 The polymer P3 contains a lot of carboxylic acid groups on i

216 The all-PSCs with the wide-band-gap polymer PBDB-T as donor and PZ1 as acceptor showed a rec

217 he OSCs with DF-PCIC as the acceptor and the polymer PBDB-T as the donor yield the best power convers

218 nic frameworks (MOFs) or porous coordination polymers (PCPs) are open, crystalline supramolecular coo

219 epared by electropolymerization a conductive polymer poly-(aniline-co-3-aminobenzoic acid) (PANABA) t

220 ns in oligomers of the ubiquitous conjugated polymers poly(3-hexylthiophene) (P3HT), poly(2-methoxy-5

221 of DNA condensed by a blend of biodegradable polymer, poly(beta-amino ester) (PBAE), with PBAE conjug

222 hermosets, elastomers, hydrogels, functional polymers, polymer blends, composites, and biological sys

223 constructed from an electrically conductive polymer, polypyrrole.

224 SIMS molecular depth profiling of structured polymers (polystyrene (PS)-b-polymethyl methacrylate (PM

225 ly stage was investigated on twenty types of polymers (positively charged, negatively charged, or neu

226 Polylactide (PLA) is the leading bioderived polymer produced commercially by the metal-catalyzed rin

227 hetic polymers can have a dramatic impact on polymer properties and self-assembly.

228 ter, can be produced by varying the lipid-to-polymer ratio.

229 ingly, colonization experiments on the eight polymers revealed a large core of shared microbial taxa,

230 nhance the release rate of eluting drug from polymer-rich structures.

231 In tissue engineering, autofluorescence of polymer scaffolds often lowers the image contrast, makin

232 These polymers self-assemble into 28+/-5 nm micelles in water.

233 livery system using silk-elastinlike protein polymers (SELPs).

234 In synthetic polymer sequences, this precision has been limited becau

235 s of RG and RE combined with measurements of polymer shapes should provide a consistent and complete

236 Both TA polymers share a common precursor synthesis pathway, but

237 me detection of biomolecular binding-induced polymer shrinkage in soft matter.

238 tinct from average spatial distance, both in polymer simulations and in experimental data.

239 Both monomer and polymer single crystals are analyzed by X-ray diffractio

240 f polycyclic main chain, serves as a grafted polymer skin on the Li metal anode not only to incorpora

241 inylene units is designed and applied in all-polymer solar cells (all-PSCs).

242 (SICA) effect at the interfaces of transient polymer solids and liquid solutions.

243 The processing solvent and polymer-solvent interactions are important to achieve mo

244 -dimensionally (1D) elongated supramolecular polymers (SPs) can be encoded with high degrees of inter

245 EM) can be used to image nanoscale lipid and polymer-stabilized perfluorocarbon gas bubbles before an

246 We used polymer statistics to estimate a global KD value for p53

247 n-inferior to the everolimus-eluting durable polymer stent for a device-oriented composite clinical e

248 ETATION: The sirolimus-eluting bioabsorbable polymer stent was non-inferior to the everolimus-eluting

249 with L = benzene bis-1,4-isonitrile to form polymer strands.

250 The miniaturized HEMT chip is packaged in a polymer substrate and easily integrated with a portable

251 or bioresorbable conductors on bioresorbable polymer substrates by evaporation-condensation-mediated

252 er, the anion helped partition Gnd(+) to the polymer surface.

253 ated conditions, they are not immobilised on polymer surfaces.

254 e the macroscale consequences of amphiphilic polymer synthesis and the resulting molecular self-assem

255 rials remains one of the great challenges in polymer synthesis.

256 f polymerization techniques for conventional polymer synthesis.

257 work is a major advance for the field of 2D polymers synthesized at the air/water interface as it, i

258 lar compounds (TPC), and triglyceride dimers-polymers (TGDP), among others) and e-nose based odor ind

259 a mechanochemically responsive nonconjugated polymer that converts to a conjugated polymer via an ext

260 to discover the active principles of the TA polymers that interact with the innate immune system.

261 nsition by designing smart, cell-penetrating polymers that undergo acid-activated endosomal escape in

262 By adjusting the viscosity of the polymer, the orientation change of LSPR may respond to a

263 omers to form single-crystalline packings of polymers, threads, and higher dimensional carbon network

264 e ability to direct solution conformation of polymers through monomer design.

265 PNA) and the in situ growth of electroactive polymers through the surface-initiated electrochemically

266 Polyladderane, the first polymer to contain the ladderane functional group, was s

267 PDLLCL is a suitable polymer to create an artificial islet transplantation si

268 cycloaddition reaction via a 1D coordination polymer to generate a pyridyl-functionalized cyclobutane

269 mide (PAm) hydrogel have been chosen as soft polymers to be moulded.

270 The use of dithiolane-containing polymers to construct responsive and dynamic networks is

271 it this feature by using stimulus responsive polymers to introduce a paradigm for creating actively d

272 The application of these polymers to the cryopreservation of donor cells is also

273 lectropolymerized layer of PPy, a conducting polymer, to immobilize the PNA probes.

274 The range of polymer types, colours and physical forms recovered sugg

275 Thermo-responsive polymers undergo a reversible coil-to-globule transition

276 The range of polymers used in AM encompasses thermoplastics, thermose

277 ycyclic aromatic hydrocarbon embedded ladder polymers using a palladium catalyzed cyclopentannulation

278 eveloped to characterize complex mixtures of polymers using infrared multiphoton decay (IRMPD) and el

279 g chemical reaction are used to synthesize a polymer vesicle from a homogeneous solution of monomeric

280 ugated polymer that converts to a conjugated polymer via an extensive rearrangement of the macromolec

281 d with Glaser coupling to fabricate covalent polymers via a cascade process.

282 of the density and distribution of grafts in polymers via living ring-opening metathesis polymerizati

283 ecular weight distribution (MWD) of Hf-bound polymers via UV-GPC analysis.

284 The synthesized imprinted polymer was characterized by Fourier transform infrared

285 While resistance to the BCN polymers was developed only very slowly over multiple pa

286 nce of (pseudo)halide functionalities in the polymers was proved by elemental analysis, IR, and NMR s

287 DNA-nanocapsule loaded with photoresponsive polymers, we show cytosolic delivery of small molecules

288 The obtained polymers were able to amplify the intensity and the dura

289 chain-end N3, the obtained linear and brush polymers were connected to functional molecules via an a

290 The polymers were demonstrated as chemiluminescence probes f

291 Overall, 18 different polymers were detected.

292 The polymers were subjected to cyclodehydrogenation with FeC

293 We focus here on microporous polymers which are solution-processable, can be produced

294 sis of amide-linked saccharide oligomers and polymers, which are predisposed to fold into specific or

295 class of stimuli-responsive self-immolative polymers with amplified chemiluminescence output.

296 ance and the sequential release of cell wall polymers with specific combinations of enzymes led to a

297 hodology may pave an avenue for constructing polymers with tailored sequences that are associated wit

298 ation with FeCl3 to access rigid ladder type polymers with the conversion investigated by (13)C NMR o

299 porous, two-dimensional or three-dimensional polymers with tunable topology and functionality.

300 its differences in the bond stabilities of a polymer, yielding connectivity and sequence information.