ライフサイエンスコーパス: chemical property

1 a process that can alter their physical and chemical properties.

2 equence adaptations tune the motor's mechano-chemical properties.

3 ilability of a large variety of spectral and chemical properties.

4 ak dependence of their positions on physical-chemical properties.

5 aterials with tunable thermal, physical, and chemical properties.

6 ation and to understand their structural and chemical properties.

7 erference based on molecular descriptors and chemical properties.

8 inhalation intake for compounds with certain chemical properties.

9 ntrations, which may be due to their physico-chemical properties.

10 rmatics workflow for generating libraries of chemical properties.

11 iety of polymers with different physical and chemical properties.

12 stry because of their excellent physical and chemical properties.

13 x and its spectroscopic characterization and chemical properties.

14 ehind the degeneration of their physical and chemical properties.

15 role of unsaturations on their physical and chemical properties.

16 e to investigate their effect on its physico-chemical properties.

17 carbon isostere because of the similarity in chemical properties.

18 heir potential to exhibit novel physical and chemical properties.

19 erent linkage compositions, size and physico-chemical properties.

20 tain a better understanding of their surface chemical properties.

21 ar-red dyes with promising spectroscopic and chemical properties.

22 alizing exceptional mechanical, physical and chemical properties.

23 nic structures, and fascinating physical and chemical properties.

24 evels of spatial control over mechanical and chemical properties.

25 computed to examine the differences in their chemical properties.

26 compounds with a wide range of physical and chemical properties.

27 components and possess diverse physical and chemical properties.

28 artially buried group with perturbed physico-chemical properties.

29 formation to achieve optimized physical and chemical properties.

30 rmacological functions of 5-HT linked to its chemical properties.

31 the catalytic mechanism beyond their primary chemical properties.

32 ccess to molecules with unique electronic or chemical properties.

33 well as its therapeutic, pharmacological and chemical properties.

34 nisotropic and even directional physical and chemical properties.

35 pids for desirable biological, physical, and chemical properties.

36 tion status groups did not modify basic wine chemical properties.

37 spectrum of methods to assess their physico-chemical properties.

38 d helical secondary structure and remarkable chemical properties.

39 in K segments led to changes in amino acids chemical properties.

40 y relationship, introducing diverse physical-chemical properties.

41 tine-which also targets 2C-but has favorable chemical properties.

42 s generate candidate structures with desired chemical properties.

43 tals and highlight their unique physical and chemical properties.

44 information on their structure nor physical chemical properties.

45 pples were compared in terms of physical and chemical properties.

46 ained in the flue gas independently of their chemical properties.

47 tributes, according to a compound's physical-chemical properties.

48 pseudocritical behavior of membrane physical-chemical properties.

49 ex architectures and unusual chiroptical and chemical properties.

50 exacerbate unwanted changes in physical and chemical properties.

51 ixtures due to their adjustable physical and chemical properties.

52 such that it assembles according to desired chemical properties.

53 tobacco smoke in terms of their physical and chemical properties.

54 d provides important new insights into their chemical properties.

55 es, the unique size control without altering chemical properties afforded by this approach is able to

56 d polymer, the weight fraction, and physical-chemical properties, allowing rapid estimation of y(0) a

57 However, Cu's chemical properties also make it toxic, requiring specif

58 novel molecules along manifolds, defined by chemical property analogues, positions DarkChem as highl

59 Combining superior physical and chemical properties and a high dielectric-fluidity facto

60 anding of their observed unique physical and chemical properties and a new paradigm for understanding

61 c pharmacokinetic model, we investigated how chemical properties and anthropometric parameters intera

62 The chemical properties and biological mechanisms of RNAs ar

63 better understand the influence of physical-chemical properties and biotransformation on bioaccumula

64 ering in materials alters their physical and chemical properties and can subsequently affect their pe

65 In this Review, we discuss the chemical properties and design of effective reagents for

66 ement to commercial bulk PTFE with regard to chemical properties and dielectric dissipation factors.

67 s in synthesis as a result of their inherent chemical properties and established reactivity patterns.

68 ion potential, according to its physical and chemical properties and exploratory experimentation.

69 The physico-chemical properties and functional role of these intrace

70 ntaining extended side chains with different chemical properties and glycine-based variants, were als

71 have the potential to profoundly affect the chemical properties and hence the function of RNA molecu

72 The effect of frozen storage on the chemical properties and ingredient functionalities of Le

73 provides a great variability in its physical-chemical properties and is a basis for its broad success

74 ain control over their size, morphology, and chemical properties and is key toward some of their appl

75 e the importance of vegetation, soil physico-chemical properties and microbial parameters for Q(10) r

76 materials with extremely unique physical and chemical properties and physiological ability to interfe

77 s were evaluated for their photophysical and chemical properties and PSMA affinity.

78 Leveraging features of DASA's chemical properties and solvent-dependent reaction kinet

79 was analysed and compared in terms of yield, chemical properties and structure.

80 bute to chromatin accessibility due to their chemical properties and their ability to recruit enzymes

81 the hydropathy index, Van der Waals volume, chemical property and occurrence frequency of amino acid

82 study, analytical power capable of examining chemical properties, and single-molecule sensitivity.

83 ertilization and irrigation on soil physical-chemical properties, and the growth, yield and quality o

84 cluding antibiotics classification, physical-chemical properties, and their occurrence in the environ

85 the 'matrixome' in the development, physical-chemical properties, and virulence of biofilms.

86 results suggest that commonly used physical-chemical properties are not systematically represented i

87 Despite their growing relevance, their chemical properties are poorly understood.

88 in live cells, and therefore, their physico-chemical properties are still poorly understood.

89 sual combination of optical, electronic, and chemical properties, arising from the strong host-guest

90 ch cause several alterations of physical and chemical properties as well as microstructure changes.

91 rs were studied regarding their physical and chemical properties, as well as the presence of mycotoxi

92 instead that feature enhanced electronic and chemical properties at a reduced cost.

93 s, ligand exchange can be used to tailor the chemical properties at the pores that provide access to

94 ring invertebrate diversity and soil physico-chemical properties between non-native Pinus radiata pla

95 polymer layers to control their physical and chemical properties, but little is understood about the

96 Using physico-chemical properties calculated by ab initio density func

97 hlight that these processes as well as other chemical properties can be drastically altered by modify

98 e materials composing the implants nor their chemical properties can explain triggering of the FBR.

99 evaluated for their influence on oil yield, chemical properties, carotenoid and chlorophyll contents

100 much attention due to their atypical physico-chemical properties compared to organic molecules.

101 n nanocomposites possess attractive physical-chemical properties compared to their macroscopic counte

102 sses feature unique thermal, structural, and chemical properties compared to traditional metallic, or

103 es in Stradivari violins have very different chemical properties compared with their modern counterpa

104 s study revealed the need for basic physical chemical property data for organic UV-filters, including

105 We extended the VAE to include a chemical property decoder, trained as a multitask networ

106 trained, the network can be used to predict chemical properties directly from structure, as well as

107 cks of cellular life, and their geometry and chemical properties distinguish membranes from other cel

108 ndedness, often exhibit similar physical and chemical properties due to their identical functional gr

109 The physical and chemical properties (e.g., composition, morphology, diam

110 ong pockets in terms of their geometries and chemical properties, either bound ligands can be compare

111 is allows characterization of electronic and chemical properties for a manganese center in a cobalt o

112 sulated six solvents with novel physical and chemical properties for CO(2) sorption within gas-permea

113 t materials, which significantly alter their chemical properties for energy storage and conversion.

114 rategies along with structural, physical and chemical properties for metal borohydrides, revealing a

115 rtunities for achieving unusual physical and chemical properties for next-generation interfacial tech

116 for tailoring their optical, electronic and chemical properties for various applications has gained

117 teration detection and estimation of several chemical properties for various cold pressed seed oils.

118 cosities and refractive indices (the physico-chemical properties) for aqueous solution of citric acid

119 Rhizosphere soil has distinct physical and chemical properties from bulk soil.

120 but investigations into their electronic and chemical properties have been limited due to their react

121 their ubiquity in pharmaceuticals, yet their chemical properties have made their preparation a substa

122 A), but plants also produce oils with unique chemical properties highly desirable for industrial proc

123 o induce certain characteristic physical and chemical properties in a metal redox center.

124 hese NCs have been characterized for physico-chemical properties in correlation to the 5-HT sensing a

125 ing recognition of the importance of physico-chemical properties in determining cellular characterist

126 n were achieved for compounds with different chemical properties in different matrices.

127 hould inspire others to control the physical/chemical properties in strain-released epitaxial oxide f

128 amount and ratio of molecules with different chemical properties in the nanoparticles.

129 ure, pH, permanganate oxidizable carbon, and chemical properties including Cu, and P were important v

130 may lead to changes in chemical and physico-chemical properties including formation of submicro-/nan

131 NG has unique physico-chemical properties, including a wide range of concentra

132 knotting can impart significant physical and chemical properties, including chirality, strong and sel

133 oration was influenced post-invasion by soil chemical properties, including pH and phytotoxic compoun

134 Physico-chemical properties, including size, clustering and surf

135 Ps, and LCCPs) have a wide range of physical-chemical properties, indicating their varying bioaccumul

136 reducing reagents and to determine how their chemical properties influence charge reduction efficacy.

137 accurate characterization of their physical-chemical properties is a key requirement; in particular,

138 n of related molecules with similar physical/chemical properties is of prime industrial importance an

139 x uptake pathway with very different physico-chemical properties is one reason that Gram-negative are

140 ysis, greater understanding of their surface chemical properties is required.

141 This chemical property is manifested at physiological concent

142 le ZIFs possess some attractive physical and chemical properties, it remains important to enhance the

143 ity calculations, to generate structures and chemical property libraries, all without training data.

144 Gold's excellent electrical, optical and chemical properties make the element indispensable in ma

145 have reported that particles with identical chemical properties may propel in opposite directions.

146 nce of their highly contrasting physical and chemical properties, mean residence times in soil, and r

147 devices with mechanical, optoelectronic, and chemical properties not available from inorganic semicon

148 nd wet (70% RH) conditions had the same bulk chemical properties (O:C), yet significantly different o

149 etween 190 and 900 nm), particle phase, bulk chemical properties (O:C, H:C), and molecular-level comp

150 Here, the chemical properties of a promising oxide-based SSE (garn

151 find this dynamic size effect to govern the chemical properties of active NSs.

152 While the physical and chemical properties of airborne particulate matter (PM)

153 ive a scoring matrix that echoes the physico-chemical properties of amino acids.

154 This order could be related to the intrinsic chemical properties of aroma compounds.

155 nthesis and illustrates how the physical and chemical properties of as-synthesized solid catalytic ma

156 f atomic structures, and unique physical and chemical properties of atomically precise nanoparticles,

157 Moreover, due to differences in the physical chemical properties of clusters of amino acid residues a

158 trategy for understanding the structures and chemical properties of complex fluorides and oxyfluoride

159 abiotic oxidation and to compare fundamental chemical properties of complex samples across groups.

160 available at NCBI, we observed that physico-chemical properties of different functional units on gen

161 aim was to study the composition and physico-chemical properties of different stages of two commercia

162 classes of RNA genes on the basis of physico-chemical properties of DNA sequences.

163 predicts the Veff as a function of physical-chemical properties of each compound and meteorology fro

164 t only changes in the EP field influence the chemical properties of encapsulated species.

165 new means of characterizing the physical and chemical properties of exosomes and other EVs.

166 The unique physical and chemical properties of fullerenes have offered new oppor

167 y the influence of holes on the physical and chemical properties of graphene.

168 s, their value is limited by the challenging chemical properties of heme.

169 firstly provides information on the physical-chemical properties of HPMC and a comprehensive overview

170 s, the dependence of skin penetration on the chemical properties of ILs is examined.

171 een in the synthesis and separation methods, chemical properties of individual NPs, geometries of the

172 free fat (SFF); and their effect on physico-chemical properties of infant formula (IF) containing hy

173 olled by pore size and by the dimensions and chemical properties of interior host domains.

174 probe loaded in living cells shows signature chemical properties of ionic selectivity and reversibili

175 erapeutically advantageous due to the unique chemical properties of lanthanum making it cytotoxic to

176 centrations, H2O greatly affects the physico-chemical properties of mantle materials, governing plane

177 play crucial roles in defining physical and chemical properties of materials to enhance the performa

178 The physical and chemical properties of metal oxides are dramatically inf

179 ion spectroscopy, both global structures and chemical properties of metalloenzymes can be obtained co

180 contactless access to the microphysical and chemical properties of micrometer-sized samples.

181 ing technologies have enabled measurement of chemical properties of molecules in complex mixtures and

182 Here we show that the physical and chemical properties of monocaprin make it ideal for use

183 lectrical, optical, magnetic, mechanical and chemical properties of nanocrystalline materials(1,2) is

184 Modification of physico-chemical properties of non-wheat flours by dry heat and

185 igital imaging to give information about the chemical properties of objects and their spatial distrib

186 Serpentinization affects the physical and chemical properties of oceanic lithosphere, represents o

187 , that can be used to further modify physico-chemical properties of other food components.

188 action investigations confirm structural and chemical properties of our thin films.

189 e effect of substitution on the physical and chemical properties of polyphthalaldehyde derivatives ha

190 The basic chemical properties of reactants and products in this re

191 o exert profound effects on the physical and chemical properties of reagents, should have an impact o

192 Reducing Ability of Plasma), and other basic chemical properties of red wine made from cv. Dornfelder

193 s allows rational tuning of the spectral and chemical properties of rhodamine dyes with unprecedented

194 ence of divalent cations on the physical and chemical properties of RNA coacervates.

195 The mechanical and chemical properties of secretion resemble those of press

196 Biofilm inhibitory activity exhibited chemical properties of short chain fatty acids known to

197 owth temperature on sensory quality and some chemical properties of swede and indicated a good eating

198 Analysis of the physico-chemical properties of sweeteners in the database indica

199 modification that can alter the physical and chemical properties of target proteins and that controls

200 We identified the chemical properties of the aggregation pheromone that si

201 cted because of the different structural and chemical properties of the amino acids.

202 To access the physical and chemical properties of the asymmetric bilayer, we monito

203 cterisation of physical, physicochemical and chemical properties of the bacterial colonies in the pre

204 The physical-chemical properties of the Ce6-SCs were systematically e

205 aw, in which we incorporated twelve physical-chemical properties of the dinucleotides within DNA into

206 nging task due to the identical physical and chemical properties of the enantiomers of a molecule.

207 e, we first elucidate the basic physical and chemical properties of the exposed HaP thin film and cry

208 Accounting for the different chemical properties of the four halogen atoms (fluorine,

209 ectroscopy to investigate the electronic and chemical properties of the H2O/GaN(0001) interface under

210 the 2D MoS2 nanoassemblies, the physical and chemical properties of the hydrogel network can be contr

211 d herein characterize the conformational and chemical properties of the hydrophobic MK-2 molecule.

212 surface and relate to the various steric and chemical properties of the local protein environment.

213 developments in the field, organized by the chemical properties of the materials.

214 n were used to characterize the physical and chemical properties of the membrane matrix.

215 plant species, soil properties, and physical-chemical properties of the nanoparticles and their trans

216 lso yield the morphological, structural, and chemical properties of the nanostructures.

217 ein composition, 3D-architecture and physico-chemical properties of the native tissue.

218 The physical-chemical properties of the new lipophilic pigment were s

219 es can significantly modify the physical and chemical properties of the parent metals.

220 r types, and counter anions in regard to the chemical properties of the polyether complexes is highli

221 ed SOA yields from alpha-pinene, whereas the chemical properties of the primary particles emitted by

222 s molitrix) affected dynamic rheological and chemical properties of the proteins as well as microstru

223 Therefore, the inherent chemical properties of the radical were changed drastica

224 The knot topology affects the chemical properties of the strand: whereas the tighter 5

225 s synthetic materials utilising physical and chemical properties of the target cell or microorganism,

226 cultures depend strongly on the physical and chemical properties of the underlying substrate.

227 ed towards the design of the physical and/or chemical properties of these materials by selecting thei

228 However, the physico-chemical properties of tool compounds for CB2R (e.g., th

229 h are necessary for development of aroma and chemical properties of TTB.

230 llar protein-based network, the physical and chemical properties of which can influence a multitude o

231 he effects of small molecules with different chemical properties on the aggregation and spreading of

232 ic technique that maps sample morphology and chemical properties on the nanometer (nm)-scale.

233 haracterization tool allowing the imaging of chemical properties over a wide range of organic and ino

234 have received great attention owing to their chemical properties, pharmaceutical applications, and lo

235 GC x GC-based chemical property predictions are validated with a compi

236 Due to the various physical and chemical properties present in layered counterparts of 2

237 eight tissues simultaneously, we identified chemical properties promoting delivery to some tissues r

238 loys could have a wide range of physical and chemical properties, ranging from charge density waves t

239 Lanthanides possess similar chemical properties rendering their separation from one

240 id [DIDS]), its mechanism of action, and the chemical properties required for its activity.

241 Physico-chemical properties, sensory characteristics, and the vi

242 separations were achieved using two sets of chemical properties (set 1: lactone, diastase activity,

243 ze and target a common and essential physico-chemical property shared by many bacterial toxins and vi

244 um drying provides samples with good physico-chemical properties, similar to lyophilized sample and b

245 study evaluated fruit quality parameters and chemical properties (soluble solids, pH, total acidity a

246 large choice of alternatives that cover the chemical property space more amply.

247 rrageenan structures, which confer different chemical properties, strongly suggests differential regu

248 ures on the sensor surface provided superior chemical properties such as high carrier mobility and bi

249 served between log BCFss values and physical-chemical properties such as octanol-water distribution c

250 ce of polymorphism could change some physico-chemical properties, such as melting and sublimation tem

251 elution behavior are not well-predicted from chemical properties, such as solubility.

252 roughput comparison of material physical and chemical properties-such as surface chemistry and proper

253 es by using three different sets of physical chemical properties suggested that the atmosphere-ocean

254 easy accessibility, and unique physical and chemical properties, sulfur-based materials, in particul

255 The unique optical, electronic, and chemical properties that arise from the nanostructured a

256 They have tunable physico-chemical properties that can be easily changed by varyin

257 ormations exhibit a rich set of physical and chemical properties that can be used for a variety of ap

258 sorbents with customizable size, shape, and chemical properties that do not rely on commercial suppl

259 on nanotubes (CNTs) have unique physical and chemical properties that drive their use in a variety of

260 bination of Cu and ZnO offered complementary chemical properties that lead to special reaction channe

261 then explore the ligand binding dynamics and chemical properties that underpin DA systems, which fall

262 to identify general molecular descriptors or chemical properties that would allow extrapolating beyon

263 Here, we show that, beyond its chemical properties, the detailed shape of a catalytic s

264 uss the impact of the adsorbent physical and chemical properties, the feed gas composition and charac

265 structure to load drug agents with divergent chemical properties, therapeutic proteins as well as co-

266 ut also its therapeutic, pharmacological and chemical properties, thereby substantially expediting th

267 e metal catalysts owing to the wide range of chemical properties they can exhibit and the growing set

268 y fast and accurate predictions of atomistic chemical properties, they do not explicitly capture the

269 Key chemical properties thought to influence oral absorption

270 r Dithizone (DTZ) with improved physical and chemical properties to characterize human islets and ins

271 hrough the use of silver inks with different chemical properties to prevent mixing.

272 onfers special biophysical, biochemical, and chemical properties to these lipids.

273 proteins and lipids, based on their physico-chemical properties, to regulate GPI-anchored protein tr

274 marized to understand how their physical and chemical properties together with heteroatom doping dict

275 ed by KCs and other relevant data, including chemical properties, toxicokinetics, and biological effe

276 Owing to its chemical properties, tyramine can react with nitrite, a

277 new ground for achieving novel physical and chemical properties using single-metal-atom oxides (SMAO

278 Physico-chemical properties (water activity, moisture content, f

279 Given its physical and chemical properties, we hypothesized that dermal uptake

280 Cultivar-dependent implications on wine chemical properties were apparent and declines in wine c

281 dentin tubules, mechanical performance, and chemical properties were assessed by scanning electron m

282 Physico-chemical properties were consistent with those generally

283 nd 10% CP on dentinal collagen structure and chemical properties were evaluated in vitro.

284 Microbiological, physicochemical and chemical properties were monitored for eleven days, whil

285 icrobiological characteristics and proximate chemical properties were observed.

286 ated into the microcapsules and their physio-chemical properties were studied.

287 sents extraordinary optical, electrical, and chemical properties which are highly tunable by engineer

288 biosensors due to its excellent physical and chemical properties which facilitate electron transfer b

289 ystematically investigating the physical and chemical properties which govern adsorption processes.

290 x metal facets afford appealing physical and chemical properties, which attracts extensive research i

291 ck phosphorous, offer a host of physical and chemical properties, which could both improve existing m

292 lectively fixed due to their unique adaptive chemical properties, which facilitate folding, catalysis

293 tum dots (QDs) possess distinct physical and chemical properties, which have garnered them considerab

294 is only possible if we know its physical and chemical properties, which is frequently obstructed by t

295 or LSBs strongly depends on its physical and chemical properties, which is heavily controlled by its

296 t attention due to their unique physical and chemical properties, which originate from the geometric

297 The unusually broad physical and chemical property window of ionic liquids allows for a w

298 to their unique thickness dependent physico-chemical properties with enhanced chemical-based charge-

299 their diverse electronic, valleytronic, and chemical properties, with the corresponding optoelectron

300 oncentration and retained their physical and chemical properties within the formulation and upon rele