ライフサイエンスコーパス: intercalation

1 in the zigzag channels to cause the columnar intercalation.

2 addressed in the historical context of bulk intercalation.

3 e moiety plays a role in the binding through intercalation.

4 mismatch interrogation and detection via DNA intercalation.

5 cyanin/Mnt ratios, corroborating anthocyanin intercalation.

6 tion, which is responsible for oriented cell intercalation.

7 environments from acidic to alkaline, proton intercalation.

8 tch between cell migration and CE, i.e. cell intercalation.

9 acilitates redox reactions of iodine and ion intercalation.

10 nanoscopic defects dominate the dynamics of intercalation.

11 which can only be ascribed to hydronium-ion intercalation.

12 tification of a novel mode of iterative cell intercalation.

13 migration, but plays no role in chondrocyte intercalation.

14 dergo aberrant basal cell extrusion and cell intercalation.

15 hts into the stereoselectivity of DNA-ligand intercalation.

16 contradicting the previous hypothesis of EE intercalation.

17 e) susceptible to ionic electromigration and intercalation.

18 re discussed, followed by unconventional DNA intercalation.

19 been described to interact with DNA through intercalation.

20 be developed that show stable reversible Mg intercalation.

21 DNA (pDNA) through electrostatic binding and intercalation.

22 ior required during the initiation of radial intercalation.

23 the topoII function with no evidence of DNA intercalation.

24 help cells to overcome the energy barrier to intercalation.

25 ients that orient and drive mesenchymal cell intercalations.

26 erning that results in self-sustained planar intercalations.

27 at cortical force oscillations promote these intercalations.

28 tissue contraction through radial deep cell intercalations.

29 ll layer expansion and mesenchymal deep cell intercalations.

30 irectional tension that drives oriented cell intercalations.

31 e leading edge with smaller cells undergoing intercalations.

32 ghboring sheets was completely open to guest intercalation, allowing fast intercalation that was prac

33 Using fully reversible lithium intercalation allows us to switch between thin films of

34 are observed, i.e., Li ions activate lateral intercalation along [010] (armchair) direction to form a

35 s, and the reactions at the anodes including intercalation and alloying to explore promising strategi

36 hlea extends through a combination of radial intercalation and cell growth.

37 Intercalation and conversion are two fundamental chemica

38 In the literature various intercalation and conversion reaction mechanisms in MnO(

39 tructural transformations that occur upon Mg intercalation and deintercalation.

40 y and spatially resolved tracking of lithium intercalation and electrode degradation processes are cr

41 The correlation between intercalation and exfoliation is understood at atomic le

42 s oriented perpendicular to the direction of intercalation and higher than in junctions of other cell

43 ina into a single lumen requires active cell intercalation and myosin contractility.

44 Herein we report a two-step electrochemical intercalation and oxidation approach to produce GO on th

45 Herein, we present a detailed study of the intercalation and solid state reduction of metallic and

46 s driven by polarized mediolateral (ML) cell intercalations and is influenced by AP axial patterning.

47 ctional remodeling inherent in mitosis, cell intercalation, and neuroblast invagination or by forces

48 to changes in electrochemical potential, ion intercalation, and solvent swelling.

49 canonical Wnt signaling is required for cell intercalation, and that wnt5b and wnt9a are required for

50 electrochemical techniques, the mechanism of intercalation, and the formation of a solid-electrolyte

51 These findings lay the groundwork for intercalation- and termination-engineered MXenes, which

52 ast-charging lithium titanate anode or other intercalation anode candidates (Li(3)VO(4) and LiV(0.5)T

53 ge of 0.5 V, but also provides a new type of intercalation anode with a crystal structure that differ

54 Herein, advances in few-layer intercalation are addressed in the historical context of

55 on that the T1 transitions of polarised cell intercalation are delayed in sdk mutants, in particular

56 Here we show that 3D mesenchymal cell intercalations are essential to shape the mandibular arc

57 2O5, lithiation gradients observed on Li-ion intercalation arise from electron localization and local

58 ngth scales, size dependency suggests H atom intercalation as a catalytic deactivation mechanism.

59 ensity alternatives to commercially dominant intercalation-based electrodes for rechargeable ion batt

60 ly expanding field of nonaqueous multivalent intercalation batteries offers a promising way to overco

61 materials, and could open the way to beyond-intercalation battery electrodes, tunable phononic cryst

62 00] (zigzag) direction, distinct anisotropic intercalation behaviors are observed, i.e., Li ions acti

63 calculations are employed to investigate the intercalation behaviour of choloraluminate anions in the

64 on of tungsten allows reversible lithium-ion intercalation below 1 V, enabling application as an anod

65 ge sites with dimerization of solvated Li(+) intercalation between graphite layers.

66 uctures for these complexes show a threading intercalation binding mode with slow and chirality-depen

67 structure provides a stable host for lithium intercalation; bond valence sum mapping exposes the dege

68 ces for both iodine encapsulation and cation intercalation but also generates efficient electronic an

69 g is caused by the slow kinetics of graphite intercalation, but in this paper, we demonstrate that th

70 Here we describe its intercalation by several alkali metals (Li, K, Rb and Cs

71 These observations suggest that intercalation by this aromatic residue is one of the ear

72 gle N doping (ca. 28 %) or single PO(4) (3-) intercalation (ca. 10 %).

73 ther, these results indicate ruthenium-based intercalation can block replication fork progression and

74 Furthermore, we show that intercalation can induce transitions between metallic an

75 However, the limited lithium intercalation capacities (less than 200 milliampere-hour

76 ographic shear structure) H-phase shows high intercalation capacity (>200 mA.h.g(-1)) but only at mod

77 to identify a high-voltage and high-capacity intercalation cathode host.

78 attery research, focusing on a wide range of intercalation cathode materials and the mechanisms of mu

79 Conventional intercalation cathodes for lithium batteries store charg

80 In conventional intercalation cathodes, alkali metal ions can move in an

81 By comparing two closely related intercalation cathodes, Na(0.75)[Li(0.25)Mn(0.75)]O(2) a

82 orted rechargeable magnesium batteries using intercalation cathodes.

83 Bromine intercalation causes colossal reduction in layered MnBDC

84 on of XTRPM6 but not XTRPM7 disrupted radial intercalation cell movements.

85 During radial intercalation, cells emerge from a basal layer by underg

86 Despite the same preferable intercalation channels along [100] (zigzag) direction, d

87 which accounts for the orientation-dependent intercalation channels.

88 Here we find that intercalation charge transfer proceeds through highly va

89 Here we report a halogen conversion-intercalation chemistry in graphite that produces compos

90 +) , Na(+) , Al(3+) , etc.) intercalation/de-intercalation chemistry in transition metal compounds is

91 Here, we investigate the Al(3+) intercalation chemistry of anatase TiO(2) and how chemic

92 Once layered MnBDC is stabilized, topotactic intercalation chemistry was used to demonstrate the feas

93 cing two-dimensional nanoclay particles with intercalation chemistry.

94 mics and kinetics remains largely elusive in intercalation chemistry.

95 s) comprising (1) forming a stage 1 graphite intercalation compound (GIC) in concentrated sulfuric ac

96 at is referred to as a Hyperstage-1 graphite intercalation compound (GIC), which has a very large int

97 A graphite-potassium intercalation compound (KC8) was dispersed in THF, and d

98 Here we describe an intercalation compound in which the host [Co6Te8(P(n)Pr3

99 aterial), the potassium concentration in the intercalation compound, and the choice of the solvent ha

100 apacity to a densely packed stage-I graphite intercalation compound, C(3.5)[Br(0.5)Cl(0.5)], which ca

101 ia benchmark reductive routes using graphite intercalation compounds (GICs), in particular KC8.

102 ent transition in lithiation mechanism among intercalation compounds and provide important guidelines

103 n and deuteration of graphite with potassium intercalation compounds as starting materials were inves

104 ify optimal conditions for the monitoring of intercalation compounds by htTPM.

105 the formation of different graphite-lithium intercalation compounds during cycling.

106 tion behaviors in lithium iron phosphate and intercalation compounds in general and can help guide th

107 The intercalation compounds with various electrochemically a

108 nly enriches the electrochemistry of layered intercalation compounds, but also extends the scope of i

109 h potassium, similar to graphite, leading to intercalation compounds.

110 es in graphite does not form staged graphite intercalation compounds; instead, the insertion of Mg-Cl

111 lar mechanisms that include cell elongation, intercalation, convergent extension, proliferation, and

112 king use of the reversible donor-type cation intercalation/de-intercalation (including Li(+), Na(+),

113 ation (H(+) , Li(+) , Na(+) , Al(3+) , etc.) intercalation/de-intercalation chemistry in transition m

114 (2) O(5) ) supports highly reversible proton intercalation/de-intercalation reactions in aqueous medi

115 rovide short diffusion lengths for the Li(+) intercalation-deintercalation.

116 ructured graphite allows fast and reversible intercalation/deintercalation of anions, promising a sup

117 The reversible intercalation/deintercalation of Li-ions in spinel mater

118 ing the volume variation of the sulfide upon intercalation/deintercalation of Li.

119 erization of magnetization during the Li-ion intercalation/deintercalation process was conducted, and

120 However, their reversible intercalation/deintercalation redox chemistries in previ

121 The redox activity (Li-ion intercalation/deintercalation) of a series of individual

122 PM7, whose loss interferes with mediolateral intercalation, depletion of XTRPM6 but not XTRPM7 disrup

123 The dynamic, oriented cell intercalation during CE is regulated by a group of core

124 Inferred cell intercalation during development dampens an A-P gradient

125 e Toll genes function together to drive cell intercalation during germband extension [2].

126 To illustrate our approach, we mapped cell intercalations during germband extension in the early Dr

127 Ion intercalation electrodes are being investigated for use

128 TiS2, have been investigated as possible 1 V intercalation electrodes but suffer from capacity fading

129 h-capacity electrodes.The rational design of intercalation electrodes is largely confined to the opti

130 Employing high-rate ion-intercalation electrodes represents a feasible way to mi

131 elamination strategy through weak Lewis acid intercalation enabled exfoliation is developed to produc

132 A fast-kinetics dual-ion-intercalation energy storage device is further assembled

133 on) and superior Na transport kinetics in Na intercalation/extraction processes, as demonstrated by i

134 with Lambda Ru(II) centers showing a better intercalation fit.

135 arget binding to the aptamer leads to forced intercalation (FIT) of the dye between oligonucleotide b

136 oaches to investigate the timing of Tyr(162) intercalation for AAG.

137 he electrochemistry, intercalant effect, and intercalation form.

138 Furthermore, the mechanism of proton intercalation from the ionic liquid/solid interface to w

139 he modified alpha-MoO(3) anode with an anion-intercalation graphite cathode, operating well over a wi

140 Based on anion-intercalation graphitic carbon materials, a number of du

141 up possibilities for a variety of effective intercalation hosts for multivalent-ion batteries.Magnes

142 de materials thought to be capable of sodium intercalation in an electrochemical flow cell with respe

143 Identifying fundamental differences between intercalation in bulk and 2D materials will play a key r

144 Nondiffusion controlled Zn(2+) intercalation in bulky delta-MnO(2) and control of H(+)

145 Intercalation in few-layer (2D) materials is a rapidly g

146 However, the classic ion intercalation in graphitic carbon has yet to be coupled

147 e for classical cell-sorting behaviors, cell intercalation in proliferating populations, and the invo

148 s mainly involved in regulating mediolateral intercalation in the medial region of the neural plate.

149 showed the presence of hydrogen bonding and intercalation in the minor groove of DNA, involving hydr

150 iginates from the electron transport and ion intercalation in the redox active material.

151 t-principles calculations for probing Li-ion intercalation in zero-strain electrodes, which is crucia

152 eversible donor-type cation intercalation/de-intercalation (including Li(+), Na(+), and K(+)) at low

153 Proton intercalation increases the electronic conductivity of W

154 of non-covalent DNA recognition focusing on intercalation, insertion, and phosphate binding.

155 The electric field-driven de-intercalation/intercalation of lithium ions can result i

156 g the amplitude and wavelength of a cellular intercalation interface, as well as the crucial role of

157 the solvent-dependent kinetics of ferrocene intercalation into a layered vanadyl phosphate (VOPO(4)

158 odel, in which a bound intercalator prevents intercalation into adjacent sites.

159 e critical role of structural H2 O on Zn(2+) intercalation into bilayer V2 O5 .nH2 O is demonstrated.

160 ws for a disfavored but nonetheless possible intercalation into nearest-neighbor sites can consistent

161 We furthermore show that intercalation into nearest-neighbor sites needs to be co

162 thetic and crystal chemistry of alkali metal intercalation into PAHs differs from that into fullerene

163 Alkali metal intercalation into polyaromatic hydrocarbons (PAHs) has

164 B reversed Serinc restriction, presumably by intercalation into the fusing membranes.

165 These results show that intercalation is a powerful approach to manipulate the m

166 Radial intercalation is an important developmental process wher

167 Finally, we show that polarised cell intercalation is decreased in sdk mutants.

168 lation, here we provide evidence that radial intercalation is driven by chemotaxis of cells toward th

169 ucture calculations, we demonstrate that the intercalation is driven by the exchange of charge betwee

170 Bromine intercalation is possible between the MOFs layers for th

171 Here the effect of potassium-intercalation is shown on the percolation network in sel

172 Intercalation is thought to proceed in discrete stages,

173 gy is developed to facilitate the Zn(2+) (de)intercalation kinetics in V(2) O(5) .

174 aterials, scaling relationships describe how intercalation kinetics, structure, and electronic and op

175 Electrochemical Cu(+) ion intercalation leads to a permanent phase transition to i

176 myosin localization and activity during cell intercalation, linking molecular changes in myosin activ

177 Intercalation materials desalinated brackish water more

178 To test this hypothesis and directly compare intercalation materials, we examined nine electrode mate

179 anism of performance enhancement, surfactant intercalation may become a universally applicable and hi

180 eactions, the excellent reversibility of the intercalation mechanism and the improved safety of aqueo

181 This anion conversion-intercalation mechanism combines the high energy densiti

182 However, the underlying intercalation mechanism is not fully understood.

183 involved in DIBs, including various anionic intercalation mechanism of cathodes, and the reactions a

184 Due to the intercalation mechanism of hematoxylin-DNA interaction,

185 lt Li(3)V(2)O(5) to a redistributive lithium intercalation mechanism with low energy barriers reveale

186 to understand details of the anion-graphite intercalation mechanism.

187 -DNA interactions through a well-established intercalation mechanism.

188 with duplex DNA by a "displacement insertion intercalation" mechanism, whereby the acridine moiety is

189 The findings elucidate atomistic Li/Na intercalation mechanisms in BP and show potential implic

190 Unconventional intercalation mechanisms may exhibit high affinity and s

191 s on the unambiguous characterization of the intercalation mechanisms.

192 igher metal-carbon ratio than is possible by intercalation methods.

193 nic molecule and protein) and binding modes (intercalation, minor groove, allosteric switch).

194 s partially retained upon non-covalent (i.e. intercalation) mixture formed by native DNA duplex and a

195 We consider lithium intercalation model for multilayer graphene where capaci

196 The battery demonstrates the reversible intercalation of 1 and 1.7 magnesium monochloride cation

197 Meanwhile, acceptor-type intercalation of anions into graphitic carbon materials

198 interactions that involve the site-specific intercalation of aromatic amino acid side chains into ge

199 versal of bacterial surface charge suggested intercalation of CCOEs within the lipid bilayer of bacte

200 es used during development is the controlled intercalation of cells between their neighbors.

201 The Cu N(x) is formed by intercalation of chlorophyll sodium copper salt into a m

202 d primordium by promoting the separation and intercalation of dividing mesodermal cells.

203 eutic efficacy, which typically results from intercalation of doxorubicin with DNA, was equivalent fo

204 us (BP) with unique 2D structure enables the intercalation of foreign elements or molecules, which ma

205 C:Co) through a two-step synthesis: first an intercalation of gallium yielding Mo(2)Ga(2)C:Co followe

206 cts is derived through chloroaluminate anion intercalation of graphite followed by thermal expansion

207 Redox intercalation of guest ions is thus likely to be a gener

208 e is found to be a suitable host for further intercalation of guest species such as Li-ethylenediamin

209 specific structural features induced by the intercalation of highly polarising Al(3+) ions should be

210 ding edge by driving sequential eviction and intercalation of individual cells away from the serosa m

211 Compared to lithium ions, the fast redox intercalation of large-radius sodium or potassium ions i

212 The electrochemical intercalation of layered materials, particularly graphit

213 l Li-ion cathodes store charge by reversible intercalation of Li coupled to metal cation redox.

214 hemical energy conversion and storage, e.g., intercalation of Li(+) in batteries and electrochemistry

215 nvestigation on the electrochemically driven intercalation of lithium and sodium using in situ transm

216 se for other applications like catalysis and intercalation of metal ions into layered structures.

217 ution from the cathode, and ensures singular intercalation of Na into both cathode and anode electrod

218 rs of the redox series are stabilized by the intercalation of Na(+) cations within the ligands.

219 to regulate, via rosette intermediaries, the intercalation of post-mitotic neuronal cell bodies durin

220 lica during silica formation, leading to the intercalation of silica into the assembled peptide film.

221 ansmission electron microscopy, we video the intercalation of single microcrystals of graphite in con

222 Specifically, the intercalation of sodium dodecyl sulfate (SDS) bilayers i

223 work, we demonstrate for the first time that intercalation of surfactant self-assemblies in the polye

224 s tuneable electrical characteristics to the intercalation of the azobenzene between adjacent graphen

225 st electrochemically, demonstrating that the intercalation of the capping agent promotes oxidation of

226 complete understanding of the diffusion and intercalation of the fullerene-derivative within the pol

227 ically straightforward process that involves intercalation of the lipid tails of DNA amphiphiles (CpG

228 nanthriplatin to DNA involves rapid, partial intercalation of the phenanthridine ring followed by slo

229 This twisted conformation allows for intercalation of the relatively high-lying pi(B=B) orbit

230 the flipped-out nucleotide is stabilized by intercalation of the side chain of tyrosine 162 that rep

231 alance also provide direct evidence that the intercalation of the surfactants substantially reduces t

232 bution of the wires, and emphasizes the deep intercalation of the surfactants.

233 trimer molecules and a sterically favorable intercalation of the trimers over a commensurate fractio

234 anisms of action of FAM E3 by evaluating the intercalation of this compound into the viral dsRNA and

235 Direct intercalation of two ActiD molecules to G:G mismatch sit

236 ent egg chambers, which develops through the intercalation of two rows of cells into a single-cell-wi

237 rystallographic studies revealed that direct intercalation of two Z1 molecules at both ends of the CT

238 tial for large-scale energy storage, but the intercalation of zinc ions in the cathode materials is c

239 Directional cell intercalations of epithelial cells during gastrulation h

240 be to examine the pathway for the insertion (intercalation) of a tethered acridine ligand (9-amino-6-

241 Here we show that redox intercalation offers an effective method to control ther

242 owever, the direct impact of ruthenium-based intercalation on cellular DNA replication remains unknow

243 ed to demonstrate the feasibility of bromine intercalation on these layered materials.

244 Herein, we have designed FIT-PNAs (forced-intercalation-peptide nucleic acids) to detect two RNA c

245 cell shape suggests convergent migration and intercalation, potentially accounting for post-stratific

246 However, the sub-optimal intercalation potentials of current anodes result in a t

247 same developmental window, but MCCs complete intercalation prior to ICs.

248 nversion reaction sequence, with the initial intercalation process being size dependent.

249 -electron for charge compensation during the intercalation process, inspired by Li2 MnO3 redox reacti

250 akdown, conversion in magnetite resembles an intercalation process-proceeding via topotactic reaction

251 and to quantify important parameters of the intercalation process.

252 Raman spectroscopy shows two different intercalation processes involving chloroaluminate anions

253 a also reveal the first indication that cell intercalation processes occur during ventral body wall e

254 Here, the authors combine the ion intercalation properties of porous graphitic carbons wit

255 This study demonstrates that reversible DNA intercalation provides a robust transition state that is

256 ble the Cu(3)(HHTP)(2) cathode to follow the intercalation pseudocapacitance mechanism.

257 driven by PSM compression and polarized cell intercalation pushes the caudal progenitor domain poster

258 g quinine as an endogenous reporter for pDNA intercalation, Raman imaging revealed that proteins insi

259 From methanol to 1-hexnaol, the intercalation rate peaks in 1-propanol (80 times faster

260 intercalation, revealing force-dependent DNA intercalation rates and equilibrium dissociation constan

261 the Li(+)-water interaction driven Li-ion de-intercalation, rather than a direct cathode-gas chemical

262 This low-potential, high-rate intercalation reaction can be used to identify other met

263 (2)O(4) particles (40 nm) follow a two-phase intercalation reaction.

264 ts highly reversible proton intercalation/de-intercalation reactions in aqueous media, enabling alumi

265 Layered materials embrace rich intercalation reactions to accommodate high concentratio

266 Solvent effects have been widely observed in intercalation reactions; however, understanding of the i

267 By interfacing the i-motif with a forced-intercalation readout, we introduce a quencher-free appr

268 We demonstrate that cell intercalations remodel intercellular junctions predomina

269 ellular-scale reduction in the speed of cell intercalation, resulting in a failure to promote full el

270 aging demonstrated that concomitant cellular intercalation results in a brief period of epithelial co

271 gle DNA molecule elongation due to threading intercalation, revealing force-dependent DNA intercalati

272 f alternative DNA structures with a GC/GA-5' intercalation site for binding by the GC-selective inter

273 e results show that Mn vacancies provide ion intercalation sites which concurrently improve specific

274 ttices and Si-Si dimers occupying octahedral intercalation sites.

275 rge number of titanium vacancies that act as intercalation sites.

276 An intercalation step prior to conversion is explicitly rev

277 Herein, an in situ polyaniline (PANI) intercalation strategy is developed to facilitate the Zn

278 A synergistic N doping plus PO(4) (3-) intercalation strategy is used to induce high conversion

279 toxicity mechanisms, such as DNA damage, DNA intercalation, telomerase inhibition, and apoptosis indu

280 er in junctions oriented in the direction of intercalation than in junctions oriented perpendicular t

281 y open to guest intercalation, allowing fast intercalation that was practically irrespective of the c

282 Intercalation, the insertion of guest atoms, ions or mol

283 ull atomistic picture of the transition from intercalation to conversion, which is of essential impor

284 e structural changes result in a switch from intercalation to groove-binding DNA interaction and conc

285 Li(3)RuO(4) displays highly reversible Li intercalation to Li(4)RuO(4) below 2.5 V vs Li(+)/Li(0),

286 Here we report the use of trimethylpsoralen intercalation to map the extent of supercoiling across t

287 ties, gas adsorption capacity or lithium-ion intercalation) to identify promising target candidates f

288 We have found that ZnFe(2)O(4) undergoes an intercalation-to-conversion reaction sequence, with the

289 ncrease the energy density of batteries with intercalation-type cathodes.

290 Ab initio calculations reveal an intercalation-type doping of Fe atoms in the tunnels of

291 storage capacity, largely due to the use of intercalation-type electrodes that allow one or less ele

292 severer capacity fading than those with the intercalation-type electrodes.

293 injection, i.e., capacitive charging or ion intercalation, via the choice of the charge compensating

294 uctivity increases significantly with proton intercalation, which is contrary to the expectation that

295 study indicate that XTRPM6 regulates radial intercalation with little or no contribution from XTRPM7

296 MoO(x) peaks indicate a strong resistance to intercalation with moisture and oxygen.

297 The combination of ion intercalation with redox reactions of iodine allows for

298 lysis through anion-pi interactions; and NDI intercalations with DNA for medicinal applications.

299 Its intercalation within core-units stimulates array formati

300 lation of cellular protrusions, movement and intercalation within the cochlea all require myosin II.