ライフサイエンスコーパス: confined space

1 for single site photocatalytic reactions in confined space.

2 n fibers achieve their great length within a confined space.

3 molecule influences that of the other in the confined space.

4 uilibrium are also encountered in the cage's confined space.

5 lent interactions (NCIs) within a sterically confined space.

6 llenging to accomplish simultaneously in one confined space.

7 l over the assembly of nanocrystals within a confined space.

8 quid of hard spheres exclude each other in a confined space.

9 romoting chemical reactions occurring in its confined space.

10 cell wall due to steric interactions in the confined space.

11 l profile and indicating human presence in a confined space.

12 ociated with ligand-receptor interactions in confined spaces.

13 r those performing high-pressure cleaning in confined spaces.

14 e for intelligent humidity regulation within confined spaces.

15 -scale soft capsules for sampling liquids in confined spaces.

16 ry and facilitates nuclear migration through confined spaces.

17 and NMY-2 helps to push the nucleus through confined spaces.

18 t tumor cells soften as they migrate through confined spaces.

19 for human exposure to high concentrations in confined spaces.

20 ergetics during migration decision-making in confined spaces.

21 enabling T cells to pull themselves through confined spaces.

22 and adaptive inspection systems in complex, confined spaces.

23 ent catalysis at primary active sites within confined spaces.

24 thesis and hierarchical self-organization in confined spaces.

25 ile also squeezing the large nucleus through confined spaces.

26 rd in the construction of highly anisotropic confined spaces.

27 mbedding of physical networks, especially in confined spaces.

28 understand and predict similar processes in confined spaces.

29 t that can locomote rapidly in both open and confined spaces.

30 for direct air capture and CO2 removal from confined spaces.

31 ls to deform their nucleus to invade through confined spaces.

32 s of molecules when they are included within confined spaces.

33 egate formation and transport of asbestos in confined spaces.

34 lore a completely new direction in extremely confined spaces.

35 lity of the body to actively navigate within confined spaces.

36 est new ways by which to affect reactions in confined spaces.

37 rganisms construct, inhabit, and move within confined spaces.

38 s cell migration through both unconfined and confined spaces.

39 generates a high density array of nanoscale confined spaces.

40 y less is known about its effect on water in confined spaces.

41 for the first time, that entry into a highly confined space (2.5D) is a sufficient trigger to convert

42 tive paradigm for facile proton transport in confined spaces-a CV is derived in this work from graph

43 n explosion risk if methane accumulates in a confined space above the ground where ignitable conditio

44 Nanowire growth in a nano-confined space adopts a lattice-strained and single-crys

45 a high exposure dose of L. pneumophila from confined-space aerosolization or to endotoxin exposure.

46 hrough their integration within solvent-free confined space, allowing for engineering of the photores

47 to the target antibody, are colocalized in a confined space and can reassemble into the native Spinac

48 Then lamellar dynamic templates create a confined space and control mineralization separated from

49 releasing high amounts of H(1) and H(2) in a confined space and thereby facilitating the HCR amplific

50 n, with enhanced dexterity, optimized use of confined spaces and improved cosmetic and peri-operative

51 mensional (2D) substrata and individually in confined spaces and invasion in 3D matrices.

52 or aggregates to build complex constructs in confined spaces and may enable various biomedical applic

53 strategy, they can intelligently escape from confined spaces and maze-like obstacle courses without a

54 Au nanorods through seed-mediated growth in confined spaces and report their thermochromic responses

55 leader bleb-based migration (LBBM) occurs in confined spaces and vimentin is known to strongly influe

56 motion of colloidal particles in the highly confined space, and the possibility of using the nucleat

57 amatically narrowed the beam when entering a confined space, and they dramatically widened it within

58 achieve shape reconfiguration in remote and confined spaces, and wirelessly deliver fluids against p

59 hniques for assembling the catalysts in such confined spaces are crucial elements.

60 w that energetic costs for migration through confined spaces are mediated by a balance between cell a

61 f our results for the folding of proteins in confined spaces are outlined.

62 lectronic structure, and luminescence within confined spaces, are highlighted, with suggestions of ap

63 g the structure of the ligand, introducing a confined space as a second coordination sphere around a

64 o the study of solutes within other types of confined spaces, as well.

65 Achieving precise drug targeting within the confined spaces associated with the spinal cord, canal a

66 The permeated gas is accumulated in confined spaces behind the respective membranes.

67 and for performing chemical reactions in the confined space between a metal surface and a graphene sh

68 ch subsequently leads to condensation in the confined space between adjacent rods.

69 e conformations characterized by a partially confined space between the two constituent HBC units.

70 ter, combined with accurate control over the confined space between the two nanoclusters.

71 -dimensional nanotubes, organic reactions in confined spaces between two-dimensional materials have y

72 2D surfaces, Rho is critical for movement in confined spaces, but is largely redundant for motility a

73 ll stiffness promotes cell migration through confined spaces, but other factors such as adhesion and

74 fully works as a vehicle to deliver cells in confined space by virtue of the 3D porous networked stru

75 can overcome large resistances from severely confined spaces by its anisotropic and magnetically tuna

76 Since confined space can assist the binding through a proximit

77 Confined space can have a negative impact on quality of

78 key message of this paper is that water in a confined space can have a significant impact on the nano

79 Although such confined spaces can be found in various nanostructured m

80 riguingly, cell migration through physically confined spaces can persist even when typical hallmarks

81 ng horizontal crevices to enter a vertically confined space, cockroaches crawled at velocities approa

82 perties of species encapsulated within these confined spaces compared to bulk environments.

83 stress generated by tumor cells growing in a confined space compresses blood vessels and increases tu

84 is a natural tendency of microbes growing in confined spaces, contributing to microbial pathogenesis

85 milar bifunctional acid solid catalyst, in a confined space, could play the desired catalytic role.

86 nd the first report on the fate of DASA in a confined space discrete molecular architecture.

87 ubsequently to *CO(NH(2))(2) within the nano-confined space dominated by Cu-CDs.

88 s are segregated between cells or moved into confined spaces, double-stranded nucleic acids are separ

89 ity of a folded macromolecule increases in a confined space due to entropic effects.

90 The confined space effect of encapsulation suppresses the pr

91 ed toward a robust platform for synthesis in confined space employing fully programmable nanoreactors

92 of pauses in human T cells migrating through confined spaces, even in the absence of extrinsic cell c

93 rity scores and indoor burn injury (ie, from confined space fire).

94 owth of various bacteria colonies within the confined space for over 10 days.

95 ive voltage, and iii) embedded electrodes in confined spaces for potential diagnostic applications.

96 t that these mag-bots may be used in remote, confined spaces for small objects handling or as compone

97 Uncontrolled growth in a confined space generates mechanical compressive stress w

98 Here, we find that cell migration through confined spaces gives rise to mechanical deformations of

99 Organocatalysis in a confined space has been performed through encapsulation

100 eoretical simulations to reveal the effect a confined space has on the chromophore's molecular confor

101 with remote magnetic-responsive motility in confined spaces have been developed.

102 Our findings indicate that motility in confined spaces imposes high energetic demands on migrat

103 These interactions occur in a confined space in microgravity, providing ample opportun

104 electron-hole recombination rate due to the confined space in sphere-shaped nanoparticles.

105 The germinal center is known to provide a confined space in which B-cell antigen receptors undergo

106 notoriously difficult to probe reactions in confined spaces in real time.

107 Confined spaces in the human body pose substantial chall

108 uing expansion of NSC-derived cell masses in confined spaces in the spinal cord and brain could produ

109 mapping the geometric boundaries of unknown confined spaces, including convex shapes like circles, s

110 Water-assisted proton transport through confined spaces influences many phenomena in biomolecula

111 orption, and chemical conversions within the confined space inside porous materials have been studied

112 ffected by interparticle interactions in the confined space inside the channel, and establish conditi

113 s mechanical model of filament assembly in a confined space is by itself capable of yielding the remo

114 ffective directing of Li deposition into the confined space is challenging.

115 ring multiple light-switchable subunits in a confined space is critical for the design of synthetic m

116 The partition coefficient for a protein in a confined space is predicted to decrease significantly wh

117 ing to the new CV, even though the pertinent confined space is still reasonably well hydrated and-by

118 Control of humidity within confined spaces is critical for maintaining air quality

119 Two-phase (liquid, vapor) flow in confined spaces is fundamentally interesting and practic

120 cculation, hindered behavior of particles in confined spaces, jamming and dispersion in flow.

121 n dioxide (CO2) concentrations, namely, from confined spaces (<0.5%) and in particular from air (400

122 ber of situations such as protein folding in confined spaces, lubrication in tight spaces, and chemic

123 These procedures occur in a highly confined space, making them difficult to learn by observ

124 incorporation of 2D molecular units into 3D confined space microenvironments as an effective supramo

125 ion crawlers demonstrate effective motion in confined spaces, miniaturization is challenging because

126 ages of carrying out this cyclization in the confined space of a benzylic amide macrocycle are attrib

127 nctionally and reversibly trapped inside the confined space of a ClyA nanopore.

128 hly reactive species are incarcerated in the confined space of a molecular cavity, deep changes of th

129 the self-assembly of Pd(II) SCCs within the confined space of a pre-formed MOF (SCCs@MOF) and its po

130 oordinatively integrated in the solvent-free confined space of a solid-state matrix, such as a metal-

131 erformed high-pressure water cleaning in the confined space of an evaporator vessel.

132 geted cargo delivery of a chromophore to the confined space of DNA, which resulted in promotion of ch

133 DNA to near-crystalline densities within the confined space of the capsid requires that the packaging

134 T-cell responsiveness that take place in the confined space of the close contact.

135 so that the polypeptide is released into the confined space of the closed chamber where it folds.

136 contacts due to random migration within the confined space of the LN.

137 f proazaphosphatranes can be improved in the confined space of the molecular cavity of hemicryptophan

138 terminants underlying helix formation in the confined space of the ribosome exit tunnel are relativel

139 Moreover, the confined space of the utilized porous matrix allowed for

140 Crystals are self-assembled reproducibly in confined spaces of 100 nm diameter with pitch down to 50

141 are imposed on cells residing in the highly confined spaces of the solid tumor or invaded tissues.

142 (degree of confinement) and dimension of the confined space on the product selectivity without changi

143 rigami nanocages, we show the pure effect of confined space on the property of individual human telom

144 ve FTOH mass measured in the air of a small, confined space over a 3 h period.

145 Autonomous flight in confined spaces presents great scientific and technical

146 ke by the migrating cells, cell migration in confined spaces, regulation of the attractant distributi

147 n in tight spaces, and chemical reactions in confined spaces require an understanding of water-mediat

148 To explain confined-space running performance limits, we altered ce

149 capsules could navigate in fluid-filled and confined spaces safely using a rolling locomotion.

150 These relate to solvent dynamics in bulk and confined space (say carbon nanostructures), electrocatal

151 bidirectional rotation of the cartridge in a confined space shortened the Ag-Ab reaction time by a fa

152 of viscogens on macromolecular processes in confined spaces should be similarly informative in other

153 A confined space significantly elevated no-flow-time in th

154 In confined spaces such as capsules and the active sites of

155 carbon dioxide (CO(2) ) levels can occur in confined spaces such as the International Space Station.

156 atform which is important for ion sensing in confined spaces such as the medium surrounding cell clus

157 Water exhibits remarkable properties in confined spaces, such as nanometer-sized droplets where

158 rospective adsorbent for humidity control in confined spaces, such as space shuttles, aircraft cabins

159 Catalysis in confined spaces, such as those provided by supramolecula

160 ILs act as a container, providing a confined space that allows modulation of electronic and

161 rogel crawlers can move peristaltically in a confined space that is coated with asymmetric micro-patt

162 a 2D COF because COF layer stacking creates confined spaces that enable intimate interactions betwee

163 emporal evolution of Mn biomineralization in confined spaces that experience simultaneous Mn(II) deli

164 ysis of a wide range of velocity profiles in confined spaces that measure a few micrometers in dimens

165 Here, this study reports a novel confined-space thermal dewetting strategy for the fabric

166 This confined-space thermal dewetting strategy is scalable an

167 CK8-deficient T and NK cells migrate through confined spaces, they develop cell shape and nuclear def

168 multivalent H-bond interactions at the nano-confined space to manipulate controllable and organized

169 Sampling liquids in small and confined spaces to retrieve chemicals and microbiomes co

170 n) in a one- vs. two-rescuer scenario and in confined space vs. open space in a randomized order usin

171 ation of RNA and ribonucleoproteins (RNP) in confined spaces was validated experimentally and numeric

172 To define the limits of body compression in confined spaces, we conducted dynamic compressive cycle

173 To gain insight into how animals move within confined spaces, we study the locomotion of the fire ant

174 he formation of the nucleocapsid providing a confined space where the viral DNA genome is synthesized

175 are inhabited by mammals, such as living in confined spaces where oxygen levels are likely to be low

176 Access into and out of their inner confined space, where adsorption and reactions occur, is

177 ots, as well as health monitoring of unknown confined spaces with boundary damages.

178 ing increasingly delicate maneuverability in confined spaces, with excellent stone clearance and enha

179 ible for the insertion of viral DNA into the confined space within the capsid.

180 w soluble protein size impacts access to the confined space within the retinal photoreceptor outer se

181 The nanopore provides a highly confined space within which single nucleic acid polymers

182 e geometry, including cell migration through confined spaces within a microfluidic device, subcellula

183 r of heavy metal ions from a solution into a confined space without need to electrically connect the

184 edox chemistry and physics in nanoscopically confined spaces, without macroscopic electrolyte contact