ライフサイエンスコーパス: shell structure

1 tern, reveals the heterogeneous nature (core/shell structure).

2 imately be responsible for the observed core-shell structure.

3 depends on geometric rather than electronic shell structure.

4 ed Fe(3)O(4) microparticles to create a core/shell structure.

5 feasibility of making their alloyed or core/shell structure.

6 g mode essentially within the same beta-clam shell structure.

7 st wave deviates from the standard spherical shell structure.

8 e membrane is deformed into the typical half-shell structure.

9 om, and that the sizes of the jumps reveal a shell structure.

10 is doubled due to the formation of the core-shell structure.

11 planting a rare spike region onto the common shell structure.

12 g vulcanization of a polyaniline-sulfur core-shell structure.

13 rinciples of chemistry, rooted in the atomic shell structure.

14 formation of Pd-Au nanocrystals with a core-shell structure.

15 face areas, including the side walls of core-shell structures.

16 howed that the nanowires had Si3N4@SiOx core-shell structures.

17 particles by synthesizing pre-stressed core-shell structures.

18 be used to achieve modulation doping in core-shell structures.

19 an chemical leaching to prepare uniform yolk-shell structures.

20 sive method was demonstrated to develop core/shell structured alpha-Fe2O3 nanorod arrays.

21 etic enzyme nanosystem has well defined core-shell structure and a relatively high saturation magneti

22 In addition, the unique core-shell structure and adequate conjugation sites on surfac

23 /cobalt-based nanoparticles featuring a core-shell structure and nitrogen-doped graphene layers on al

24 troduction of Ag nanoparticles into the core/shell structure and report that they greatly enhance lig

25 icroscopy, we can differentiate between core-shell structures and homogeneous structures.

26 quatic mollusks generates their diversity of shell structures and pigmentation patterns.

27 play an important role in bridging core and shell structures and stabilizing the cluster structures.

28 als with two distinct geometries: core/shell/shell structures and tetrapods.

29 decanoateanions to produce a new Ag@MUA core shell structure, and its utilizing for fabrication of a

30 the dynamics of water molecules in the core-shell structures, and two different types of water molec

31 organic transition-metal compounds with core@shell structures; and iv) combined strategies to novel h

32 In particular, the core/shell structure appears very clearly on high-resolution,

33 ctive solvents functional micelles with core-shell structures are formed.

34 at even for the most soluble compounds, core-shell structures are observed.

35 red material is nonemissive, CuFeS2/CdS core/shell structures are shown to exhibit quantum yields tha

36 ulations confirms that such onion-like three-shell structures are the ground states for these A21B12

37 work-67/Ni-Co layered double hydroxides yolk-shelled structures are first synthesized and then transf

38 e formation of a near-spherical dipole layer shell structure around the anion.

39 ed renewed interest in the potential of core-shell structures as catalysts.

40 Core@shell structured bimetallic nanoparticles are currently

41 stability is determined by their electronic shell structure can be understood as a manifestation of

42 The core-shell structure can be viewed as nested, concentric poly

43 Here, we report our development of a core-shell structured catalyst, Ru@Pt/C, generated by a novel

44 te for the preparation of Fe(3) C-based core-shell structured catalysts for oxygen reduction reaction

45 Core-shell structured catalysts, made by placing either a mon

46 The nanoITO/TiO2 core/shell structure causes a decrease of up to 2 orders of m

47 We hypothesized that a core-/shell-structured CH microsphere system would lead to sus

48 The core-/shell-structured CHMSs are, therefore, a promising deliv

49 stead tend to have small body size, reactive shell structures, commensal or parasitic habit, deep-sea

50 ls involving multi-ion exchange such as core-shell structured composite nanoparticles.

51 protecting network and superatom electronic shell structure confer extreme stability and robustness.

52 cates the ferrihydrite particles have a core-shell structure consisting of a Keggin center surrounded

53 ogenous melting with the formation of a core-shell structure consisting of a liquid outer layer.

54 iRNA-loaded LPNs are characterized by a core-shell structure consisting of a PLGA matrix core coated

55 Quantum dots with a core/shell/shell structure consisting of an alloyed core of InAs(x)

56 acity and superior rate capability from core-shell structure consisting of germanium nanorods embedde

57 Core-shell structures consisting of annular shells of mostly

58 The developed nanoparticles have core-shell structure containing 15-nm Au colloidal cores with

59 F-279 nanocrystal has a core-shell structure containing a truncated octahedral core w

60 tions, unique nanoscale AuNPs/PEDOT:PSS core-shell structures could also be produced, indicating the

61 tric arrangement defining its shape, and the shell structures defining its chemical specificity.

62 These multilayered core-shell structures demonstrate a controlled alignment acro

63 The Pd clusters encapsulated in hybrid core-shell structures exhibit exceptional size-selective cata

64 scopy and electron diffraction reveal a core-shell structure for the nonequilibrium nanoparticles: a

65 with stability dominated by their electronic shell structure from those for which the magic numbers o

66 er hybrid nanoparticles with a distinct core shell structure have been obtained.

67 yst, as well as the changes in the solvation shell structure, have been measured with ultrafast diffu

68 To understand how the core-shell structure helps to mitigate volume swings and buff

69 imately 2 GPa) on the seed by forming a core/shell structure in the early stage of the reaction.

70 Atomic nuclei have a shell structure in which nuclei with 'magic numbers' of

71 tructural features and stability of the core-shell structures in aqueous solutions.

72 anules and resulted in the formation of core-shell structures in carbonates.

73 on of heavier alkaline earth metals nor core-shell structures in the carbonates.

74 clusters of calcium phosphate to form a core-shell structure, in a fluid that is supersaturated but s

75 germanium-silicon and silicon-germanium core-shell structures, in which band-offsets drive hole injec

76 RNA suggested that this self-assembling core-shell structure influences the siRNA release kinetics an

77 al characteristics on the properties of core-shell structured iron nanoparticles are discussed.

78 ylococcal enterotoxin B (SEB) utilizing core-shell-structured iron-gold magnetic nanoparticles and a

79 e requisite intersystem crossing in the open-shell structure is accompanied by structural reorganizat

80 First, a folded shell structure is introduced, where the fold pattern pr

81 Thereafter, the core-shell structure is loaded with fresh initiator and place

82 produced and characterized micro-truss and -shell structures made from alumina-polymer composite.

83 To determine the protein shell structure more definitively, purified H. neapolita

84 To circumvent this issue, yolk-shell structured MPHNs comprising a Fe3 O4 core within a

85 the plasmonic component in conventional core-shell structured MPHNs, due to the presence of a water-i

86 s confirmed the formation of bimagnetic core-shell structured nanocrystals.

87 ition onto the larger core NCs to yield core-shell structured NCs.

88 The atom counts in core-shell structure of Au279 follows the mathematical formul

89 tion numbers from one to five, revealing the shell structure of the Mott insulator phase.

90 red elemental mapping revealed a core@double-shell structure of the nanoparticles with crystalline ir

91 experiments substantiate a micelle-like core-shell structure of the particles.

92 ate-templated growth of a layer of spherical shell structure of {Mo72Fe30}.

93 Though the icosahedral shell structures of these capsids are indistinguishable

94 escribed as either a closed-shell or an open-shell structure on the basis of their molecular size and

95 re of ASCs with DP cells (MA-DPS), or a core-shell structure, outer ASCs shell and an inner DP core (

96 sts including advanced platinum alloys, core-shell structures, palladium-based catalysts, metal oxide

97 c indicator dyes were incorporated into core-shell structured poly(styrene-block-vinylpyrrolidone) na

98 a result, the PTX+TET/iRGD LPNs with a core-shell structure possessed high drug loading efficiency,

99 TTA core-shell-structured prodrug delivery capsules that benefit

100 , mostly located on the top half of the clam shell structure, propagate from this hydrophobic core.

101 The core/shell structure renders the nanosensors well dispersed a

102 we show that the very high activity of core-shell structures requires patches of the guest metal to

103 WAXD measurements indicated that the shell structure suppressed the crystallization of the po

104 e issues, herein we report synthesis of core-shell structured surface protein-imprinted nanoparticles

105 of PLGA-polycation nanoparticles with a core-shell structure that act as a robust vector for the enca

106 consequently the formation of an icosahedral shell structure that encloses the viral genome.

107 Amphiphilic molecules can form closed-shell structures that are determined by competing attrac

108 bstrate exchange of atoms, resulting in core-shell structures that contain a surprisingly small amoun

109 These fillers are composed of core-shell structures that exhibit enhanced physical and chem

110 range of geometrical parameters of the core/shell structures that result in a type-II localization r

111 We introduce a class of continuum shell structures, the Buckliball, which undergoes a stru

112 Nuclear shell structures--the distribution of the quantum states

113 meric CGO with encapsulated (as a quasi core-shell structure) TiO2 (GOTI) and Ag (GOAg) nanoparticles

114 as C60/C60*- shows the ability of these core shell structures to carry out photocatalytic reduction r

115 have rationally designed single-crystal core-shell-structured UCNPs which are capable of orthogonal U

116 eveloped vertically aligned P(VDF-TrFE) core-shell structures using high modulus polyurethane acrylat

117 The core-shell structure was characterized at the atomic level us

118 The Au/Fe3O4 core-shell structure was demonstrated by high angle annular d

119 5,000 potential cycles and the ordered core-shell structure was maintained virtually intact, as esta

120 The epitaxial growth of the core/shell structures was verified by optical spectroscopy, T

121 tial sulfidation, leading to an Ag-Ag2S core-shell structure, was observed in the presence of the sec

122 m hydroxide microspheres (CHMSs) with a core/shell structure were prepared by an emulsion method.

123 The engineered polyplexes and core-shell structures were fully characterized, and their abi

124 No alloy or core-shell structures were observed.

125 ) and Pd(x)Pt(1-x) nanoparticles have a core-shell structure whereas the Rh(x)Pt(1-x) alloys are more

126 its physical significance, retrieving atomic shell structure, while the results on molecules illustra

127 on that these organic-based P(VDF-TrFE) core-shell structures will be used widely as 3D sensors and p

128 n the central and terminal atoms and an open-shell structure with a single bond and two lone electron

129 can be represented as a mixture of a closed-shell structure with one and a half bonds between the ce

130 RL micelles can be described by prolate core-shell structures with a core radius of 7.7 A and a shell

131 More complex hybrid core-shell structures with azimuthal and radial nanotailoring

132 ergy, concentrating it to the centre of core-shell structures with radial gradients in the optical ba

133 The nanoparticles spontaneously formed core-shell structures with surface functionalities derived fr

134 2-35) are found to exhibit low-symmetry core-shell structures with the number of core atoms increasin

135 that the collected Pu particle forms a "core-shell" structure with the Pu(IV) oxyhydroxide core surro

136 alysis confirms that the toroids have a core-shell structure, with a pi-conjugated core and an alkyl