ライフサイエンスコーパス: thermotropic

1 This first direct observation of a rapid thermotropic A15->sigma phase transition provides suppor

2 Thermotropic and enantiotropic liquid-crystalline phase

3 ding blocks shows mesogenic properties, both thermotropic and lyotropic (in DMF) mesophases were obse

4 ic structure induces self-assembly into both thermotropic and lyotropic lamellar liquid crystalline (

5 les are mixed with layered materials such as thermotropic and lyotropic smectic liquid crystals and b

6 Cer acyl chains dramatically lowers the high thermotropic and pressure-induced transitions.

7 aturated acyl chains display relatively high thermotropic and pressure-induced transitions.

8 The thermotropic and structural properties of ganglioside GM

9 verse supramolecular structures that exhibit thermotropic and/or lyotropic behavior.

10 Here, we investigate the thermotropic behavior and solid-state organizations of t

11 nucleation, size-dependent polymorphism, and thermotropic behavior of nanoscale crystals.

12 containing C24 sphingomyelin have a complex thermotropic behavior which may be related to the observ

13 some systems to DMSO in terms of the bilayer thermotropic behavior, available free volume of the bila

14 The thermotropic behaviors of 1-deoxyDHCers alone and in mix

15 In contrast to very similar thermotropic changes in the secondary structure of both

16 The resulting hybrid biomaterials form thermotropic columnar hexagonal mesophases in which the

17 These complexes display thermotropic columnar liquid crystalline behavior in spi

18 xclusive reliance of current technologies on thermotropic contraction along the fiber axis.

19 tail side groups displays a new bicontinuous thermotropic cubic phase with symmetry Pn3 m and formed

20 s, they self-organize into a multicontinuous thermotropic cubic phase with the Im3m space group symme

21 e stimuli-response of LCE is associated with thermotropic disruption of order.

22 study describes a reversible and spontaneous thermotropic elongation (~30%) in liquid crystal elastom

23 The fibers exhibiting thermotropic elongation enable active textiles increase

24 Three stages of thermotropic evolution were monitored continuously by th

25 li channels coincide with discontinuities in thermotropic fluorescence spectra and specific growth ra

26 the science and technology of non-classical thermotropic glycolipid mesophases, which now include do

27 hydrogen-bond-constrained backbone, exhibit thermotropic lamellar, discotic nematic, hexagonal, and

28 chiral liquid crystalline systems including thermotropic LCs (cholesteric LCs, cubic blue phases, ac

29 es should be thermodynamically stable in all thermotropic lipid systems.

30 and release of trehalose occurred during the thermotropic lipid-phase transition measured in pancreat

31 t interactions between the BIP ligands and a thermotropic liquid crystal (LC), with the latter's phas

32 A systematic study into the thermotropic liquid crystal behavior using polarizing op

33 r phases enable the study and application of thermotropic liquid crystal phase behavior without therm

34 we describe an anhydrous nanoDNA-surfactant thermotropic liquid crystal system, which exhibits disti

35 active nematic in contact with a hydrophobic thermotropic liquid crystal.

36 st free-standing hydrogels comprising unique thermotropic liquid crystalline (LC) domains and magneti

37 figurations) of micrometer-sized droplets of thermotropic liquid crystals (LCs) dispersed in aqueous

38 Thermotropic liquid crystals (LCs) present opportunities

39 open surface microfluidic platforms based on thermotropic liquid crystals (LCs).

40 zole-based amphiphiles against interfaces of thermotropic liquid crystals (LCs; 4-cyano-4'-pentylbiph

41 f phospholipids at planar interfaces between thermotropic liquid crystals and aqueous phases gives ri

42 Using thermotropic liquid crystals and biological materials, w

43 ied class of liquid crystals are a subset of thermotropic liquid crystals known as calamitic, in whic

44 We report the uniform planar anchoring of thermotropic liquid crystals on films of bovine serum al

45 subunits for the synthesis of a new class of thermotropic liquid crystals via palladium-catalyzed cro

46 ers, surfactants with or without solvent, in thermotropic liquid crystals with end- or side-chains, a

47 simple generic method for the production of thermotropic liquid crystals.

48 urface-driven changes in the orientations of thermotropic liquid crystals.

49 that exhibit a lubricating property akin to thermotropic liquid crystals.

50 as demonstrated through the synthesis of two thermotropic liquid-crystalline fluorescent benzobis(imi

51 ature of the material and induces reversible thermotropic liquid-crystalline transitions.

52 uid crystals are traditionally classified as thermotropic, lyotropic or polymeric, based on the stimu

53 Discovering the thermotropic nature of thermal phase transitions in simp

54 gold nanorods are prepared and dispersed in thermotropic nematic liquid crystals.

55 observed to be much lower than the GO doped thermotropic nematic medium 5CB.

56 al range of 1.5 pN as is true in general for thermotropic nematics, the twist elastic constant is fou

57 K A15 phase through a rapid and irreversible thermotropic order-order transition, which contrary to o

58 such as 1, undergo a series of irreversible thermotropic order-order transitions with increasing tem

59 larized light microscopy to characterize the thermotropic phase behavior and microstructure of diC(14

60 e can be used to exert external control over thermotropic phase behavior and provide access to non-ca

61 cation exchange resin, Dowex 50WX2, and its thermotropic phase behavior and solute-adsorption proper

62 of the components of the lipid bilayer, the thermotropic phase behavior of dimyristoylphosphatidylch

63 ol- (DAG-) enriched and DAG-poor phases, the thermotropic phase behavior of the ternary mixtures dimy

64 e short-chain DMPC showed greater changes in thermotropic phase behavior than with DPPC on taxane add

65 g molecular dynamics, lateral lipid packing, thermotropic phase behavior, "fluidity", lateral mobilit

66 wo fractions are also quite similar in their thermotropic phase behavior, and their high levels of ga

67 The effect of alpha-tocopherol on the thermotropic phase behaviour of aqueous dispersions of d

68 re we report the experimental observation of thermotropic phase boundaries in these classic ferroelec

69 We further document a rich thermotropic phase map that includes DDQC, A15, and sigm

70 alorimetry (DSC) was used to investigate the thermotropic phase properties of binary mixtures of disa

71 ophospholipids (C14 to C18 chain length) the thermotropic phase transition is eliminated at the SML e

72 changes increased with temperature near the thermotropic phase transition of DPPG (about 40 degrees

73 es reveals that KirBac1.1 lowers the primary thermotropic phase transition of Escherichia coli lipid

74 The peptide-induced thermotropic phase transition of MLVs formed of DMPC and

75 -similar assemblies by leveraging the host's thermotropic phase transition.

76 periodicity that are connected through rapid thermotropic phase transitions as a function of increasi

77 MPS-d54, the deuterated species exhibited no thermotropic phase transitions but revealed chain order

78 The effects of these peptides on the thermotropic phase transitions of 1-stearoyl-2-oleoylpho

79 C) between isotropic and chiral nematic (N*) thermotropic phases, which limits their practical applic

80 elatively minor effects on the structure and thermotropic properties of C18:0-SM.

81 The structural and thermotropic properties of dipalmitoylphosphatidylethano

82 The structure and thermotropic properties of N-palmitoyl sphingomyelin (C1

83 The thermotropic properties of triolein-rich, low-cholestero

84 functional utility of the tunability of the thermotropic response of these materials is illustrated

85 ed for the C(26)PA(2) and is identified as a thermotropic smectic liquid crystalline phase.

86 It is a thermotropic (solvent-free) liquid crystal of cubic symm

87 ater), in a range of block copolymers and in thermotropic (solvent-free) liquid crystals.

88 lar dichroism spectroscopy showed no obvious thermotropic structural changes in membrane-bound NRne b

89 only those mutants which also demonstrated a thermotropic structural transition in the complex, and t

90 This assembly leads to the first thermotropic structure of the "double diamond" type.

91 e first two are also present in solvent-free thermotropics, the latter had never been found.

92 ids in the sense that they show that for the thermotropic transition the approximation of phospholipi