ライフサイエンスコーパス: plasticize

1 ed at lower temperature, resulting in better plasticized biopolymer networks in crumb.

2 The soft segments are strongly plasticized by water, lowering the self-healing temperat

3 raction of the material to inert polymer and plasticizing components in order to ensure compositional

4 ee radical polymerization to produce a "self-plasticized" copolymer.

5 We find that the plasticizing effect of ammonium sulfate lowers the visco

6 The addition of PF to formulations exerted a plasticizing effect on the PcF matrix, which was manifes

7 erably its structural properties via an anti-plasticizing effect, as compared to the polymer-water ma

8 ketones, e.g. cyclohexanone, a component of plasticized explosives.

9 ane and the rate of domain coarsening in the plasticized film which helps elucidate the mechanism by

10 tron beam accelerator doses on properties of plasticized fish gelatin film.

11 latter are also glass-forming systems--water-plasticized, hydrogen bond-cross-linked chain polymers (

12 DOS)- and 2-nitrophenyl octyl ether (o-NPOE)-plasticized ISE membranes).

13 ccupational and clinical exposures from DEHP-plasticized medical devices, e.g., blood bags, hemodialy

14 Ultimately, the highly plasticized membranes become insufficiently hydrophobic

15 and density-matched simultaneously to a non-plasticizing mixture of high dielectric solvents.

16 PMMA is negligible, while the sensitivity of plasticized PMMA was similar to or in some cases greater

17 free of ion exchanger and is formulated with plasticized poly(vinyl chloride) (PVC) and an inert lipo

18 The water uptake of plasticized poly(vinyl chloride) (PVC) and silicone rubb

19 ltammetry between an ion-exchanger doped and plasticized poly(vinyl chloride) (PVC) membrane and an e

20 Infiltration of the plasticized poly(vinyl chloride) (PVC) membrane into the

21 The beta value of ion-carrier complex in plasticized poly(vinyl chloride) (PVC) membranes and sol

22 The polymer is plasticized poly(vinyl chloride) (PVC), which is widely

23 roextraction of barbiturates when doped into plasticized poly(vinyl chloride) (PVC).

24 Plasticized poly(vinyl chloride) along with the optode c

25 ein octadecyl ester; ETH-7075) within a thin plasticized poly(vinyl chloride) film are reported.

26 Ion-selective optode membranes, composed of plasticized poly(vinyl chloride) impregnated with an ion

27 Prior to applying the plasticized poly(vinyl chloride) ISM, the oxidation stat

28 ne) film as the intermediate layer between a plasticized poly(vinyl chloride) membrane and a Au elect

29 lectrode is based on the submicrometer-thick plasticized poly(vinyl chloride) membrane spin-coated on

30 the presence of lipophilic cationic sites in plasticized poly(vinyl chloride) membrane.

31 ing a multicyclic guanidinium ionophore in a plasticized poly(vinyl chloride) membrane.

32 n the range of 10(-2) to 10(-3) cm/s at both plasticized poly(vinyl chloride) membrane/water and 1,2-

33 extraction as shown by cyclic voltammetry at plasticized poly(vinyl chloride) membranes containing di

34 vanostatic technique are here evaluated with plasticized poly(vinyl chloride) membranes containing th

35 uld be conveniently blended with traditional plasticized poly(vinyl chloride) or with noncrosslinked

36 method for the preparation of monodisperse, plasticized poly(vinyl chloride) particles based on an a

37 In contrast, plasticized poly(vinyl chloride), polystyrene, and poly(

38 photoacid polymer and a calcium ionophore in plasticized poly(vinyl chloride).

39 ctadecanoylimino-5H-benzo[a]phen-oxazine) in plasticized poly(vinyl chloride).

40 Liquid polymer [highly plasticized poly(vinyl chloride)] films are commonly use

41 lkanecarboxylates at the interface between a plasticized polymer membrane and water to enable the ult

42 r that was coated with a potassium-selective plasticized polymer membrane.

43 f heterogeneous ion-ionophore recognition at plasticized polymer membrane/water interfaces.

44 The detection electrode consists of a plasticized polymeric membrane doped with 10 wt % of tri

45 ilic dye, and lipophilic cationic sites in a plasticized polymeric membrane.

46 ched functionalized groups or impurities) in plasticized polymeric membranes and membrane plasticizer

47 using differential scanning calorimetry for plasticized polymers having a mass fraction of 0, 0.10,

48 We report on a plasticized polyurethane ionophore-based thin film mater

49 dinonylnaphthalenesulfonate (DNNS) salt in a plasticized polyurethane matrix, it is shown that poly(a

50 nclusion that the polymer surfactant coating plasticizes protein structures in a way similar to hydra

51 surface structures of polyurethane (PU) and plasticized PU films in air, in water, and in albumin so

52 The plasticized PVAc composites with Tg < 25 degrees C showe

53 Plasticized PVC as membrane material is less suited for

54 uptake (0.15-0.17 wt %) was obtained for the plasticized PVC based Ca(2+)-selective membranes in DIW,

55 take in 0.1 M CaCl(2) (0.03 wt %) than their plasticized PVC counterparts (0.1 wt %).

56 centration in aqueous and gaseous samples of plasticized PVC film is presented.

57 otometry of organic-phase solutions and thin plasticized PVC films containing In(III) and Ga(III) oct

58 s are prepared by casting thin (5-10 microm) plasticized PVC films containing indium(III) octaethylpo

59 n the solid/liquid interface consisting of a plasticized PVC layer carrying the colorimetric reagent

60 tion in solutions bathing the two sides of a plasticized PVC membrane containing the barbiturate rece

61 erized 60 nm thick film of POT coated with a plasticized PVC membrane exhibited a significant sodium

62 The organic film (a plasticized PVC membrane) improved the detection limit a

63 hat by changing the polymer concentration in plasticized PVC membranes containing artificial receptor

64 demonstrated with approximately 300 nm thin plasticized PVC membranes containing up to two ionophore

65 nospheres are smaller compared with those in plasticized PVC membranes, indicating a more polar nanos

66 onylnaphthalenesulfonate, respectively, into plasticized PVC or polyurethane membranes and mounting d

67 fferent membrane types were studied: (1) the plasticized PVC or SR (RTV 3140) membrane matrix without

68 Microscale plasticized PVC particles doped with hydrophobic ionopho

69 ated into hydrophobic polymeric films (e.g., plasticized PVC), and the resulting materials release NO

70 It was fabricated using plasticized PVC-based micrometer-scale fluorescent micro

71 ization of small, uniform, and mass-produced plasticized PVC-based sensing microspheres in view of ra

72 tions were tested, all of which consisted of plasticized PVC.

73 ptors in the medium in which they will work: plasticized PVC.

74 Plasticized silicone rubber films formulated with two di

75 membrane fluidity by tailoring the amount of plasticizing stimulus present allows us to obtain tempor

76 The capsules are triggered by a plasticizing stimulus that induces a phase change transi

77 Plasticized Teflon AF nanocomposite films show very low

78 Solvents plasticize the films.

79 The results suggest that the water molecules plasticized the polymer matrix, changing the properties

80 minated poly(hexafluoropropylene oxide) (4), plasticizes the films (T(g) = -40 degrees C).

81 l and subsequently coated with Kollicoat SR, plasticized with 10% TEC.

82 pproximately 3-4.5-microm-thick PVC membrane plasticized with 2-nitrophenyl octyl ether was supported

83 ly 1 mum thick poly(vinyl chloride) membrane plasticized with 2-nitrophenyl octyl ether.

84 SPC films plasticized with 40-50% glycerol showed a time-dependent

85 for nonpolar poly(vinyl chloride) membranes plasticized with bis(2-ethylhexyl sebacate) (PVC-DOS) du

86 ly(n-butylacrylate), or poly(vinyl chloride) plasticized with bis(2-ethylhexyl) sebacate without a ne

87 characterized in poly(vinyl chloride) (PVC) plasticized with dioctyl sebacate (DOS) and compared wit

88 nophores in membrane matrixes other than PVC plasticized with DOS may now be experimentally accessibl

89 into the polar poly(vinyl chloride) membrane plasticized with o-nitrophenyl octyl ether (PVC-NPOE) is

90 ane electrodes based on poly(vinyl chloride) plasticized with o-nitrophenyl octyl ether in a 1:2 mass

91 ging agent, with Nafion gel, which is Nafion plasticized with tri-n-butyl phosphate, has been evaluat

92 of soybean protein concentrate (SPC) films, plasticized with varying levels of glycerol and processe