ライフサイエンスコーパス: polyurethane

1 precursor incorporated into a two-component polyurethane.

2 sol-gel particle-doped polyurethane; and (4) polyurethane.

3 emicals used in the commercial production of polyurethane.

4 le enzyme preparation and AChE conjugated to polyurethane.

5 improved upon coating the enzyme layer with polyurethane.

6 dal activity with crystal violet (CV) coated polyurethane.

7 4)), anionic (SO(3)), and zwitterionic (GPC) polyurethanes.

8 compounds widely used in the manufacture of polyurethanes.

9 inyl chloride, 0.66 (0.58-0.74); cylindrical polyurethane, 0.61 (0.53-0.70); conical polyvinyl chlori

10 inyl chloride, 0.67 (0.60-0.76); and conical polyurethane, 0.62 (0.55-0.70) (P = 0.55).

11 assessment of leaching from a one-component polyurethane (1C-PU) coating used for hydraulic structur

12 investigated the effect of HK adsorption on polyurethane, a widely used component of extracorporeal

13 FE) core-shell structures using high modulus polyurethane acrylate (PUA) pillars as the support struc

14 ade, and bearing various functional groups), polyurethanes (aliphatic, aromatic, and polycarbonate-ba

15 g patients requiring mechanical ventilation, polyurethane and/or conically shaped cuffs were not supe

16 between the core fiber (silver-coated nylon/polyurethane) and the shell (wrinkled polyvinylidene flu

17 olyethylene, polyoxymethylene, polyacrylate, polyurethane, and semipermeable membrane devices.

18 y in polymer industries (polyvinyl chloride, polyurethanes, and polycarbonates) and in the activation

19 poly(MPC-co-BMA), was used as a coating for polyurethane- and poly(vinyl chloride)-based membranes t

20 (3) NO donor-modified sol-gel particle-doped polyurethane; and (4) polyurethane.

21 , when in solution and when present within a polyurethane-based polymer.

22 For the hybrid sol-gel/polyurethane biosensor, sol-gel particles are first modi

23 al components are designed and fabricated of polyurethane by molding; selected faces are coated with

24 When aligned PCL-nanofibre films in a PCL/polyurethane carrier conduit were inserted in the vicini

25 ws (> or =500 microm) embedded in a layer of polyurethane cast above microfluidic channels fabricated

26 ants received either a standard triple-lumen polyurethane catheter or a catheter that was indistingui

27 her catheter types compared with that of the polyurethane catheter were not significantly different.

28 etention than removal of larger silicone and polyurethane catheters, and cuff retention is usually in

29 quids, porous carbon nanofiber/thermoplastic polyurethane (CNF/TPU) nanocomposites were prepared dire

30 The NO-donating capacities of the polyurethane-coated hybrid materials 1.HM and 2.HM have

31 For example a polyurethane coating containing 20 wt % of NO-releasing

32 ensors were functionalized with NO-releasing polyurethane coatings designed to release similar total

33 of implantation and may be a response to the polyurethane component of the electrodes' surface coat.

34 ness of the male latex condom and the female polyurethane condom by assessing frequency and types of

35 ere we demonstrate stretchable conductors of polyurethane containing spherical nanoparticles deposite

36 film (a mixture of poly(vinyl chloride) and polyurethane) containing a lipophilic 2',7'-dichlorofluo

37 d with advanced endoscopic techniques, newer polyurethane-covered stents, endoscopic microwave coagul

38 signed a unicomponent dopant-free conductive polyurethane elastomer (DCPU) by chemically linking biod

39 g advantage of a mechanical instability on a polyurethane elastomer film, we show that wettability pa

40 he strain-induced softening of thermoplastic polyurethane elastomers (TPUs), known as the Mullins eff

41 Thermoplastic polyurethane elastomers enjoy an exceptionally wide rang

42 ad to main chain scission and an elastomeric polyurethane enabled consecutive compressions with incre

43 in the production of a model polyfluorinated polyurethane, establishing the influence of the irradiat

44 method described the 265 experimental air-to-polyurethane ether adsorption coefficients reported by K

45 sor immobilized by method ii and coated with polyurethane exhibits a linear range to 15 mM glucose an

46 itric oxide gas sensor with thin hydrophilic polyurethane films containing catalytic Cu(II)/(I) sites

47 Polyurethane films did not exhibit leaching of lipophili

48 The PASs, consisting of polyurethane foam (PUF) and sorbent-impregnated PUF (SIP

49 Passive air samplers (PAS) including polyurethane foam (PUF) are widely deployed as an inexpe

50 Polyurethane foam (PUF) disk passive air samplers were d

51 e codeployed and tested against conventional polyurethane foam (PUF) disk samplers.

52 preconcentrated on a mini-column packed with polyurethane foam (PUF) functionalized with N,N-bis(sali

53 ity composted biosolid (CB), PBDE-containing polyurethane foam (PUF) microparticles, and Penta-BDE-sp

54 ion on the use of FRs in products containing polyurethane foam (PUF), we established a screening serv

55 orporating quartz fiber filters (QFFs) and a polyurethane foam (PUF)/XAD/PUF sandwich (PXP) was used

56 wide-range of compounds, sorbent-impregnated polyurethane foam (SIP) disk samplers were codeployed an

57 lers (PAS) consisting of sorbent-impregnated polyurethane foam (SIP) disks in parallel with high volu

58 h were historically or are currently used in polyurethane foam applications.

59 Infant products containing polyurethane foam are commonly treated with organophosph

60 known as V6, is a flame retardant applied to polyurethane foam commonly found in furniture and automo

61 ts validity is questionable for PSMs such as polyurethane foam disks and XAD-resin packed mesh cylind

62 red using passive air samplers equipped with polyurethane foam disks to find spatial information in a

63 ap, we collected and analyzed 102 samples of polyurethane foam from residential couches purchased in

64 ixtures have been increasingly used to treat polyurethane foam in residential upholstered furniture.

65 n what has been reported for the double-bowl polyurethane foam PAS.

66 = 108) were collected as in/out pairs using polyurethane foam passive air samplers (PUF-PAS) from Ja

67 of PCBs and similar compounds captured using polyurethane foam passive air samplers (PUF-PAS).

68 The passive methods included polyurethane foam passive air samplers deployed outdoors

69 A variety of VOCs were identified, with polyurethane foam releasing a greater diversity of VOCs

70 indoor dust samples (n = 17), and from a few polyurethane foam samples for comparison.

71 e to other additive flame retardants used in polyurethane foam such as TBB and TBPH.

72 on secretions from the anterior nares when a polyurethane foam swab was used for collection to that w

73 This study suggests that polyurethane foam swabs perform better than nylon flocke

74 dant (FR) chemicals have often been added to polyurethane foam to meet required state and federal fla

75 ed as a lower limit due to breakthrough from polyurethane foam traps used for sampling.

76 Products dominating PBDE usage were polyurethane foam used in furniture (65% of pentaBDE), c

77 ted and organophosphate compounds applied to polyurethane foam used in furniture and baby products.

78 ion, PEG-modification, and immobilization in polyurethane foam were ineffective in improving enzymati

79 training facilities contain large volumes of polyurethane foam, a material that often contains additi

80 as additive flame retardants for low-density polyurethane foams and have frequently been detected at

81 er 550 components are frequently detected in polyurethane foams and in indoor dust.

82 s as epoxy-amine resins, polyvinyl plastics, polyurethane foams and silicone elastomers.

83 A hybrid sol-gel/polyurethane glucose biosensor that releases nitric oxid

84 In vivo studies, using endothelialized polyurethane grafts, demonstrated significantly higher c

85 Polyurethanes have many properties that qualify them as

86 of 23, respectively) than did the split-tip polyurethane hemodialysis catheter (two [1%] of 196; P <

87 ew indicators are noncovalently entrapped in polyurethane hydrogel D4 and feature absorption maxima i

88 s (aza-BODIPYs) dyes physically entrapped in polyurethane hydrogels and dispersed in silicone rubber.

89 Among different polyurethane hydrogels investigated, the hydrogel D1 fea

90 er-swellable biocompatible polymer matrices (polyurethane hydrogels), thus enabling continuous measur

91 ncern about long-term reliability of coaxial polyurethane ICD leads caused us to systematically study

92 Protein haptenation by polyurethane industrial intermediate 4,4'-methylene diph

93 Study shoes and custom cork or preformed polyurethane inserts conferred no significant ulcer redu

94 shoes and 3 pairs of prefabricated, tapered polyurethane inserts with a brushed nylon cover (n = 119

95 We report on a plasticized polyurethane ionophore-based thin film material (of hund

96 troactive binder composed of polypyrrole and polyurethane is adopted for flexible, high-loading lithi

97 The polyurethane is cured photochemically with the screws in

98 ilized within nanoscale polymeric materials (polyurethane, latex and silicone), through entrapment, a

99 including polydimethylsiloxane Sylgard 184, polyurethane, latex, VHB and Ecoflex.

100 Cu(I), accessibility of the species into the polyurethane layer containing the catalyst, the level of

101 th the NO donor and then incorporated into a polyurethane layer that is coated onto the preimmobilize

102 h Au225(C6)75 MPCs, and coated with an outer polyurethane layer.

103 a semipermeable copolymer membrane and outer polyurethane layers.

104 ixpyrroles embedded in partially hydrophilic polyurethane matrices allow for observation of analyte-s

105 halenesulfonate (DNNS) salt in a plasticized polyurethane matrix, it is shown that poly(amidoamine) (

106 mixture of spherical polystyrene beads in a polyurethane matrix.

107 y of the sol-gel particles in the supporting polyurethane membrane is discussed.

108 onate, respectively, into plasticized PVC or polyurethane membranes and mounting disks of such films

109 Indeed, polyurethane membranes are demonstrated to be useful for

110 he main factors involved in adherence to VAD polyurethane membranes.

111 al polyvinyl chloride (n = 148), cylindrical polyurethane (n = 143), conical polyvinyl chloride (n =

112 cal polyvinyl chloride (n = 150), or conical polyurethane (n = 162).

113 We report the development of polyurethane networks that exhibit self-repairing charac

114 ere allowed to adsorb on 4 different charged polyurethanes: noncharged (PU), cationic (NR(4)), anioni

115 dimethyl siloxane), and of nanostructures in polyurethane or epoxy; and (iii) solvent-assisted microm

116 , poly(alpha-peptoid)s, poly(meth)acrylates, polyurethanes, or polysiloxanes can be obtained in this

117 porosity) released ~100 nmol of NO per mg of polyurethane over 6 h while maintaining a porous structu

118 acterial attachment to a murine intra-aortic polyurethane patch.

119 l infection of implanted murine intra-aortic polyurethane patches.

120 oil microdroplets from water using polyester polyurethane (PESPU) foam.

121 or phenylisocyanate, is a viable method for polyurethane polyol characterization.

122 Analysis of polyurethane, polystyrene, and other polymer samples usi

123 ability of long-chain polyester, polyamides, polyurethanes, polyureas, polyacetals, and polycarbonate

124 used as a cross-linking agent in commercial polyurethane production, is a well-recognized cause of a

125 crosslinking agent used in the production of polyurethane products, can cause asthma in sensitive wor

126 2 nm) film of gold on this surface-contoured polyurethane provides an optically transparent substrate

127 cterizes the molecular surface structures of polyurethane (PU) and plasticized PU films in air, in wa

128 e glycol (PEG) was chemically grafted onto a polyurethane (PU) film to produce a MALDI target having

129 ork, the performance of a new porous medium, polyurethane (PU) foam in a fixed bed reactor for carbon

130 s" are bonded to elastomeric "soft bottoms" (polyurethane (PU) or PDMS-parylene C-PDMS) to create dev

131 throid culture system that utilises a porous polyurethane (PU) scaffold to mimic the compartmentalisa

132 se on silicone surfaces is different than on polyurethane (PU).

133 cial polymeric coatings, Parylene-C (PA) and Polyurethane (PU).

134 ds are embedded in a second polymer (PDMS or polyurethane, PU) using a procedure that leaves the part

135 moieties were incorporated into cross-linked polyurethane (PUR) networks in an effort to achieve self

136 hylene glycol (PEG) to form cross-linked MGP-polyurethane (PUR) networks, these materials are capable

137 MW) determination of polyether and polyester polyurethane (PUR) soft blocks.

138 iisocyanate (MDI), a hard block component in polyurethane (PUR) synthesis.

139 d synthesize a family of novel biodegradable polyurethanes (PUs) based on a poly(epsilon-caprolactone

140 ere reproduced with replica molded synthetic polyurethane quills.

141 Tubes with cuffs made of polyurethane rather than polyvinyl chloride or with a co

142 rces by approximately 72%, when tested using polyurethane rubber block.

143 The cuffs made of polyurethane showed the best short- and long-term sealin

144 Porous polytetrafluoroethylene and polyurethane skirt materials, as well as copolymers of p

145 VAFC employs suction applied to a large polyurethane sponge under an occlusive dressing in the w

146 Nasal fluid was collected using polyurethane sponges and analysed by ImmunoCAP and multi

147 an in vitro aortic ring model and in vivo in polyurethane sponges implanted s.c. RU38486-enhanced ang

148 The susceptibility of segmented polyurethanes (SPUs) to in vivo oxidative cleavage and h

149 n their surfaces to form a contoured film of polyurethane supported on a glass slide.

150 A isomers using modern MS techniques may aid polyurethane synthesis by the characterization of indust

151 diphenyl diisocyanate (MDI) mixtures used in polyurethane synthesis.

152 widely used industrially as a midsegment in polyurethane synthesis.

153 e-epichlorohydrin copolymer (EO-EPI) and the polyurethanes Texin 270, Texin 285, and Tecoflex EG-80A.

154 cological evaluation of LCPM for the case of polyurethane thermoplastic enabled with carbon nanotubes

155 ction with multi-ionophore-based thin films, polyurethane thin membranes allow one to achieve real wo

156 e that the conjugates can be embedded within polyurethane to create a long-lasting antithrombotic coa

157 with immobilized glucose oxidase (GOx); (2) polyurethane to protect the enzyme; (3) NO donor-modifie

158 re randomly assigned to undergo insertion of polyurethane, triple-lumen catheters impregnated with ei

159 For this purpose polyurethane was surface imprinted by insulin, which act

160 Dimethyl sulfoxide and polyurethane were assigned as surrogates to simulate abs

161 To demonstrate the utility of the PSEs, polyurethanes were synthesized from low-molar-mass hydro

162 tapered shape, made of polyvinylchloride or polyurethane, were studied.

163 g a chain-folding polyimide and a telechelic polyurethane with pyrenyl end groups is compatibilized b

164 Furthermore, sulfonic acids gave polyurethanes with higher molecular weights than was obs