ライフサイエンスコーパス: plastics

1 0.002 mg/kg (fly ash) to 188 +/- 125 mg/kg (plastics).

2 nd third to the leaching of additives of the plastics.

3 ncluding soaps, cosmetics, therapeutics, and plastics.

4 s were used to analyze eight common types of plastics.

5 n made of polypropylene or polystyrene-based plastics.

6 e disruptor widely used in the production of plastics.

7 ngesting soils containing biosolids or waste plastics.

8 in personal care products, medications, and plastics.

9 d by inkjet and gravure printing on flexible plastics.

10 uticals, electronic materials, and commodity plastics.

11 ical conditions typically used in molding of plastics.

12 n developed which can process some BMGs like plastics.

13 is, a species known to colonize the skin and plastics.

14 ive substrates, such as paper, textiles, and plastics.

15 h the rheological characteristics of Bingham plastics.

16 of devices on other flat substrates, such as plastics.

17 for example, in the industrial production of plastics.

18 dely used in the production of polycarbonate plastics.

19 decisions regarding the use of polypropylene plastics.

20 sustainable replacements for petroleum-based plastics.

21 r the surface of microchannels fabricated in plastics.

22 a potential base material for biodegradable plastics.

23 ropogenic and attributed to a combination of plastics.

24 sed to assess the consequence of exposure to plastics.

25 sk factors including obesity and exposure to plastics.

26 y alternative to traditional petroleum-based plastics.

27 yhydroxybutyrate (PHB) and bioethylene-based plastics.

28 iversity of MPL bacterial composition across plastics.

29 nd may confound comparisons of free-floating plastics.

30 ymer industry to increase the flexibility of plastics.

31 Plastics (-0.57 mu/RVU), maxillofacial (1.41 mu/RVU), an

32 four main building blocks of thermoelectric plastics: (1) organic semiconductors and in particular c

33 e fish condition is affected by ingestion of plastics, 1203 individual fish of seven common North Sea

34 optimization, ii) monitor the degradation of plastics after exposure to harsh environmental condition

35 Thermoplastic polymers (plastics) allow easy surface treatment and are generally

36 of fat, sugar, chemical processing aids and plastics, among other elements potentially detrimental t

37 Thus, like synthetic polymers and plastics, amyloid fibrils exhibit both polymorphism, the

38 ompared with a selection of common reference plastics and bio polymers.

39 rogen, is a common component of food storage plastics and dental composites.

40 economically viable approach to sustainable plastics and elastomers for a broad range of application

41 A (BPA) is widely used in the manufacture of plastics and epoxy resins and is prevalent in the aquati

42 cal used in the manufacture of polycarbonate plastics and epoxy resins, and > 93% of U.S. adults have

43 are used in the production of polycarbonate plastics and epoxy resins.

44 dely used in the production of polycarbonate plastics and epoxy resins.

45 that are currently used in the production of plastics and fine chemicals.

46 demonstrations for the microwave bonding of plastics and for making transparent, highly elastomeric

47 dely used on a variety of substrates such as plastics and glass.

48 iofilm formation by Klebsiella pneumoniae on plastics and human extracellular matrix; thus, they may

49 The majority of commodity plastics and materials are derived from petroleum-based

50 acic (275.74 mu vs 233.94 mu) at the top and plastics and maxillofacial contributed the least (-3.83

51 n after acute exposure to both anthropogenic plastics and natural particles.

52 n and after degradation of the polycarbonate plastics and nonionic surfactants.

53 common plasticizers present in medical-grade plastics and other everyday products.

54 women from Ottawa Canada participated in the Plastics and Personal-Care Product Use in Pregnancy (P4)

55 age to low-thermal-budget substrates such as plastics and polymer solar cells.

56 s non-Si based substrates, including papers, plastics and polymers.

57 A (BPA) used in the manufacturing of various plastics and resins for food packaging and consumer prod

58 phenol A (BPA), a chemical incorporated into plastics and resins, has estrogenic activity and is asso

59 d a dissipation of hazardous substances into plastics and the environment, it is recommended that mix

60 the actual environmental risks of different plastics and their associated chemicals remain largely u

61 including low-cost carbon fibers, engineered plastics and thermoplastic elastomers, polymeric foams,

62 stiffness comparable to those of engineering plastics and yet are surprisingly extensible; the tensil

63 formance was also examined using low- (e.g., plastics) and high-energy (e.g., metals, wood) surfaces.

64 shrinking processes common to "heat-shrink" plastics, and can thus be used to create "shrink-to-fit"

65 materials in sediments, including aluminum, plastics, and concrete, coincides with global spikes in

66 ncluding soaps, toothpaste, medical devices, plastics, and fabrics) that are regulated by the U.S. Fo

67 reased for the following industries: rubber, plastics, and leather manufacturing; utilities; office b

68 cal feedstocks for the production of paints, plastics, and lubricants.

69 formance and lower-cost synthetic fibers and plastics, and many improvements in process efficiency an

70 used in batteries, electronics, ammunitions, plastics, and many other industrial applications.

71 nt thermoplastic elastomers, rubber-modified plastics, and semi-crystalline polymers.

72 BP-3 or oxybenzone) is added to sunscreens, plastics, and some coatings to filter UV radiation.

73 persistent organic pollutant adsorbed to the plastics, and third to the leaching of additives of the

74 minations from handling and machining of the plastics, and were not identified with the pigments, alt

75 tarting materials to make films, fibers, and plastics, and with the classic protein fiber stretching

76 Thermoelectric plastics are a class of polymer-based materials that com

77 Both macro- and micro-plastics are found in the ocean, but as yet little is kn

78 Plastics are one of the most widely used materials and,

79 Plastics are persistent synthetic polymers that accumula

80 Plastics are synthetic polymers derived from fossil oil

81 Plastics are the most abundant form of marine debris, wi

82 Plastics are widely used, e.g. as casings of consumer el

83 eptiles, and fishes are directly impaired by plastics as they can get entangled in ropes and drown or

84 hotonics and optoelectronics, with glass and plastics as traditional choice of materials.

85 TFT technology is difficult to implement on plastics because of the high process temperatures requir

86 Analysis of the plastics by infrared spectroscopy showed a large abundan

87 Colistin adherence to plastics can be diminished by adding a surfactant, i.e.,

88 Plastics can be found in all ecosystems across the globe

89 ter represents a mechanism by which floating plastics can be vertically transported away from surface

90 tions and products treated with RDP, such as plastics, can contain RDP impurities, byproducts and bre

91 ation, control or communication functions on plastics cannot be addressed by existing TFT technology.

92 In this study, we show that plastics casings of electric/electronic devices containi

93 d amorphous silicon (a-Si:H) TFSCs on paper, plastics, cell phone and building windows while maintain

94 er with potential commercial applications in plastics, chemicals, and feed markets.

95 on low-melting or reactive materials (e.g., plastics, cloths, bio-organics) and the low temperature

96 ate the estrogenic activity of components of plastics coming from electronics' casings.

97 Bisphenol A (BPA), a plastics component, has been described to impart adverse

98 The plastics consist of patterned mixtures of poly(phthalald

99 The waste plastics consisted of plastics from a motor oil containe

100 y contaminated by various PAEs released from plastics, consumer products as well as ambient suspended

101 Thus, plastics contain a complex blend of stabilizers that pre

102 easible disposal routes for nonbiodegradable plastics containing any of the five tested biodegradatio

103 DP-[Phe]) and RDP oligomers were detected in plastics containing high levels of RDP.

104 These biocatalytic plastics, containing alpha-chymotrypsin and subtilisin C

105 high-performance semiconductors on flexible plastics could enable exciting avenues in fundamental re

106 contaminated with petroleum hydrocarbons or plastics debris.

107 trated on both unfluorinated and fluorinated plastics, demonstrating high tracer recoveries and detec

108 Plastics display great variation of bacterial community

109 monstrating sub-basin scale heterogeneity in plastics distribution and likely reflecting a complex in

110 o postpubertal exposures such as pesticides, plastics, electromagnetic radiation, trauma, and infecti

111 mple compounds, increasing evidence suggests plastics entering the environment are mechanically, phot

112 A (BPA) is widely used in the manufacture of plastics, epoxy resins, and certain paper products.

113 ety of everyday consumer products, including plastics, epoxy resins, and cosmetics.

114 Surprisingly, none of the plastics exposed to offshore conditions displayed the ty

115 free fatty acids and phosphatidic acid) and plastics exposure (monophthalate esters).

116 ge-scale survey of neustonic micro- and meso-plastics floating in Mediterranean waters, providing the

117 te electric and electronic equipment (WEEE), plastics, fly ash, bottom ash, and digestate), leachate

118 Results show that no mixed plastics fraction from WEEE is completely free from subs

119 Mixed plastics fractions with high average concentrations of b

120 Mixed plastics fractions with high average concentrations of h

121 The waste plastics consisted of plastics from a motor oil container (MOC), commercial wa

122 dditives from plastics into the environment, plastics from consumer electronics likely constitute a s

123 e highest concentrations were found in mixed plastics from CRT monitors and TVs.

124 We analyzed both plastics from electrical/electronic equipment that conta

125 The disposal and recovery of plastics from waste electrical and electronic equipment

126 centrations of hazardous substances in mixed plastics from WEEE and their implications for an environ

127 he environment, it is recommended that mixed plastics from WEEE are subject to a strict quality manag

128 udy included 53 sampling campaigns for mixed plastics from WEEE.

129 cells exposed to bisphenol A (BPA; found in plastics), genistein (GEN; found in soybean), or 17beta-

130 lectrolytes to all tested surfaces including plastics, glasses, metals and biological materials.

131 onding of microfluidic chips fabricated from plastics has been developed and optimized.

132 n 123, a compound used in the manufacture of plastics, has recently been suggested to possibly cause

133 tly, wearable and flexible bioelectronics on plastics have attracted great interest for healthcare, s

134 A range of biodegradable plastics have been developed with the aspiration of redu

135 aterials and products, including elastomers, plastics, hydrogels, flexible electronics, resins, engin

136 cell-based materials will replace metals and plastics in implants, and new composite materials will p

137 tely are needed to solve the bigger issue of plastics in the environment.

138 ns and to thereby reduce the accumulation of plastics in the environment.

139 Plastics in the marine environment have become a major c

140 many of the desirable properties of organic plastics, including mechanical flexibility and low produ

141 d a Paecilomyces sp. on hospital fabrics and plastics indicated that viability was variable, with mos

142 n the future, this trend may continue as the plastics industry also is expected to be a major user of

143 posites based on materials that dominate the plastics industry.

144 We predict that plastics ingestion is increasing in seabirds, that it wi

145 to the plausible migration of additives from plastics into the environment, plastics from consumer el

146 d Th mass concentrations in high radiopurity plastics is described, consisting of (1) dry ashing the

147 e carbon nanotubes (CNTs) derived from waste plastics is reported here using a pyrolysis-reforming te

148 To differentiate it from other recyclable plastics, it is designated as #5.

149 Analysis of the plastics lineage F3 generation sperm epigenome previousl

150 d F3 generation male and female animals from plastics lineages.

151 rea of white biotechnology has delivered bio-plastics, low temperature enzyme detergents and a host o

152 The life cycle of nanoscale pigments in plastics may cause environmental or human exposure by va

153 and secondary colonizers across the various plastics may indicate different stages of bacterial colo

154 rming capabilities analogous to conventional plastics, metallic glasses are emerging as a modern engi

155 raying on such common materials as ceramics, plastics, metals, and wood.

156 ects that recycling efforts, namely removing plastics, might have on emissions.

157 osed to either the "plastics" or "lower dose plastics" mixture during embryonic days 8 to 14 of gonad

158 ell-studied xenoestrogen bisphenol A (BPA, a plastics monomer), induces strong brain-specific overexp

159 enol-A (BPA), an endocrine disruptor used in plastics, occurs in the United States on a daily basis.

160 nd surgery (general surgery, otolaryngology, plastics, oculoplastics, surgical oncology) at an academ

161 veloped by recovering 101% to 111% of spiked plastics on glass beads and was then applied to a compos

162 ddressed the physical effects of large-sized plastics on organisms, whereas few have focused on plast

163 ons involving embedding the nanowires within plastics or inks are demonstrated and discussed.

164 neration females were exposed to either the "plastics" or "lower dose plastics" mixture during embryo

165 of temperature-sensitive substrates, such as plastics, organics and even paper.

166 Compared with plastics, paper substrates can dramatically improve film

167 Lower charging rates of rich wastes (plastics, paper, etc.) or diminishing heating values, re

168 m food contact materials (FCMs) that include plastics, paper, metal, glass, and printing inks.

169 Microplastics, plastics particles <5 mm in length, are a widespread pol

170 Thus, more and smaller plastics particles, termed microplastics, reside in the

171 isciplinary team of specialists (oculofacial plastics, pediatric ophthalmology, neuro-ophthalmology,

172 dants and ultraviolet stabilizers), limiting plastics performance and recyclability.

173 henols (NPs) with the surfaces of two common plastics, poly(styrene) and poly(ethylene terephthalate)

174 ommodity chemicals used in the production of plastics, polyesters, nylons, fragrances, and medication

175 enewable chemical for production of biobased plastics (polylactic acid, PLA), is currently commercial

176 se polymers as epoxy-amine resins, polyvinyl plastics, polyurethane foams and silicone elastomers.

177 ectronic systems that use rugged lightweight plastics potentially offer attractive characteristics (l

178 increasing, and degradation of the disposed plastics produces smaller particles toward the nano scal

179 ts the unique advantages that thermoelectric plastics promise to offer.

180 plastics recycling facility in Hamilton, Ontario, Canada

181 se of sediment and seawater, indicating that plastics represent a distinct environmental niche.

182 and biocompatibility of devices in different plastics revealed that only UV-ozone-treated PC and COC

183 ltraviolet light filters, are widely used in plastics, rubbers, colorants, and coatings to increase t

184 Four out of eight of the analyzed plastics samples showed the presence of estrogenic compo

185 ers of at least 200 mm in diameter, flexible plastics sheets of dimensions of at least 225 x 300 mm(2

186 s, including hydrogels, ceramics, metals and plastics, significantly abrogated foreign body reactions

187 become an alternative product to traditional plastics since they are biodegradable and are produced f

188 Common plastics such as polyethylene (PE), polypropylene (PP),

189 x formed in thermal processes using recycled plastics such as polyethylene (PE).

190 many of the most advantageous properties of plastics such as their chemical, physical and biological

191 a strategy for designing stimuli-responsive plastics that are capable of responding to chemical sign

192 ves the way for SiC synthesis on polymers or plastics that cannot withstand high temperatures.

193 A (BPA) is a highly prevalent constituent of plastics that has been associated with diabetes, cardiov

194 Between the two plastics, the LDPE lined pouch showed a considerably hig

195 f the biotransformations that can affect the plastics themselves following ingestion and excretion.

196 tly across 12 specialties (range OR 0.65 for plastics to 1.29 for transplant surgery).

197 alculate the fraction of total HOC sorbed by plastics to be small compared to that sorbed by other me

198 aecal pellets can facilitate the transfer of plastics to coprophagous biota.

199 diation modification of typical cell culture plastics to define a favorable surface environment for h

200 This strategy enables macroscopic plastics to respond quickly to specific applied molecula

201 he rate of response of CDr-based macroscopic plastics to specific applied signals.

202 From synthetic drugs to biodegradable plastics to the origin of life, the chiral selection of

203 The manufacturing of plastics traditionally involves melt processing at tempe

204 eas in this remote part of the world, fed by plastics transported to the North via the Thermohaline C

205 , NP deposits and orders differently on both plastics under humid versus dry environments.

206 be produced on various substrates, including plastics, using a low-temperature assembly process.

207 tegy of assembling functional materials onto plastics utilizes the surface functional molecules of th

208 The relative plastics vs paper mass ratios in particular result in an

209 tion showed that white wine packaged in both plastics was of acceptable quality for 3 months vs. at l

210 series of bromine-containing flame-retardant plastics was used to demonstrate the applicability of pu

211 Plastics were found in all 107 samples, with a maximum c

212 No plastics were found in gray gurnard and mackerel.

213 htly inferior to elephant ivory and selected plastics, while retaining the visual appeal of a natural

214 es with different plastic concentrations, or plastics with a higher affinity for POPs.

215 Plastics with defined absorbance characteristics provide

216 les spanning 70 nm-20 mum in size, including plastics with differing surface properties, and tested t

217 crystal field-effect transistors on flexible plastics with electron mobilities of 21.7 square centime

218 The replacement of current petroleum-based plastics with sustainable alternatives is a crucial but

219 cs with our ecological system is to identify plastics within environmental samples.

220 idly fabricate microfluidic devices in rigid plastics without the need for specialized equipment.

221 pressing scale-free rheology are glassy (see plastics, wood, concrete or some metals for example).

222 ncer and cytogenetic damage among reinforced-plastics workers have produced contradictory results.

223 atid exchanges in the blood of 48 reinforced-plastics workers.