ライフサイエンスコーパス: CNT

1 CNT was drop cast on top of the working electrodes to im

2 CNTs are commonly oxidized prior to their use to enhance

3 were prepared, with 0.01%, 0.02%, and 0.03%, CNTs by weight of cement, along with a control mix witho

4 modeling reveals the critical role of the 1D CNTs in the enhanced flexural strength by increasing the

5 Finally, the MnO(2)/CNTs-60 device exhibits an outstanding high areal energy

6 The MnO(2)/CNTs-60 yarn electrode with ultrahigh mass loading deliv

7 The structure of optimized sample (MnO(2)/CNTs-60, deposition at 60 degrees C) consists of the com

8 ds to surface-catalyzed degradation, and (3) CNTs act as a trap for certain VOCs and prevent them fro

9 nal (2D) transition metal carbonitride, Ti(3)CNT (x) MXene, with a moderate electrical conductivity,

10 is exceptional shielding performance of Ti(3)CNT (x) was achieved by thermal annealing and is attribu

11 ical graphene walls at a high yield of > 90% CNTs.

12 yield (the cathode product consists of > 98% CNTs).

13 T (either multi- or single-walled) to form a CNT/E film on the surface of glassy carbon electrode.

14 we use a biased conducting AFM tip to gate a CNT-FET at the nanoscale and demonstrate that the strong

15 ly stretchable fiber strain sensor made of a CNT/polymer composite.

16 urface tension of liquid silver to suspend a CNT between two Pd electrodes, was proposed for the dete

17 In general, adding CNTs to the concrete mix increased the rate of corrosion

18 of the experimental work showed that adding CNTs led to an increase in the compressive, tensile and

19 In addition, CNT surface oxides can be unintentionally formed or modi

20 be unintentionally formed or modified after CNTs are released into the environment through exposure

21 ze fractioned analysis of collected airborne CNT fibers to improve the sampling and analytical method

22 ent for selective quantification of airborne CNT concentration.

23 sed on carbon nanotube-bovine serum albumin (CNT-BSA) hybrid system, by which sensitivity and detecti

24 This all-CNT thread three electrode cell has been evaluated as a

25 duce structural defects resulting in altered CNT-biomolecule interactions.

26 Although CNT shows the promise to be used as reinforcement in a h

27 tage and high-performance digital and analog CNT TFT circuits based on high-yield (19.9%) and ultrahi

28 performance of the hand fabricated AgNPs and CNT/AgNPs electrodes was tested using cyclic voltammetry

29 Each enzyme (E) was mixed with chitosan and CNT (either multi- or single-walled) to form a CNT/E fil

30 sed with weight percent (wt %) of CNTs), and CNT type (i.e., greater uptake with carboxylated CNTs co

31 n, delineation between competing Nazarov and CNT pathways is controlled by the nature of the acid cat

32 SEM examination for control and CNTs specimens showed that CNTs specimen were well struc

33 at low yield (only ~ 15% of the product are CNTs).

34 In this article, CNTs have been introduced to high-strength epoxy adhesiv

35 ed spatially confined placement of assembled CNT arrays within polymethyl methacrylate cavities to de

36 on visual evaluation) for CuNP/CNT/GCE, AuNP/CNT/GCE and p-XO/PGE were calculated as 100 ug/L, 125 ug

37 combines the synergistic properties of both CNTs and AuNPs, represents a promising signal amplificat

38 ocessing stages of composites by co-braiding CNT-enabled fiber sensors into the reinforcing fiber fab

39 f enzymatic activity of all four oxidases by CNT.

40 ue to the carbothermic reduction of Fe3O4 by CNTs during high temperature solid state reaction.

41 = 7 with 3 Sun illumination, the n-Si/TiO2/C/CNT/[1+1(O)] electrodes exhibited current densities of 1

42 type (i.e., greater uptake with carboxylated CNTs composites).

43 imal ENM-CNTs (PAN with 20 wt % carboxylated CNTs) yielded atrazine concentrations in surface water w

44 nanoparticles have been observed to catalyze CNT growth at temperatures below 400 degrees C.

45 The Ag|AgCl coated CNT thread electrode provided a stable potential compara

46 Escherichia coli CNT family member NupC resembles hCNT1 in permeant selec

47 taining constituents potentially complicates CNT risk assessment as analysis techniques focusing sole

48 Carbon Tubes (CNTs) in reinforced concrete (CNT-CRETE).

49 ime, a lightweight, flexible, and conductive CNT-multilayered graphene edge plane (MLGEP) core-shell

50 s and compared them to age-matched controls (CNTs).

51 (positive pharmacophore) sorbed most to COOH-CNTs, indicating the importance of charge interactions a

52 deposition surfaces were obtained as PCL/CP/CNT 0.0 g/L and PCL/CP/CNT 0.5 g/L.

53 re obtained as PCL/CP/CNT 0.0 g/L and PCL/CP/CNT 0.5 g/L.

54 talyst phenomenon that we leverage to create CNTs without residual catalyst particles for application

55 values (based on visual evaluation) for CuNP/CNT/GCE, AuNP/CNT/GCE and p-XO/PGE were calculated as 10

56 The curved CNT scales are fabricated by a strain-engineered chemica

57 hrough a three-dimensional network of curved CNTs is developed in order to analyze the electromechani

58 Rigid-body movement of the curved CNTs within the polymer matrix is described analytically

59 om improved separation techniques to deliver CNTs with current formulations providing at least 99% se

60 tion and pseudo-CMOS design, we demonstrated CNT TFTs with good uniformity and high performance at lo

61 ers, and theoretical models used to describe CNT sensors.

62 Using various designed CNT scale arrays, it is demonstrated that the anisotropy

63 thin walled CNTs uniform (22-42 nm diameter) CNTs consisting of ~ 25 concentric, cylindrical graphene

64 hout the problems associated with dispersing CNTs and the health hazard of handling a Nano material.

65 Their effective CNT volume fractions are estimated by comparing the expe

66 All eight CNT/E films displayed redox activity depicted by voltamm

67 nalysis techniques focusing solely on either CNT fluorescence or metal fingerprints may misrepresent

68 HD-CNTf rods microelectrodes have open-ended CNTs exposed at the interface with electrolytes and cell

69 difference of 30 (+/-20)% when comparing ENM-CNT sampler results to grab sample data collected within

70 ity uptake and small material footprint, ENM-CNT equilibrium passive samplers represent a promising a

71 der 0.8 days (t(90%) values) in nonmixed ENM-CNT systems.

72 Sorption capacity of ENM-CNTs was between 2- and 50-fold greater than pure polyme

73 dy Creek in North Liberty, Iowa, optimal ENM-CNTs (PAN with 20 wt % carboxylated CNTs) yielded atrazi

74 alkali group metal catalyst demonstrated for CNT growth, holds great promise for expanding the unders

75 Current methods used for CNT aerosol measurement lack selectivity to specific for

76 We verified the expression of four CNTs across stages.

77 les for applications that require metal-free CNTs.

78 net charge leached at the slowest rate from CNT/E films.

79 ically measurable (for molecules remote from CNT).

80 rectional interfacial electron transfer from CNTs to MHCF coupled with N-driven intramolecular electr

81 sults suggest that the use of functionalised CNTs for dsRNA delivery could increase the efficacy of R

82 Functionalized CNT with different alloyed metal oxides enhanced the abs

83 The resulting functionalized CNT is mixed with polyurethane polymer at 5% wt of the t

84 32% reduction in the band gap of narrow-gap CNTs.

85 Graphene oxide-carbon nanotube composite (GO-CNT), Graphene oxide nanosheets (GO) and Iron oxide nano

86 bonds (0.18 mm thickness), possessing higher CNT contact points than thick bonds (0.43 mm thickness),

87 in S compared with the properties of hollow CNTs at room temperature.

88 model of CNT membrane architecture for human CNTs, revealed extended conformationally mobile regions

89 splaying a spectrum of enzymatic activity in CNT/E films ranging from voltammetrically untraceable (f

90 Along with recent advance in CNT growth technique, we will be able to directly measur

91 demonstrate a promising application of BO in CNT synthesis as an efficient and robust algorithm which

92 the discussion of the sensing mechanisms in CNT-based devices, the chemical methods of CNT functiona

93 light the critical role of metallic tubes in CNT-FET biosensor devices and demonstrate that network c

94 Catharanthus plants cultivated in CNTs or graphene supplemented soil accelerated total flo

95 con, the nature of the transport band gap in CNTs is not fully understood.

96 ible channels, both of which are observed in CNTs but not in the analogous all-hydrocarbon nanohoop s

97 orting the Young's modulus of the individual CNT up to 1 TPa.

98 The EAPC on intact CNTs can improve enzyme loading and stability with key r

99 CNTs and simply-adsorbed GOx (ADS) on intact CNTs, respectively.

100 We report the precise scaling of inter-CNT pitch using a supramolecular assembly method called

101 The MXene-knotted CNT composite electrodes achieve high capacitance (up to

102 i(3)C(2) by using specially designed knotted CNTs.

103 e large, knot-like structures in the knotted CNTs prevent the usual restacking of the Ti(3)C(2) flake

104 Under optimized synthesis conditions, LFO/CNT composites could be synthesized without the formatio

105 d characterization of a sub-micron sized LFO/CNT composites.

106 The fabric decorated with fluffy-like CNTs possesses exceptionally large contact area, endowin

107 ere we show that instillation of either long CNTs or long asbestos fibers into the pleural cavity of

108 ge form a common molecular signature of long-CNT- and long-asbestos-fiber-induced pathology.

109 red s (ARS) in the boron-ARS complex at MNP/CNT/GCE and the oxidation of tiron in the B-tiron comple

110 notube modified glassy carbon electrode (MNP/CNT/GCE, M = Au or Cu) and poly xylenol orange modified

111 t either a nitrogen-doped carbon nanotube (N-CNT) electrode or a commercial glucose test strip.

112 2) with a nitrogen-doped carbon nanotubes (N-CNT) electrode, which could detect 0.50 muM H(2)O(2) at

113 and electrode stability allowed use of one N-CNT electrode for over half a year to reliably determine

114 The assays at the N-CNT electrode detected LE down to 0.81 nM (25 mug L(-1))

115 chinlike" carbon nanotube-gold nanoparticle (CNT-AuNP) nanoclusters, for signal amplification.

116 ng continuous production of carbon nanotube (CNT) aerogels.

117 presented by inhalation of carbon nanotube (CNT) aerosol in workplace atmospheres.

118 sing DNA-templated parallel carbon nanotube (CNT) arrays as model systems, we developed a rinsing-aft

119 Carbon nanotube (CNT) can be described as carbon sheet(s) rolled up into

120 nanoparticles anchored on a carbon nanotube (CNT) cloth freestanding hybrid film as the cathode, is d

121 report a new type of MXene-carbon nanotube (CNT) composite electrode that maximizes ion accessibilit

122 nsor was developed based on carbon nanotube (CNT) deposits with controlled thicknesses for enhanced e

123 studies were performed with carbon nanotube (CNT) films and 3D graphene foams.

124 de (2D-PAI) integrated with carbon nanotube (CNT) is demonstrated for the use as cathode material in

125 A maximum carbon nanotube (CNT) loading of 6 wt % was attained with the current fab

126 A switchable carbon nanotube (CNT) membrane device has been developed for transdermal

127 rfaces coated with flexible carbon nanotube (CNT) microscales with anisotropic drop adhesion properti

128 ionalized high-aspect-ratio carbon nanotube (CNT) nanoparticles (NPs), enabling efficient DNA deliver

129 s begins with deposition of carbon nanotube (CNT) or graphene oxide (GO) particles on the FN layer.

130 Carbon nanotube (CNT) sampling using an open-faced 25 mm cassette fiber s

131 Graphene (Gr) and Carbon nanotube (CNT) saturable absorbers (SAs) are considered as broadba

132 In single-walled carbon nanotube (CNT) synthesis, for instance, the poor yield obtained fr

133 Carbon nanotube (CNT) thin-film transistor (TFT) is a promising candidate

134 y, are detected easily with carbon nanotube (CNT)-assisted low-voltage ambient ionization mass spectr

135 havior of trees, the use of carbon nanotube (CNT)-modified flexible wood membrane (F-Wood/CNTs) is de

136 channel and semiconducting carbon nanotubes (CNT) allows for an exceptional experimentally measured o

137 s on tensile properties of carbon nanotubes (CNT), reporting the Young's modulus of the individual CN

138 our approach, we selected carbon nanotubes (CNT)-based inkjet-printed disposable electrodes for the

139 DET) to glucose oxidase at carbon nanotubes (CNT).

140 raphene reinforced with 1D carbon nanotubes (CNTs) (3DP GC) with both high flexural strength and hier

141 nanocomposite filament of carbon nanotubes (CNTs) and acrylonitrile-butadiene-styrene (ABS) was anal

142 face comprising a blend of carbon nanotubes (CNTs) and graphene (GR) was employed to enhance the surf

143 dered graphitic materials (carbon nanotubes (CNTs) and graphene).

144 he use of dendrimer-coated carbon nanotubes (CNTs) as a delivery vehicle for dsRNA was assessed in Tr

145 y of benzoic acid on these carbon nanotubes (CNTs) can be as high as 375 mg/g, which is significantly

146 Carbon nanotubes (CNTs) embedded polymers are of increasing interest to sc

147 frameworks on multiwalled carbon nanotubes (CNTs) followed by adsorption of furfuryl alcohol and pyr

148 l properties of individual carbon nanotubes (CNTs) has been an important open question since the firs

149 Carbon nanotubes (CNTs) have unique physical and chemical properties that

150 For carbon nanotubes (CNTs) in particular, the inability to access structures

151 ss to modify properties of carbon nanotubes (CNTs) including size, capping, and functionalization.

152 rication of semiconducting carbon nanotubes (CNTs) into densely aligned evenly spaced arrays is requi

153 rbon nanomaterials such as carbon nanotubes (CNTs) is a key driver for achieving advances in energy s

154 fabric with in situ grown carbon nanotubes (CNTs) is developed.

155 ated, high yield growth of carbon nanotubes (CNTs) is inhibited in electrolytes containing over 50 wt

156 al effects of graphene and carbon nanotubes (CNTs) on fiber-producing species (cotton, Gossypium hirs

157 Carbon nanotubes (CNTs) promise to advance a number of real-world technolo

158 as immobilized on modified carbon nanotubes (CNTs) through electrostatic interactions.

159 Carbon nanotubes (CNTs) were used as a conductive skeleton to anchor highl

160 Carbon nanotubes (CNTs) were utilized as conductive scaffolds to enhance t

161 sor consists of a layer of carbon nanotubes (CNTs) which were casted on a carbon working electrode ar

162 GNPs), quantum dots (QDs), carbon nanotubes (CNTs), and graphene oxide (GO).

163 ler diameter morphology of Carbon Nanotubes (CNTs).

164 ered activated carbon, and carbon nanotubes (CNTs).

165 th higher-Fermi-level pure carbon nanotubes (CNTs, electron donors), followed by surface modification

166 anese nanostructures based carbon nanotubes (CNTs-Mn NPs) composite, for the determination of ascorbi

167 d two types of multiwalled carbon nanotubes (CNTs; with and without surface carboxyl groups) into pol

168 Clostridial neurotoxins (CNTs), which include botulinum neurotoxins (BoNTs) and t

169 sorbed most extensively to nonfunctionalized CNTs, whereas desnitro-imidacloprid (positive pharmacoph

170 ghly conductive surface platform and a novel CNT-based signal amplification strategy to develop a lab

171 of CNT-based sensors and the application of CNT-based devices in chemical sensing.

172 then discusses the expansive applications of CNT-based sensors to multiple areas including environmen

173 hat give rise to the sensing capabilities of CNT-based sensors and the application of CNT-based devic

174 ce area and super electronic conductivity of CNT-AuNP clusters, this novel designed 3D radial nanostr

175 ctional groups in regulating the efficacy of CNT-enabled water treatment technologies and the influen

176 We explore hand fabrication of CNT modified AgNPs electrodes using wax-on-plastic platf

177 characterize the respirable size fraction of CNT aerosols.

178 s of such porous structures as a function of CNT loading and the method used for their surface functi

179 it is important to understand the impact of CNT surface oxidation on the environmental fate, transpo

180 n CNT-based devices, the chemical methods of CNT functionalization, architectures of sensors, perform

181 newly developed structural homology model of CNT membrane architecture for human CNTs, revealed exten

182 Most of CNT structures collected by the new direct sampling devi

183 thm which can (1) improve the growth rate of CNT in the BO-planner experiments over the seed experime

184 In addition, the corrosion resistance of CNT-CRETE, was measured and compared to traditional conc

185 The electrochemical response of CNT/AgNPs electrodes was relatively faster, higher, and

186 spended CNT and about 50% sensing surface of CNT was freed from substrate.

187 an increased risk associated with the use of CNT nanocomposites in 3D printing.

188 t difference between the mean grey values of CNT vs. AD and neocortical LBD vs. AD.

189 Random arrangements of CNTs within the composite are generated by a Monte-Carlo

190 on the important environmental behaviors of CNTs in aqueous media (e.g., colloidal stability, adsorp

191 Stemming from the observed capacities of CNTs to enter various types of cells via diversified mec

192 ns developmental processes while hundreds of CNTs were found to be widely expressed and predicted to

193 oscopy confirmed the surface modification of CNTs by amine groups, whereas dynamic light scattering e

194 The evolutionary origins of CNTs and their relationships to other proteins remains a

195 The presence of CNTs in the filament influenced VOC yields and product r

196 While the presence of CNTs in the filament lowered the total VOC emission unde

197 an be combined with the unique properties of CNTs in terms of signal response enhancement for direct

198 ange of the optical absorptive properties of CNTs upon biorecognition interactions provides a way to

199 irect evidence for understanding the role of CNTs/MnO2 in the lithiation process used in lithium ion

200 chemical vapor deposition (CVD) synthesis of CNTs catalyzed by reagent-grade common sodium-containing

201 vironmental fate, transport, and toxicity of CNTs.

202 or passive routes of cell uptake, the use of CNTs for the delivery of therapeutic agents has drawn in

203 and 4.5 times higher activity per weight of CNTs than those of CA and EC, respectively.

204 lues increased with weight percent (wt %) of CNTs), and CNT type (i.e., greater uptake with carboxyla

205 cally untraceable (for molecules adsorbed on CNT) to amperometrically measurable (for molecules remot

206 fficient electrochemical biosensors based on CNT nanocomposite MNAs.

207 ly stretchable fiber strain sensors based on CNT/polymer composites.

208 The effect of tissue fouling on CNT yarns was studied for the first time, and the relati

209 face interactions: (1) adsorption of O(2) on CNTs lowers the available O(2) for oxidation of primary

210 However, chemical sensors based on CNTs are often lacking in selectivity, and the elucidati

211 The grafted MLGEPs on CNTs can obviously enhance the penetration losses of mic

212 ing oxygen-containing functional groups onto CNT surfaces.

213 mplex was immobilized by pi-pi stacking onto CNTs that had been deposited by drop casting onto Si ele

214 pe and preferred cyclization pathway (NAC or CNT) has been studied with respect to 3-aryl-2-carboxypr

215 Polyacrylamide-coated, carbon nanotube (PA/CNT) electrodes were prepared by an inkjet printing proc

216 The PA/CNT electrodes were also used to quantify pyocyanin conc

217 The PA/CNT inkjet-printed electrodes and electrical contacts we

218 fter 8000 cycles) are achieved in the 2D-PAI@CNT cathode, which far exceeds the state-of-the-art poly

219 The synthesized polyarylimide hybrid (2D-PAI@CNT) is featured with abundant pai-conjugated redox-acti

220 Finally, the hand-painted CNT/AgNPs electrodes were applied to detect carcinoembry

221 ith double-stranded RNA bound to CNTs (PAMAM-CNT-dsRNA), compared to those injected with target dsRNA

222 ing phenotype was found in a subset of PAMAM-CNT-dsRNA(alphatub) injected larvae, relative to the lev

223 PAMAM-CNTs were visualised in cellular vacuoles and in the cel

224 amidoamine dendrimer carbon nanotubes (PAMAM-CNTs) did not affect T. castaneum larval mortality.

225 astaneum larvae following injection of PAMAM-CNTs.

226 First, a continuous mesoporous PAN/CNT based 3D monolith was established by using a templat

227 h DNA hybridization, we constructed parallel CNT arrays with a uniform pitch as small as 10.4 nanomet

228 Then the GOx@PAVE-CNTs bio-nanocomposites were electro-deposited onto elec

229 g necklace-like bio-nanocomposites (GOx@PAVE-CNTs) with GOx-loading polymeric nanoparticles as nanobe

230 PEDOT/CNT was also functionalized onto individual gold electro

231 Incorporation of a PEDOT/CNT coating significantly increases the sensitivity for

232 SWV measurements performed at PEDOT/CNT-functionalized CFEs implanted in the rat dorsal stri

233 PEDOT/functionalized carbon nanotube (PEDOT/CNT)-coated carbon fiber microelectrodes (CFEs) are capa

234 SWV detection paired with PEDOT/CNT functionalization is highly adaptable and shows grea

235 he absorption efficiency of the polyurethane/CNT composites.

236 In the absence of pores, CNT predicts that the nucleation barrier is insurmountab

237 We demonstrate that porous CNT/polymer composites can be used as self-heating membr

238 great potentials of using solution-processed CNT TFTs for large-scale flexible electronics.

239 er type (hydrophilic PAN or hydrophobic PS), CNT loading (i.e., values increased with weight percent

240 LCPM from PU-CNT shows significantly higher cytotoxicity compared to

241 tally because of the difficulty of realizing CNT-encapsulated molecules as part of thermal transport

242 The proposed voltammetric platform, RuNPs/CNTs/GCE, highly improved the voltammetric process of ca

243 ction in the transport gap of semiconducting CNTs, and a 32% reduction in the band gap of narrow-gap

244 rity (99.997%) polymer-sorted semiconducting CNTs.

245 Their fabrication starts with dry spun CNT fibers that are encapsulated in an insulating polyme

246 ent a general approach to access solid-state CNT mimic structures via the self-assembly of fluorinate

247 ensity promotes CNS growth while suppressing CNT growth.

248 Na is shown to synthesize CNTs on numerous substrates, and as the first alkali gro

249 d of mesothelioma development and shows that CNT and asbestos pose a similar health hazard.

250 h the control specimen and this affirms that CNTs act as bridges across micro cracks, which explains

251 n for control and CNTs specimens showed that CNTs specimen were well structured compared with the con

252 The CNT enabled smart fabrics, fabricated by a cost-effectiv

253 The CNT membrane device on HGP skin resulted in an ON/OFF ni

254 The CNT modified adhesive in bonded joints and the CNT modif

255 The CNT nanoparticles are functionalized with metallic oxide

256 T modified adhesive in bonded joints and the CNT modified adhesive alone have been tested under monot

257 Benefits from the separation between the CNT and the substrates could be observed; namely, the co

258 their impact on sensing is heightened by the CNT network's proximity to percolation.

259 e of absorption can be tuned by changing the CNT concentration, and the material thickness.

260 To form the sensor device, the CNT deposits were functionalized via electrocoating of p

261 ion failure progression, irrespective of the CNT dispersion quality.

262 l in the self-assembly and robustness of the CNT mimic systems.

263 Due to the synergistic effects of the CNT substrate and Mo(2) C catalyst, it achieves a low ch

264 nges in the piezo-resistivity induced by the CNTs have been monitored in situ with respect to loading

265 ithium carbonate electrolyte boron dopes the CNTs increasing their electrical conductivity tenfold, a

266 onductivity and mechanical robustness of the CNTs, and the ability to fabricate complex multidirectio

267 MLGEPs are seamlessly grown on the CNTs, and the hybrid foam exhibits excellent EMI shieldi

268 ic process of capsaicin in comparison to the CNTs/GCE and bare GCE.

269 Using classical nucleation theory (CNT) and molecular dynamics simulations (MDS), we show t

270 r intrusion and classical nucleation theory (CNT) for extrusion-because of the peculiar behavior of w

271 These CNT deposits were characterized using confocal laser mic

272 X-ray crystallography reveals that these CNT mimics exhibit uniform channel diameters that are pr

273 ically encoded azide group and then bound to CNT ends in different configurations: in close proximity

274 ng in AD in every cortical layer compared to CNT and neocortical LBD.

275 e injected with double-stranded RNA bound to CNTs (PAMAM-CNT-dsRNA), compared to those injected with

276 The exposure of seeds to CNTs or graphene led to the activation of early seed ger

277 (2) adsorption of styrene and other VOCs to CNTs leads to surface-catalyzed degradation, and (3) CNT

278 5%, 10%, and 20% concentration of the total CNT percentage weight.

279 pts (PNTs) and completely novel transcripts (CNTs) (novelty score >/= 70%) revealed that the PNTs are

280 rk carbon nanotube field-effect transistors (CNT-FETs) have benefitted from improved separation techn

281 in a cyclodehydrative-nucleophilic-trapping (CNT) sequence, involving a reactive allyl cation interme

282 covalently-attached GOx (CA) on acid-treated CNTs and simply-adsorbed GOx (ADS) on intact CNTs, respe

283 e evaluation of utilizing Nano Carbon Tubes (CNTs) in reinforced concrete (CNT-CRETE).

284 are our model with experimental results, two CNT/polymer composite fibers were fabricated and tested

285 sion electron microscopy (TEM) reveal unique CNT morphologies and growth characteristics, including a

286 ) than that of a FET based on an unsuspended CNT and about 50% sensing surface of CNT was freed from

287 Benefits from using CNTs were limited to moderate.

288 In vitro, CNT membrane devices successfully switched between thera

289 inuously measuring a transient single-walled CNT aerosol.

290 selectively quantifying trace single-walled CNT in the presence of interfering agents such as diesel

291 on limit of the method for the single-walled CNT studied in this work was 60 ng m(-3), corresponding

292 r, highly uniform (50-80 nm diameter) walled CNTs, consisting of ~ 75 concentric, cylindrical graphen

293 pted to produce functionalized single-walled CNTs (SWNTs) with surface chemistries optimized for deli

294 ithium carbonate electrolyte, thicker walled CNTs (100-160 nm diameter) are synthesized during a 4 h

295 um carbonate, produces unusually thin walled CNTs uniform (22-42 nm diameter) CNTs consisting of ~ 25

296 ports the electrosynthesis of thinner walled CNTs, but at low yield (only ~ 15% of the product are CN

297 nd strengths of the samples with and without CNTs were investigated.

298 of cement, along with a control mix without CNTs.

299 CNT)-modified flexible wood membrane (F-Wood/CNTs) is demonstrated as a flexible, portable, recyclabl

300 stal-based nanotrenches to align DNA-wrapped CNTs through DNA hybridization, we constructed parallel