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1 e matrix, and desorbing sample directly from Teflon.
2 ndividual peptides blotted onto either PE or Teflon.
3 d sticks to a variety of surfaces, including Teflon.
4  had decreased wettability (contact angle on Teflon 100 degrees versus 84.67 degrees; p = 0.001), inc
5 possible multilayer solution was shown using Teflon AF 1600, with refractive index approximately 1.3.
6 able suspensions of the fluorocarbon polymer Teflon AF 2400 (T(g) approximately 240 degrees C), fluor
7 ent a novel approach to create nanocomposite Teflon AF 2400 films with the polymer in different state
8 strated in this study were constructed using Teflon AF 2400 tubing with a refractive index of 1.29.
9                              Stable films of Teflon AF 2400 were cast from solution.
10  design and a highly CO2-permeable membrane (Teflon AF 2400) to achieve flow-through CO2 equilibratio
11 n, we have focused on fluorous media such as Teflon AF 2400.
12 developed for a plug-based system: (i) using Teflon AF coating on the microchannel wall to enable for
13 rties of bilayer recordings on micropores in Teflon AF films were exploited to record the smallest co
14  sandwiching the PtTFPP-PDMS with a layer of Teflon AF followed by a second PDMS layer, effectively m
15            Microfabricated pores in films of Teflon AF made it possible to examine, experimentally an
16                                  Plasticized Teflon AF nanocomposite films show very low solvent sorp
17 to 800 micro m in films of amorphous Teflon (Teflon AF).
18 tube reactor design built with semipermeable Teflon AF-2400 tubes, liquids can be rapidly saturated w
19 lly available Diazald within a semipermeable Teflon AF-2400 tubing and subsequently selectively separ
20 The eluted NPs are measured with a long path Teflon AF-based liquid core waveguide (0.15 x 1420 mm) i
21 c optical waveguide spectrometer that uses a Teflon-AF 2400 liquid core waveguide is described.
22 rities is moved by EWOD and deposited onto a Teflon-AF surface.
23 re optical fiber (LCOF) Raman cell made from Teflon-AF.
24 e ne) (87% dioxole monomer content; known as Teflon AF2400) as polymer matrix, a linear perfluoroolig
25 ecause of a functional group associated with Teflon AF2400, with a concentration of one functional gr
26  fluoride (COF) groups originally present in Teflon AF2400.
27 ct angle of tear components were observed on Teflon and ferric-stearate-treated surfaces.
28        The system comprises millimeter-scale Teflon and Nylon-6,6 (spherical or cylindrical) beads (a
29 use of MALDI-MS compatible membranes such as Teflon and polyethylene (PE) as the blotting media for f
30 ethod was developed using exclusively glass, Teflon and stainless steel materials.
31 or two model systems: SU-8 photo resist over Teflon and SU-8 photo resist over polystyrene.
32 ymeric beads, e.g., polytetrafluoroethylene (Teflon) and polyamide-imide (Torlon), discharge when the
33 n, and at least MNM requires the function of teflon, another meiotic gene.
34                  We also examined the use of Teflon as a sample support for protein analysis since Te
35 ach of rhSCF, rhG-CSF, and PEG-rhMGDF in 1 L Teflon bags at 20 000 cells/mL.
36 healing using porous (P) and non-porous (NP) teflon barrier membranes plus demineralized freeze dried
37 ith the neurons via axons that penetrate the Teflon barrier.
38 ited either on paraffin-coated plates (PCP), Teflon-based AnchorChip plates, or stainless steel plate
39 lectrostatic charges on the larger Nylon and Teflon beads, but leaves the smaller PMMA beads essentia
40  misfolding cyclic amplification (PMCA) with Teflon beads.
41 des, based on the dispersion of CNT within a Teflon binder, are described.
42 e not impaired by their association with the Teflon binder.
43 ressions from polytetrafluoroethylene (PTFE [Teflon]; BioPore; Millipore, Billerica, MA) membrane com
44 ssolved impurity levels in the water for the Teflon bottle decreased from 7.8 to 3.7 ng mL(-1) over t
45 icle concentrations and storage stability, a Teflon bottle yielded the best performance.
46 oncentrations from deionized water stored in Teflon bottles showed a net decrease during the measurem
47 into contact with poly(etheretherketone) and Teflon capillaries.
48 ging of bioluminescent bacteria colonized on Teflon catheters.
49 rature and atmospheric pressure in an indoor Teflon chamber and novel mono-NO2-DaiP and mono-NO2-DalP
50 aken up by liquid organic seed particles and Teflon chamber walls.
51                               A flow-through Teflon chamber was used to expose the fibers to certifie
52 tinuous flow experiments in a 10 m(3) indoor Teflon chamber.
53 ing ratios of limonene and ozone in a 5 m(3) Teflon chamber.
54 del, we infected neuron cell bodies grown in Teflon chambers and observed spread of infection to nonn
55 ulation, which involves insertion of a small Teflon chip between the cribriform plate and the bulb, p
56 ced on low-density polyethylene surfaces and Teflon-coated glass slides were cut with superhydrophobi
57  decreased by 15% (p<.001) while pressing on Teflon compared to sandpaper.
58 ractive performance of carbon nanotube (CNT)/Teflon composite electrodes, based on the dispersion of
59          The use of an amperometric graphite-Teflon composite tyrosinase biosensor for the rapid moni
60                       The preparation of CNT/Teflon composites overcomes a major obstacle for creatin
61  a pH 1 buffer solution, and sealed in 90-mL Teflon containers.
62 llustrated from comparison to their graphite/Teflon counterparts.
63 ynthesized using the closed quartz tube with Teflon cover and microwaved 200 degrees C for 1h with po
64                                            A Teflon covered custom-molded splint was placed on the fi
65       We also show that contacting PMMA with Teflon depletes this electronic surface charge.
66                                    Micropore Teflon diffusion chambers were implanted subcutaneously
67 similar for dispersions of PPL and mPPL in a Teflon dish with a stirred subphase to minimize diffusio
68 d fundamental SOA formation experiments in a Teflon environmental chamber using a novel method.
69  gas-phase organic compounds to the walls of Teflon environmental chambers is a recently reported phe
70 eling of the sinus of Valsalva segments with Teflon felt "neo-media" and aortic valve resuspension (7
71 forcement of the residual arch tissue with a Teflon felt "neo-media"; cannulation of the arch graft t
72 een the droplet and the thermocouple and the Teflon film on the heater surfaces.
73 hylene) film bag batch reactors, and outdoor Teflon-film smog chambers strongly confirm that inorgani
74 iameter) and a rotating, silicone oil-coated Teflon filter substrate at 1 rpm to achieve a uniform pa
75 and elemental carbon (OC/EC) analysis and on Teflon filters for gravimetric and trace element analysi
76  We procured 4,085 daily samples of PM2.5 on Teflon filters from the Connecticut Department of Enviro
77  mercury (GEM) was measured using a modified Teflon fluorinated ethylene propylene (FEP) dynamic flux
78                                      Using a Teflon flux chamber, snow temperature, UV irradiation, a
79 omplished by loading the protein sample onto Teflon, followed by steps of washing away salts, adding
80  traditional N-terminal sequencing and PE or Teflon for MALDI-MS.
81 initiated by knitted dacron or TF-presenting teflon grafts deployed into arteriovenous shunts in babo
82  a sample support for protein analysis since Teflon has been used as a transfer membrane.
83 croelectronic and other applications because Teflon has desirable properties including a low dielectr
84 s gives nonhomologous chromosomes an almost 'Teflon'-like status, so that only the correct pairs 'sti
85  of tissues where the fluorocarbons act as a Teflon-like coating for nanostructured surfaces to assis
86                                            A Teflon-like coating is the key for the boost in sensitiv
87     Plasma polymerization of OFCB produces a Teflon-like fluoropolymer which strongly adheres and con
88 thicknesses of the insulating sheath of the "Teflon-like"UME tips make them particularly useful for s
89 ons in a large volume ( approximately 23 mL) Teflon-lined autoclave under real laboratory conditions
90 5 children (1-17 years of age) living near a Teflon manufacturing facility in the Mid-Ohio Valley (US
91 ancer among residents living near the DuPont Teflon-manufacturing plant in Parkersburg, West Virginia
92                            The resulting CNT/Teflon material brings new capabilities for electrochemi
93 nase/NAD(+) within the three-dimensional CNT/Teflon matrix.
94  with C-18 silica particles enmeshed in thin Teflon membrane filter disks.
95  diffused across the hydrophobic microporous Teflon membrane of the device into an adjacent hydrophil
96                                          The Teflon membrane serves as the interface between the aque
97 his layer is covered by a hydrophobic porous Teflon membrane used as an additional proton barrier and
98 -energy structured materials (such as porous Teflon membrane).
99 ctrodes, respectively, separated by a porous Teflon membrane.
100 nge or anion-exchange surfaces embedded in a Teflon mesh.
101                                     A set of Teflon nodule phantoms with similar x-ray transmission a
102 apillary HPLC can be collected directly onto Teflon or PE and detected into the femtomole range.
103 ee-axis force sensor was covered with either Teflon or sandpaper to create low- and high-friction sur
104 ReB(2) can be formed on IR-transmissive IR2, Teflon, or Ultralene polymer films.
105                   To measure TMV, radiopaque teflon particles were insufflated into six intubated, sp
106 arge of flat slabs of like-charged Nylon and Teflon pieces is completed on a single contact ( approxi
107 e reference electrodes, namely frits made of Teflon, polyethylene, or one of two porous glasses sold
108 ervations using a multichannel flow reactor, Teflon (polytetrafluoroethylene) film bag batch reactors
109               Here, electrostatic charges on Teflon (polytetrafluoroethylene) produced by rubbing wit
110 the first synthesis of a well-characterized "Teflon ponytail" fullerene adduct (3) via the Hirsch-Bin
111 arge-volume by-product of the manufacture of Teflon, refrigerants, polyvinylidene fluoride (PVDF), fi
112                                     A porous Teflon ring|solid disk electrode is herein described spe
113 tion; and chemiluminescence in the system of Teflon(-)/Ru(bpy)(3)(2+)/S(2)O(8)(2-) (analogous to elec
114 ials that are sealed with a silicone cap and Teflon septum and allow syntheses to be performed on a 2
115           The leads were exchanged through a Teflon sheath to reproduce the intracardiac position.
116 circular Au electrode embedded in a coplanar Teflon shroud.
117 urface, and the eye assembly was placed on a Teflon slide.
118  human blood serum (HBS) spotted on glass or Teflon slides.
119 ylate solution in a sandwich (silicon master/Teflon spacer/glass plate) mold.
120 nergies of aqueous and organic solvents on a Teflon substrate, a fully automated small-scale strategy
121  were sampled in the summer using artificial Teflon substrates submerged for over a year to allow nat
122 of organic aerosol (OA) samples collected on Teflon substrates.
123 measurements at an electrostatically charged Teflon surface and at a pristine calcite surface, where
124 the same balloon is inflated (strained), the teflon surface charges negatively.
125 laxed) balloon is rubbed against teflon, the teflon surface charges positively, but when the same bal
126 aximum when older adults pressed against the Teflon surface while receiving visual feedback.
127 es offer insights into the nature of the CNT/Teflon surface.
128  deposited on the poly(tetrafluoroethylene) (Teflon) surface, is demonstrated.
129                                          The teflon (tef) gene is specifically required in males for
130 cterization of four EMS-induced mutations in teflon (tef), a gene involved in this process in Drosoph
131  from 2 to 800 micro m in films of amorphous Teflon (Teflon AF).
132  used for a redox reaction or contacted with Teflon that was depleted of the electronic surface charg
133 deflated (relaxed) balloon is rubbed against teflon, the teflon surface charges positively, but when
134  use agitation in the presence of air and/or Teflon to accelerate kinetics.
135 etting, greatly surpassing the repellency of Teflon toward water and lower surface tension liquids.
136 rmed at the air-water interface in a conical Teflon trough.
137 t a method for forming them manually using a Teflon tube attached to a syringe pump; this method is s
138 llaries were coupled together with 5-mm-long Teflon tubing to create a approximately 5-microm gap, an
139         The TRU-ES resin was packed into FEP Teflon tubing to produce a flow cell (0.2-mL free column
140 trochemical (redox) experiments with charged Teflon used as a single electrode in solution causing va
141 ha-methyl-tryptophan in nitrogen gas-sparged Teflon vials for 0-144 h at 110 degrees C.
142 uctive sample surfaces, such as Parafilm and Teflon, was explored, and spectra from 30 amol of peptid
143 nocytes which were cultured nonadherently in Teflon wells were able to restrict the growth of M. smeg
144 the coating of the microchannel surface with Teflon were all studied.
145 idual particle mass and number densities for Teflon were less than a factor of 15% and 1%, respective
146  into a reagent addition tee fabricated from Teflon where reagents were added for a fluorescent enzym
147 evice formed biofilms that were swept with a Teflon wiper under aerobic conditions.
148                 The recovery of cocaine from Teflon wool, filter paper, drug-fortified hair, and drug

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