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1 ted with saccharin, sucrose, acesulfame, and silicon dioxide.
2 a conductive nanocrystal silicon filament in silicon dioxide.
3 ct contact with silicon, with no interfacial silicon dioxide.
4 e and combustion of the precipitate to yield silicon dioxide.
5 mension was obtained for an unpaired spin in silicon dioxide.
6 ed cupric oxide reactor, rather than forming silicon dioxide.
7 ease caused by the inhalation of crystalline silicon dioxide.
9 nly used in biochemical reactions can remove silicon dioxide, a material frequently used as the solid
10 eposits highly conformal layers of amorphous silicon dioxide and aluminum oxide nanolaminates at rate
11 VPCs) made from dielectric materials such as silicon dioxide and common polymers used in three-dimens
12 re important inorganic examples too, such as silicon dioxide and elemental selenium (the latter being
13 uctor field-effect transistors, formed using silicon dioxide and silicon, have undergone four decades
15 is technology close at hand, alternatives to silicon dioxide are being pursued to enable new function
16 neration branched polyamidoamine dendrons on silicon dioxide as a way to tailor and control the subse
17 hydrophobic silicon dioxide particles (fumed silicon dioxide), as model air pollutants, and Langmuir
18 th temperature allows for the removal of the silicon dioxide barrier layer associated with catalytic
19 (n-nHA), granule-shaped hydroxyapatite, and silicon dioxide can effectively impair tumor progression
21 rs (TFTs) with high field effect mobility on silicon dioxide dielectrics that are treated with alkylt
22 ilized on the surface of streptavidin-coated silicon dioxide exhibited specific capture of pathogenic
24 The analytical procedure was set up on a silicon dioxide flat substrate to standardize SERS metho
25 eep by concentrating the collected prions on silicon dioxide, followed by amplification by serial pro
26 rgent problem of identifying alternatives to silicon dioxide for the gate dielectric in logic devices
27 ion in 54 strongly peraluminous high-silica (silicon dioxide >70 weight %) leucogranites from the Him
28 ved by introducing an ultra-thin sacrificial silicon dioxide hardmask layer on the substrate which is
29 al devices based on nanocrystals embedded in silicon dioxide has been the development of a method for
30 ansdermal biosensor makes use of an array of silicon-dioxide hollow microneedles that are about one o
32 epth over time, and we find the etch rate of silicon dioxide in different buffers that ranges from 2.
33 ere kept constant by adding an inert filler, silicon dioxide in inverse concentrations to the fiber f
34 taining copper oxide, calcium carbonate, and silicon dioxide in volume ratios of 60, 30, and 10%, res
35 s similar to that of the quartz polymorph of silicon dioxide, indicating that it is an extended coval
39 Such a nanomaterial, when consisting of pure silicon dioxide, is generally considered to be chemicall
41 m gold micro-electrodes fabricated on native silicon dioxide layer grown on semiconducting single cry
42 oconductors that are supported directly on a silicon dioxide layer, and we measure the minimum featur
45 ned elusive despite the indispensable use of silicon dioxide materials in advanced electronic devices
46 molded materials in porous silicon or porous silicon dioxide multilayer (rugate dielectric mirror) st
47 uation of a new prototype dispersant system, silicon dioxide nanoparticles (NPs) functionalized with
50 copolymer and hydrophobic surface functional silicon dioxide nanoparticles that are infused into one
51 e wavelength of visible light, a transparent silicon dioxide nanopillar embedded in a nontransparent
52 we demonstrate the use of vertically aligned silicon dioxide nanopillars to achieve below-the-diffrac
53 s inflammasome agonists, including nanoscale silicon dioxide (NanoSiO2), calcium pyrophosphate dihydr
54 sor based on a p-n junction, is created on a silicon dioxide/nitride surface by anisotropic etching.
55 ollow up of our previous study where grafted silicon dioxide NPs functionalized with GPS and grafted
57 trate this new approach together with larger silicon dioxide particles (SiO2, 0.5 mum) representing N
58 yer of bovine serum albumin (BSA), while the silicon dioxide regions where the OTMS has been removed
60 aphs, we examined the girdle elements of the silicon dioxide shell from several hundred diatom specie
61 s secondary to the aspiration of crystalline silicon dioxide (silica) into the lungs, activation of t
62 s secondary to the aspiration of crystalline silicon dioxide (silica) into the lungs, activation of t
63 for enzyme variants capable of synthesizing silicon dioxide (silica) or titanium dioxide (titania) c
64 m, molybdenum, tungsten, silicon, germanium, silicon dioxide, silicon nitride, silk and synthetic pol
68 r adlayers adsorbed on the graphene (GE) and silicon dioxide (SiO(2)) have been constituted a scaffol
71 ical vapor deposition (CVD) method on either silicon dioxide (SiO(2)) on silicon (Si) or Si substrate
72 rophilic Lewis acid boric acid (B(OH)(3)) or silicon dioxide (SiO(2)), in the presence of oxalic acid
73 anium dioxide (TiO(2)), polystyrene (PS) and silicon dioxide (SiO(2)), on a microbial eukaryote (the
74 th food and pharmaceutical sectors) based on silicon dioxide (SiO(2), loading capacity: 1(extract):7(
76 n important atmospheric constituent, whereas silicon dioxide (SiO2) is a covalent solid, and one of t
77 rray of hybrid molybdenum disulfide (MoS2) - silicon dioxide (SiO2) one-dimensional, free-standing ph
78 ed by a variety of surface treatments to the silicon dioxide (SiO2) substrates prior to CVD graphene
81 abricated single-layer graphenes (SLGs) on a silicon dioxide (SiO2)/Si substrate, a silicon nitride (
84 ely packed mushroom-like nanostructures with silicon dioxide stems (~40 nm) and gold caps (~22 nm), w
85 ging micropatterned platinum structures at a silicon dioxide substrate in intermittent (dynamic) and
88 eld-effect transistors fabricated on silicon/silicon dioxide substrates showed electron mobilities as
89 with different phosphoinositides on silicon/silicon dioxide substrates to quantify the binding of va
94 interaction of these nanoparticles with the silicon dioxide support does not lead to Pt-Sn segregati
95 kappa of monolayer graphene exfoliated on a silicon dioxide support is still as high as about 600 wa
97 ed the same volatility and reactivity with a silicon dioxide surface as those of the hexacarbonyl com
98 on the micrometer scale, were prepared on a silicon dioxide surface by direct exfoliation of crystal
103 r higher permittivity dielectrics to replace silicon dioxide, the properties of which have hitherto b
105 d differential adsorption of the vesicles on silicon dioxide, titania, and gold surfaces, and the dif
106 easurements of graphene samples on amorphous silicon dioxide to show that full recovery to the therma
107 m the chemical mechanical polishing (CMP) of silicon dioxide using ceria slurry and ceria fixed abras
108 rity solar-grade silicon films directly from silicon dioxide via a one-step electrodeposition process
109 (2) and GeO(2) where the surface area of the silicon dioxide was 2 orders of magnitude higher than th
110 ophobic self-assembled monolayers on gold or silicon dioxide were used to harvest conditioning layers
111 release revealed that pSiO2-CO2H:DNR (porous silicon dioxide with covalent loading of daunorubicin) w