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Resolution capability

Besides phase identification XRD is also widely used for strain and particle size determination in thin films. Both produce peak broadenings, but they are distinguishable. Compared to TEM, XRD has poor area resolution capability, although by using synchrotron radiation beam diameters of a few pm can be obtained. Defect topography in epitaxial films can be determined at this resolution. [Pg.194]

Other technique—for example, dynamic secondary ion mass spectrometry or forward recoil spectrometry—that rely on mass differences can use the same type of substitution to provide contrast. However, for hydrocarbon materials these methods attain a depth resolution of approximately 13 nm and 80 nm, respectively. For many problems in complex fluids and in polymers this resolution is too poor to extract critical information. Consequently, neutron reflectivity substantially extends the depth resolution capabilities of these methods and has led, in recent years, to key information not accessible by the other techniques. [Pg.660]

FIGURE 11.2 Selectivity of several individual pore size columns. This graph shows the resolution capability of Styragel HT 3, HT 4, HT S, and HT 6 columns. The selectivity [Eq. (I)] of these columns vs the molecular weight of polystyrene is plotted. (Courtesy of Waters Corp.)... [Pg.331]

This led to the conclusion that these amino acids were essential for the resolution capability and only 6 new libraries of 18 compounds had to be synthesized with these amino acid residues to define the position 3. Surprisingly, the separation abilities of all six libraries were very similar. Therefore, tyrosine was chosen for continuing deconvolution, since it is convenient as its aromatic ring can easily be detected by UV spectrometry. The last step, defining position 5, required the synthesis and testing of 6 individual hexapeptides. [Pg.65]

The four-sector mass spectrometer is the ultimate in MS-MS instrumentation and consists of two high-resolution mass spectrometers in series. The strength of these instruments is in terms of their high-mass and high-resolution capabilities for both precursor-ion selection and product-ion analysis. Their cost, however, precludes their primary use for LC-MS and therefore they will not be considered any further here [12]. [Pg.67]

The key features of the EHI system are the monochromators and PUT assembly, since the former allow for minor variations In excitation or emission wavelength that may be necessary to differentiate lumophores of closely related structure, and the latter provides a means of quantitating luminescent species under study. Each monochromator has a resolution capability of 1 nm, and we anticipate that by careful selection of excitation and... [Pg.87]

The ultra-high mass resolution capabilities of FTMS are illustrated in Figure 7b. This spectrum was obtained by leaking a mixture of CO,, and C H., into the chamber to a pressure of... [Pg.247]

The TLC process is an off-line process. A number of samples are chromatographed simultaneously, side-by-side. HPTLC is fast (5 min), allows simultaneous separation and can be carried out with the same carrier materials as HPLC. Silica gel and chemically bonded silica gel sorbents are used predominantly in HPTLC other stationary phases are cellulose-based [393]. Separation mechanisms are either NPC (normal-phase chromatography), RPC (reversed-phase chromatography) or IEC (ion-exchange chromatography). RPC on hydrophobic layers is not as widely used in TLC as it is in column chromatography. The resolution capabilities of TLC using silica gel absorbent as compared to C S reversed-phase absorbent have been compared for 18 commercially available plasticisers, and 52 amine and 36 phenolic AOs [394]. [Pg.221]

One recent advance in MS hardware that has been found to be useful for metabolite identification studies is the Orbitrap. This MS has a mass resolution of 30,000 to 100,000 (two models). For many applications, 30,000 mass resolution capability is sufficient. While only a few current literature references cite the Orbitrap MS for metabolite identification, it is safe to predict that the Orbitrap will be the subject of many references in the future. Two references related to its use for metabolite identification are Peterman et al.190 and Lim et al.182 Lim s group related an an impressive example of the use of high mass resolution to differentiate a metabolite from a co-eluting isobaric matrix component, as shown in Figure 7.14. [Pg.227]

Following early ETEM investigations using environmental cells, environmental scanning electron microscopy (ESEM) has been developed for characterization of surface effects of bulk SEM samples in the presence of gaseous or wet environments (111-114). The method has been applied to the examination of food, wool fibers (111), and polymers (112) and in the conservation of cultural properties (113). Recently, fuel cell catalysts have been characterized using a low-voltage ESEM with a resolution capability of 2 nm (114). [Pg.234]

Scanning electron microscopy confirmed sub-0.5p.m resolution capabilities in TBSS -acid generator resist films (Figure 3). Note that the edge profiles are nearly vertical. Preliminary results indicate that the plasma etching resistance is satisfactory for semiconductor device processing. [Pg.53]

EFFECT OF POLY (DIMETHYL SILOXANE) BLOCK LENGTHS ON RESOLUTION CAPABILITIES... [Pg.170]

The resist has a high sensitivity and high resolution capability. The suitable photo absorption, excellent dissolution kinetics and no swelling during development contribute to such superior characteristics of this resist. [Pg.279]

The exposure curve of the two-layer resist based on the doping process is shown in Figure 8. The two-layer resist system has a high contrast and high resolution capability. Submicron line-and-space patterns are obtained using this two-layer resist system (Figure 9). [Pg.327]

Fourier transform infrared spectroscopy provides higher-resolution capabilities without undue sacrifices in energy throughput or signal-to-noise ratios. [Pg.31]

A variety of alternating copolymers based on H-allyl- and N-(3-ethynylphenyl)maleimides, with substituted styrenes and vinyl ethers, have been prepared and their response to x-ray irradiation studied. Broadband and monochromatic x-ray exposures were conducted at the Stanford Synchrotron Radiation Laboratory. Sensitivities were observed to correlate with mass absorption coefficients of the copolymers and were found to be as high as 5-10 mJ/cm2. Preliminary fine line lithographic studies indicate 0.5 ion resolution capabilities. [Pg.172]

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See also in sourсe #XX -- [ Pg.136 ]



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