Scanning electronic micrograph image

FIGURE 7.11 A scanning electron micrograph image of an ISM cross section. 

FIGURE 20.17 (A) X-ray diffraction spectra and (B) cross-sectional scanning electron micrograph image of 160 nm Ta(Al)N(C) film on a patterned silicon wafer. (From AUen, R, Juppo, M., Ritala, M., Sajavaara, T., Keinonen, J., and Leskela, M., J. Electrochem. Soc., 148, G566, 2001.)... 

Figure 3.93. Scanning electron micrograph image of a photonic band-gap crystal obtained by TP induced crosslinking radical polymerization of acrylates in the presence of poly(styrene-co-acrylonitrile) as binder and an amino substituted distyrylbenzene as TP active initiator using a pulsed laser (730-nm excitation wavelength, 0.45-mW laser power, 50-mm/s scan speed, writing 9 layers of 1-mm spaced parallel rods with a layer spacing of 1 mm). (From Ref. [133] with permission of the Technical Association of Photopolymers, Japan.)...

Recently, stearic acid has been used to coat the surface of ibuprofen-containing microspheres [84]. In these preparations, stearic acid only partially delayed the release of ibuprofen when microspheres were suspended in a variety of buffer conditions. A scanning electron micrograph image of representative stearic acid microspheres that contain ibuprofen is shown in Figure 2. 

Figure 2. Scanning electron micrograph image of stearic acid microspheres prepared by immersion in pH 8.0 sodium phosphate buffer at 37°C according to Waters Pavlakis [84].

Thermal inkjet spray freeze-drying was used to produce inhalable particles of terbutaline sulfate (37). Scanning electron micrograph images proved that the particles are spherical, highly porous and suitable for aerosolization from a capsule-based dry-powder device. There is no need for additional experiments. 

The sintering process of slabs obtained by pressing and by slip casting of a powder-water paste was followed by different methods and seems to be complete at 1A-50 C. The description of the PSZs porous-texture resulting from the different methods is coherent. In particular, similar results were obtained by scanning electron micrograph image analysis and mercury porosimetry. 

Figure 63 Scanning electron micrographs of the failure surface of the white backing layer of the bad packaging sample. Four layers were clearly visible in the SEM images. They are labeled as follows (1) outer clear polyester layer, (2) middle opaque polyethylene layer,... 

Figure 10. Scanning electron micrographs of positive (top, 3.5 mJ/cm2) and negative images (bottom, 3.0 mJ/cm2) heated at 200°C for 30 min (the positive image was re-exposed to 2.8 mJ/cm2 of 254 nm radiation and baked at 130 C for 2 min prior to the 200°C bake).

Figure 12. Scanning electron micrograph of negative images delineated in poly(TBMA-co-ST) resist at 7.6 mJ/cm2 of 254 nm radiation.

Figure 7. Scanning Electron Micrograph of a self-developed image of polymer 9...

Fig. 26a Scanning electron micrographs of a plasticized PVC surface with bloomed Pigment Yellow 1 after different storage times. Pigment concentration 0.2%. Below Magnified images.

Fig. 8.9 Different methods for spinning CNT fibers and scanning electron micrographs of representative samples, (a) Wet spinning of nanocarbons dispersed in liquid, (b) drawing from a forest of aligned CNTs and (c) direct spinning from the gas phase during CNT synthesis by CVD. Images from references [53,59, 60, 61,62], With kind permission from AMS (2000, 2013), Elsevier (2007, 2011), Wiley (2010).

Figure 49. Scanning electron micrograph of images printed in IBM s experimental Mid-UV resist using a Perkin Elmer Micralign 500 in the UV-3 mode. The resist thickness is 1.1 fim the period of the grating is Sum.

Fig. 8.5 Capsaicin accumulates in blisters/vesicles on surface of placenta, left panel) Total ion chromatogram of oil in habanero vesicle. The oil in the vesicle was collected directly with a Hamilton syringe, diluted with hexane, and analyzed on a varian GC-MS, DB-5 column. The capsaicin peak was identified based on match with NIST MS library, right upper panel) A stereoscope view of habanero placenta (5x magnification) and seeds are visible upper left panel). Arrows indicate blisters, right lower panel) A scanning electron micrograph of habanero placenta (40 X magnification). A color version of the image is on line...

Fig. 7 (a) Catechol derivatized tetracenes self-assemble on metal oxide surfaces such as aluminum oxide, (b) Schematic and (c) scanning electron micrographs of FET structures fabricated with a 5-nm aluminum oxide layer on top of a 5-nm thermally oxidized Si wafer to allow self-assembly of the derivatized tetracene between sub-100 nm Au source and drain electrodes, (d) /d-Eds characteristics of the assembled tetracene monolayer FET for a 40 nm channel length showing hole modulation and (inset) an atomic force microscope image of the FET channel... 

Figure 15.6A Scanning electron micrographs (SEM) of fractured surfaces of (a) TPS-natural MMT nanocomposite containing 9.8 wt% clay, and (b) TPS-NH4MMT nanocomposite containing 10.7 wt% clay, (c) is the enlarged image for (b) showing spontaneously formed regular foam structures with 84% porosity in TPS-ammonium-treated clay.

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