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101	CHARACTERIZATION OF DYNAMICALLY-ETCHED NANOPROBE ARRAYS FOR <i>IN SITU</i>NEEDLE-TYPE SENSORS PARASURAMAN, JAYALAKSHMI 04 April 2007 (has links) No description available. Nanoprobes Microelectrodes In situ sensors meniscus etching
102	Silicon MEMS-Based Development and Characterization of Batch Fabricated Microneedles for Biomedical Applications Rajaraman, Swaminathan 11 October 2001 (has links) No description available. mems micromachining cps etching microneedles biological applications
103	Synthesis and Applications of Heterostructured Semiconductor Nanocrystals. Khon, Elena 26 July 2013 (has links) No description available. Nanoscience nanocrystals LED etching plasmon photocatalysis
104	Inkjet etching of micro-via holes in thin polymer layers Zhang, Yan January 2014 (has links) Facilitated by the development of various direct-write techniques and functional polymeric materials including polymer based conductors and semiconductors, printed electronics are flourishing both commercially and as a research topic. This is not only because of their simpler manufacturing routes and lower cost, but also as a result of lower processing temperatures and better compatibility with flexible substrates, compared with conventional electronics. The development of conventional electronics has been guided by Moore s Law, the driver for which lies in the demand for electronic devices with better performance and portability at lower prices. Therefore, one can expect a similar trend for printed electronics to guide its development. Multi-layered printing can be adopted in printed electronics to achieve higher density integration, so that this development trend can be maintained. In such circumstances, creation of electrical connections between multiple layers emerges as an important issue for printed electronics. Inkjet-etched via holes are one potential solution to providing such electrical interconnections, and which can provide good integration with other inkjet-printed features simply by switching nozzles. This thesis aims to elicit a better understanding of the physics involved in inkjet etching and investigate the capability of the inkjet etching technique. In the thesis, the factors that can affect the size of via holes produced by inkjet etching are evaluated, which is significant for evaluating the capability of this technique to deliver industrially relevant features. Identified factors include droplet ejection frequency, droplet diameter, solvent properties and substrate temperature. Droplet ejection frequency, i.e. the reciprocal of the time interval between drops, determines the extent of evaporation of the solvent between two consecutive drop impacts. Droplet diameter determines the radius of the wetted area after the droplet I impacts on the surface and spreads into a sessile drop. Solvents with different evaporation properties result in different size evolution with the number of drops dispensed, as does droplet ejection frequency. Higher substrate temperatures can reduce the drop diameter during flight and decrease the evaporation time on polymer surfaces, which can shrink the size of via holes. Another important issue is achieving complete polymer penetration as residual polymer creates an electrical conduction barrier after such holes are subsequently filled with conductive materials or act as a barrier to filling by electroplating. Experiments have been carried out to test the effect of outer diameter and polymer thickness on polymer penetration. Electroplating is utilised to test the completeness of via hole penetration. A mechanism using the Marangoni effect to explain the protrusion drying pattern other than a hole in the polymer layer is proposed. 686.2
105	Max Klinger's Intermezzi : a critical analysis Heinrich, David. January 2002 (has links) (PDF) Bibliography: leaf 83-86. A critical analysis of Intermezzo, a portfolio of twelve etchings published in 1881 by the German printmaker, Max Klinger (1857-1920) and held by the Art Gallery of South Australia. Recorded as Opus IV, Intermezzi is a relatively unknown and unusual work in Klinger's printmaking oeuvre. It is unlike Klinger's other graphic cycles in that it does not appear to be a related set of prints but a series of free fantasies without associative or thematic connection. Klinger, Max, 1857-1920. Intermezzi Etching, German 19th century Etching, German South Australia
106	Fabrication of Micro-Mirrors in Silicon Optical Waveguides Powell, Olly, n/a January 2004 (has links) The conventional large radii bends used in large cross section silicon-on-insulator waveguides were replaced with novel wet etched corner mirrors, potentially allowing much smaller devices, therefore lower costs. If such corners had been based on reactive ion etch techniques they would have had the disadvantage of rougher surfaces and poor alignment in the vertical direction. Wet etching overcomes these two problems by providing smooth corner facets aligned precisely to the vertical {100} silicon crystallographic planes. The waveguides obtained had angled walls, and so numerical analysis was undertaken to establish the single mode condition for such trapezoidal structures. To show the relationship between fabrication tolerances and optical losses a three dimensional simulation tool was developed, based on expansion of the incident mode into plane waves. Various new fabrication techniques were are proposed, namely: the use of titanium as a mask for deep silicon wet anisotropic etching, a technique for aligning masks to the crystal plane on silicon-oninsulator wafers, a corner compensation method for sloping sidewalls, and the suppression of residues and pyramids with the use of acetic acid for KOH etching. Also, it was shown that isopropyl alcohol may be used in KOH etching of vertical walls if the concentration and temperature are sufficiently high. As the proposed corner mirrors were convex structures the problem of undercutting by high order crystal planes arose. This was uniquely overcome by the addition of some structures to effectively convert the convex structures into concave ones. The corner mirrors had higher optical losses than were originally hoped for, similar to those of mirrors in thin film waveguides made by RIE. The losses were possibly due to poor angular precision of the lithography process. The design also failed to provide adequate mechanisms to allow the etch to be stopped at the optimal time. The waveguides had the advantage over thin film technology of large, fibre-compatible cross sections. However the mirror losses must be reduced for the technology to compete with existing large cross section waveguides using large bends. Potential applications of the technology are also discussed. The geometry of the crystal planes places fundamental limits on the proximity of any two waveguides. This causes some increase in the length of MMI couplers used for channel splitting. The problem could possibly be overcome by integrating one of the mirrors into the end of the MMI coupler to form an L shaped junction. silicon-on-insulator waveguides silicon optical waveguides micro-mirrors wet etching reactive ion etching
107	High Aspect-Ratio Nanoscale Etching in Silicon using Electron Beam Lithography and Deep Reactive Ion Etching (DRIE) Technique Perng, John Kangchun 05 July 2006 (has links) This thesis reports the characterization and development of nanolithography using Electron Beam Lithography system and nanoscale plasma etching. The standard Bosch process and a modified three-pulse Bosch process were developed in STS ICP and Plasma ICP system separately. The limit of the Bosch process at the nanoscale regime was investigated and documented. Furthermore, the effect of different control parameters on the process were studied and summarized in this report. 28nm-wide trench with aspect-ratio of 25 (smallest trench), and 50nm-wide trench with aspect ratio of 37 (highest aspect-ratio) have been demonstrated using the modified three-pulse process. Capacitive resonators, SiBAR and IBAR devices have been fabricated using the process developed in this work. IBARs (15MHz) with ultra-high Q (210,000) have been reported. Plasma etching Sensors RF Resonators Nanolithography MEMS Microelectromechanical systems Plasma etching Nanotechnology Lithography, Electron beam
108	Penetration of unfilled and composite resins into acid-etched human enamel a thesis submitted in partial fulfillment ... restorative dentistry ... / Pahlavan, Ayoub. January 1975 (has links) Thesis (M.S.)--University of Michigan, 1975.
109	Penetration of unfilled and composite resins into acid-etched human enamel a thesis submitted in partial fulfillment ... restorative dentistry ... / Pahlavan, Ayoub. January 1975 (has links) Thesis (M.S.)--University of Michigan, 1975.
110	Die holländische Landschaftsradierung des XVII. Jahrhunderts. Wolff, Hans, January 1900 (has links) Thesis (doctoral)--Friedrich-Wilhelms-Universität zu Berlin, 1909. / Vita. Includes bibliographical references (p. [5]).

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