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Library | Item Barcode | Call Number | Material Type | Item Category 1 | Status |
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Searching... | 30000010312347 | TK7875 S96 2012 | Open Access Book | Book | Searching... |
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Summary
Summary
All symposiums were held from November 28-30, 2011 at the 2011 MRS Fall Meeting in Boston, Massachusetts. Symposium TT, 'Microelectromechanical Systems - Materials and Devices V' explored the fabrication, integration, characterisation and application of small-scale electromechanical, thermal, magnetic, fluidic and optical sensors and actuators. The scope of this multidisciplinary symposium emphasised efforts ranging from fundamental research to implementation in industry. Symposium II, 'BioMicroElectroMechanical Systems - Materials and Devices' explored the design, fabrication and applications of micro and nanoscale technologies for biomedical applications. Symposium HH covered 'Bioelectronics - Materials, Properties, and Applications'. The seven sub-sections span a wide range of topics, including fundamental charge transport at the single-molecule level, new sensors and sensor materials, cellular bioelectronics and energy harvesting biomaterials and devices.
Table of Contents
Part I MEMS - Materials and Devices |
1 Low profile packaging for MEMS aero-acoustic sensors |
2 A detailed study of a novel wafer separation method for surface sensitive MEMS wafers |
3 Acoustic energy: a new tool for MEMS manufacturing |
4 In-situ observation and mechanical criterion on interface cracking in nano-components |
5 Photo-thermal spectroscopic imaging of MEMS structures with sub-micron spatial resolution |
6 Ti-TiOx-Pt metal-oxide-metal diodes fabricated via a simple oxidation technique |
7 Harmonic excitation of surface acoustic waves on gallium nitride thin films for biological and chemical sensor applications |
8 Method for achieving CMOS MEMS accelerometers with excellent built-in thermal stability and reduced charge damage |
9 Coarse-grained molecular dynamics simulation of epoxy-based chemically-amplified resist for MEMS application |
Part II BioMEMS - Materials and Devices |
10 A microfluidic assay for measuring electrical conductivity of gap junction channels |
11 Development of electrochemiluminescence and surface plasmon resonance-based immunosensors with surface accumulable molecules |
12 Enzymatic biofuel cell with self-regulating enzyme-nanotube ensemble films |
13 Mechanically stable free-standing bilayer lipid membranes in microfabricated silicon chips |
14 Functional design of porous drug delivery systems based on laser assisted manufactured nitinol |
15 Nanostructured selenium for preventing biofilm formation on medical devices |
16 Computer-assisted designing and biofabrication of 3-D hydrogel structures towards thick 3-D tissue engineering |
17 Fabrication of complex hydrogel materials by utilizing microfluidics and micromolding |
18 Implementation of bioMEMS for determining mechanical properties of biological cells |
19 Towards next-generation proteomic assays: functional materials as sieving matrices and binding scaffolds |
20 Nanoporous gold: a biomaterial for microfabricated drug-delivery platforms |
21 Smart surfaces: use of electrokinetics for selective modulation of biomolecular affinities |
22 Anisotropic cellular alignment on nano-wrinkled polymeric surface |
23 Rapid and sensitive detection of cardiac markers in human serum using a surface acoustic wave immunosensor |
Part III Bioelectronics - Materials, Properties, and Applications |
24 Cholesterol biosensor based on nanodiamond-polypyrrole conducting nanocomposite membrane |
25 Electrical detection of protein biomarkers using nanoneedle biosensors |
26 Electrical conduction along porphyrin wires using the self-consistent extended-Huckel and non-equilibrium Green's function methods |
27 Density functional theory (DFT) computations of biological molecules for organic semiconductors |
28 Optical trapping, biosensing, and spectroscopy in a single plasmonic platform |
29 Application of wide band gap semiconductors to increase photocurrent in a protein-based photovoltaic device |
30 Free-floating reaction centers (RCs) versus attached monolayer of RCs in bio-photoelectrochemical cells |