Topical F: Nanoscale Science and Engineering Forum | |||
| Session 35 - Nanofabrication and Nanoscale Processing | |||
| In order for nanoscience to become true nanotechnology, there is a need for breakthroughs in the engineering science of processing and manufacturing at the nanoscale. Nanotechnology in it present state is still largely nanoscience and is relegated to single exeriments done in a batch mode in the laboratory. This session will be devoted to papers that describe efforts to attack the problems of nanoscale engineering design and assembly. We will look for novel approaches to solving the problems of placement, high throughput, yield and massively parallel production, as well as integration across multiple length scales for the production of novel entities from new materials to devices at the nanometer length scale. Papers that describe fundamental or applied aspects of advances toward solutions to these problems using, for example, biomimetic approaches, hybridized soft and hard lithographic processes or modeling/simulation are welcome. Industrial as well as academic presentations are sought. | |||
| Chair: | Jong-in Hahm | ||
| CoChair: | Joerg Lahann | ||
| 35a | Nanotexturing of Glass Surfaces through Controlled Silane Chemistry and Silica Deposition E. Jason Robinette, Andres A. Bujanda, Robert Jensen, Steven H. McKnight | ||
| 35b | Novel Solid-Phase Synthesis of Oligosiloxane Nanostructure Macromolecules Michael N. Missaghi, Mayfair C. Kung, Young-Woong Suh, Wenmei Xue, Harold H. Kung | ||
| 35c | Nanomanufacturing Via Laser-Induced Hydrodynamic Instabilities in Metal Films C. Favazza, J. Trice, H. Krishna, R. Kalyanaraman, Radhakrishna Sureshkumar | ||
| 35d | Particle Integration across Scales Using Self-Assembly and Transfer Tobias Kraus, Laurent Malaquin, Heiko Wolf, Nicholas D. Spencer | ||
| 35e | Mediating Fluidic Self-Assembly with Optical Traps Andrew H. Ewing, Sangtae Kim, Steven T. Wereley | ||
| 35f | Optically-Stimulated Surface Diffusion Exploited for Directed Self-Assembly on Amorphous Semiconductors Yevgeniy Kondratenko, Edmund G. Seebauer | ||
| 35g | Electric Field Driven Assembly and Temperature Dependent Conduction through Nanoparticle-Molecule-Nanoparticle Structures Jeong-Seok Na, Jennifer Ayres, Kusum L. Chandra, Christopher B. Gorman, Gregory N. Parsons | ||
See more of Topical F: Nanoscale Science and Engineering Forum