 | Nanotech 2011 Vol. 2
Nanotechnology 2011: Electronics, Devices, Fabrication, MEMS, Fluidics and Computational
Chapter 7: Micro & Nano Fluidics |
| - | Using nanofluids to enhance the operation of solar energy systems |
| | T. Otanicar |
| | Loyola Marymount University, US |
| - | Simulating the Fast Transport of Water Through Carbon Nanotubes |
| | W.D. Nicholls, M.K. Borg, J.M. Reese |
| | University of Strathclyde, UK |
| - | Capillary Electrophoresis in Nanofluidic Channels |
| | P.J. Atzberger, F. Gibou, S. Pennathur |
| | University of California Santa Barbara, US |
| - | The Physics of Pressure Powered Micro-Flow Focusing Device for the Encapsulation of Live Cells |
| | J. Berthier, P. Dalle, F. Rivera, R. Renaudot, S. Morales, P-Y. Benhamou, P. Caillat |
| | CEA-Leti, FR |
| - | Use of Silica Nanosprings in an Enzyme-Based Continuous Flow Reactor |
| | D.C. Hyatt, T. Cantrell, M. Yahvah, M. Grant Norton, D.N. McIlroy, G. Corti |
| | GoNano Technologies, Inc., US |
| - | Design, Simulation, and Prototyping of an Impulse Turbine for Biomedical Applications |
| | H. Cabra |
| | University Of South Florida, US |
| - | Modeling Nanoscale Plasmon-assisted Bubble Nucleation and Applications |
| | E.P. Furlani, M.T. Swihart, N. Litchinitser, C.N. Delametter, M. Carter |
| | University at Buffalo, US |
| - | Design of Optimized Microfluidic Devices for Viscoelastic Fluid Flow |
| | M.A. Alves |
| | Universidade do Porto - Faculdade de Engenharia, PT |
| - | Thermal Conductivity and Viscosity Measurements of Water-Based Silica Nanofluids |
| | S. Bobbo, L. Colla, M. Scattolini, F. Agresti, S. Barison, C. Pagura, L. Fedele |
| | CNR-Consiglio Nazionale delle Ricerche, IT |
| - | An Experimental Determination of Temperature-Dependent Thermal Conductivity of Cyclohexane-Based Nanofluids |
| | L. Fan, J.M. Khodadadi |
| | Auburn University, US |
| - | Accommodation coefficient investigation in rectangular micro-channels for large Knudsen number range |
| | M. Hadj Nacer, I. Graur, P. Perrier |
| | Université de Provence, FR |
| - | Experimentally-validated theory for the effective zeta potential in microchannel with gate electrodes |
| | F. Bonotto, A. Lenzi, F. Viola, M. Napoli, J. Frey, S. Pennathur |
| | University of California, Santa Barbara, US |
| - | Superhydrophobic porous silicon surfaces |
| | G. Bolognesi |
| | University of Roma “La Sapienza”, IT |
| - | High Deborah number flows through 3D contractions at the microscale |
| | M.S.N. Oliveira, A.M. Afonso, F.T. Pinho, M.A. Alves |
| | FEUP - Faculdade de Engenharia da Universidade do Porto, PT |
| - | Synthesis of fine Pharmaceutical Particles by a Gaseous Antisolvent Mechanism |
| | Y. Bakhbakhi, S.M. Alfadul, A. chafidz, A. Ajbar |
| | King Saud University, SA |
| - | Red Blood Cell Deformation in Flows through a PDMS Hyperbolic Microchannel |
| | T. Yaginuma, M.S.N. Oliveira, R. Lima, T. Ishikawa, T. Yamaguchi |
| | FEUP - Faculdade de Engenharia da Universidade do Porto, PT |
| - | Hot spots active-cooling micro-channel heat sink device, using electro-osmotic flow |
| | M.F. Al-Rjoub, A.K. Roy, S. Ganguli, R.K. Banerjee |
| | University of cincinnati, US |
| - | High efficiency E. coli concentration via dynamic light-induced optoelectro-osmosis flow |
| | S.M. Yang |
| | National Chiao Tung University, TW |
| - | Array-Nozzle EHD Print Head and its Drop-on-Demand Experimentation |
| | S. Son, S. Lee, Y-J Kim, K. An, J. Choi, J. Sin, W.H. Lee, M. Wijesundara, H.E. Stephanou |
| | Sungkyunkwan University, KR |
| - | System for Measuring Drop Volume and Consistency in Lab-on-Chip Applications |
| | Y. Kipman, P. Mehta |
| | ImageXpert Inc., US |
| - | Microchannel for IOP Relief and Glaucoma Treatment |
| | D. Barth, J. Heureaux, B. Pilapil, P. Ponce de Leon, K. Zhao |
| | Stevens Institute of Technology, US |
| - | Self-alignment of Silicon Chips on Wafers: the Effect of Spreading and Wetting |
| | J. Berthier, K. Brakke, L. Sanchez, L. Di Cioccio |
| | CEA-LETI, FR |
| - | Fabrication of Magnetic Poly (ethylene glycol) Hydrogels Blocks Using Microfluidic System for Cell Patterning Techniques |
| | H.-Y. Chang, C.-Y. Fu, C.-Y. Lin, T.-P. Wang |
| | National Tsing Hua University, TW |
| - | Synthesis and Optimization of Metallic nanofluids using Electrical Explosion of Wire in Liquids |
| | E.J. Park, H.W. Park |
| | Ulsan National Institute of Science and Technology (, KR |
| - | Analytical investigation of nanofluids dispersion stability |
| | H. Farzaneh, A. Behzadmehr, A. Samimi |
| | University of Sistan and Baluchestan, IR |
| - | Prediction of Thermal Conductivity of Liquid Methane/Ethane-Cu Nanofluids via Molecular Dynamics Simulations |
| | H. Babaei, J.M. Khodadadi |
| | Auburn University, US |
| - | Novel Chemistry and Dispersive Techniques for Diverse Applications |
| | M. Hladik |
| | Brewer Science, US |
| - | Numerical Simulation of the Solidification of Water-Based Nanofluid |
| | Y.M.F. El Hasadi, J.M. Khodadadi |
| | Auburn University, US |
| ISBN: | 978-1-4398-7139-3 |
| Pages: | 854 |
| Hardcopy: | $199.95 |
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