Yurke , Bernard - Boise State University - Micron School of Materials Science and Engineering

个人简介

Bernard Yurke grew up in Boise, Idaho. He did his first two years of undergraduate work at Boise State College, which is now Boise State University. He then transferred to the University of Texas at Austin where he received a BS and MA in physics. He did his Ph.D. work at Cornell University in experimental low temperature physics. Upon completing his Ph.D. he was hired as a research physicist at Bell Laboratories, then part of AT&T, where he worked for nearly 25 years. He retired from Bell Laboratories in the fall of 2007. He joined the faculty at Boise State University in January of 2008 and holds a joint appointment as Research Professor in the Materials Science and Engineering Department and in the Electrical and Computer Engineering Department.

研究领域

My research interests are varied, but currently my focus is on DNA nanotechnology and the use of DNA self-assembly to fabricate electrical and optical devices and circuits with a few nanometer feature size.

近期论文

查看导师最新文章（温馨提示：请注意重名现象，建议点开原文通过作者单位确认）

D. Y. Zhang, A. J. Turberfield, B. Yurke, and E. Winfree, “Engineering entropy-driven reactions and networks catalyzed by DNA,” Science, 318 [5853] 1121-1125 (2007). T. Liedl, H. Dietz, B. Yurke, and F. Simmel, “Controlled trapping and release of quantum dots in a DNA-Switchable hydrogel,” Small, 3 [10] 1688-1693 (2007). G. Seelig, B. Yurke, and E. Winfree, “Catalyzed relaxation of a metastable DNA fuel,” Journal of the American Chemical Society, 128 [37] 12211-12220 (2006). B. Yurke, D. C. Lin, and N. A. Langrana, “Use of DNA nanodevices in modulating the mechanical properties of polyacrylamide gels,” DNA Computing [Lecture Notes in Computer Science], 3892 417-426 (2006). D. C. Lin, B. Yurke, and N. A. Langrana, “Use of rigid spherical inclusions in Young's moduli determination: Application to DNA-crosslinked gels,” Journal of Biomedical Engineering-Transactions of the ASME, 127 [4] 571-579 (2005). G. Seelig, B. Yurke, and E. Winfree, “DNA hybridization catalysts and catalyst circuits,” DNA Computing [Lecture Notes in Computer Science], 3384 329-343 (2005). B. Yurke and D. Zhang, “A clocked DNA-based replicator,” DNA Computing [Lecture Notes in Computer Science], 3384 445-457 (2005). D. C. Lin, B. Yurke, and N. A. Langrana, “Inducing reversible stiffness changes in DNA-crosslinked gels,” Journal of Materials Research, 20 [6] 1456-1464 (2005). D. C. Lin, N. A. Langrana, and B. Yurke, “Force-displacement relationships for spherical inclusions in finite elastic media,” Journal of Applied Physics, 97 [4] Article Number 043510 (2005). D. C. Lin, B. Yurke, N. A. Langrana, “Mechanical properties of a reversible, DNA-crosslinked polyacrylamide hydrogel,” Journal of Biomechanical Engineering-Transactions of the ASME, 126 [1] 104-110 (2004). A. J. Turberfield, A. J. Mitchell, B. Yurke, A. P. Mills, Jr., M. I. Blakey, and F. C. Simmel, “DNA fuel for free-running nanomachines,” Physical Review Letters, 90 [11] Article Number 118102 (2003). F. C. Simmel, B. Yurke, and R. J. Sanyal, “Operation kinetics of a DNA-based molecular switch,” Journal of Nanoscience and Nanotechnology, 2 [3-4] 383-390 (2002). F. C. Simmel and B. Yurke, “A DNA-based molecular device switchable between three distinct mechanical states,” Applied Physics Letters, 80 [5] 883-885 (2002). F. C. Simmel and B. Yurke, “Using DNA to construct and power a nanoactuator,” Physical Review E, 63 [4] Article Number 041913 (2001). B. Yurke, A. J. Turberfield, A. J. Mills, Jr., F. C. Simmel, and J. L. Neumann, “A DNA-fuelled molecular machine made of DNA,” Nature, 406 [6796] 605-608 (2000). Times Cited: 292 B. Yurke, A. P. Mills, Jr. and S. L. Cheng, “DNA implementation of addition in which the input strands are separate from the operator strands,” Biosystems 52 [1-3] 165-174 (1999). A. P. Mills, Jr., B. Yurke, and P. M. Platzman, “Article for analog vector algebra computation,” Biosystems, 52 [1-3] 175-180 (1999).