Seguir
Chris Dwyer
Chris Dwyer
Associate Professor of Electrical and Computer Engineering, Duke University
Dirección de correo verificada de ece.duke.edu - Página principal
Título
Citado por
Citado por
Año
Finite‐size, fully addressable DNA tile lattices formed by hierarchical assembly procedures
SH Park, C Pistol, SJ Ahn, JH Reif, AR Lebeck, C Dwyer, TH LaBean
Angewandte Chemie 118 (5), 749-753, 2006
3692006
DNA-functionalized single-walled carbon nanotubes
C Dwyer, M Guthold, M Falvo, S Washburn, R Superfine, D Erie
Nanotechnology 13 (5), 601, 2002
3442002
Semi-empirical SPICE models for carbon nanotube FET logic
C Dwyer, M Cheung, DJ Sorin
4th IEEE Conference on Nanotechnology, 2004., 386-388, 2004
972004
Design tools for a DNA-guided self-assembling carbon nanotube technology
C Dwyer, V Johri, M Cheung, J Patwardhan, A Lebeck, D Sorin
Nanotechnology 15 (9), 1240, 2004
722004
Nanoscale optical computing using resonance energy transfer logic
C Pistol, C Dwyer, AR Lebeck
IEEE micro 28 (6), 7-18, 2008
682008
DNA-enabled integrated molecular systems for computation and sensing
C LaBoda, H Duschl, CL Dwyer
Accounts of chemical research 47 (6), 1816-1824, 2014
632014
Scalable, low-cost, hierarchical assembly of programmable DNA nanostructures
C Pistol, C Dwyer
Nanotechnology 18 (12), 125305, 2007
612007
Chemoenzymatic sensitization of DNA photonic wires mediated through quantum dot energy transfer relays
CL Dwyer, SA Díaz, SA Walper, A Samanta, K Susumu, E Oh, ...
Chemistry of Materials 27 (19), 6490-6494, 2015
602015
The design of DNA self-assembled computing circuitry
C Dwyer, L Vicci, J Poulton, D Erie, R Superfine, S Washburn, RM Taylor
IEEE transactions on very large scale integration (VLSI) systems 12 (11 …, 2004
522004
Growing applications for bioassembled Förster resonance energy transfer cascades
CE Rowland, JB Delehanty, CL Dwyer, IL Medintz
Materials Today 20 (3), 131-141, 2017
482017
An enzymatically-sensitized sequential and concentric energy transfer relay self-assembled around semiconductor quantum dots
A Samanta, SA Walper, K Susumu, CL Dwyer, IL Medintz
Nanoscale 7 (17), 7603-7614, 2015
462015
Circuit and system architecture for DNA-guided self-assembly of nanoelectronics
JP Patwardhan, C Dwyer, AR Lebeck, DJ Sorin
Foundations of Nanoscience: Self-Assembled Architectures and Devices 344, 2004
452004
Adolescents, sexual health, and the Internet: Possibilities, prospects, and challenges for educators
DM Roffman, D Shannon, C Dwyer
Journal of Sex Education and Therapy 22 (1), 49-55, 1997
441997
Renewable DNA seesaw logic circuits enabled by photoregulation of toehold-mediated strand displacement
X Song, A Eshra, C Dwyer, J Reif
RSC advances 7 (45), 28130-28144, 2017
422017
NANA: A nano-scale active network architecture
JP Patwardhan, C Dwyer, AR Lebeck, DJ Sorin
ACM Journal on Emerging Technologies in Computing Systems (JETC) 2 (1), 1-30, 2006
412006
Thousand-fold increase in optical storage density by polychromatic address multiplexing on self-assembled DNA nanostructures.
MD Mottaghi, C Dwyer
Advanced Materials (deerfield Beach, Fla.) 25 (26), 3593-3598, 2013
382013
A defect tolerant self-organizing nanoscale SIMD architecture
JP Patwardhan, V Johri, C Dwyer, AR Lebeck
ACM SIGOPS Operating Systems Review 40 (5), 241-251, 2006
382006
Mobile remote control of a shared media resource
C Dwyer, P Lange, R Clark, J Board, A Edelsburg, Z Drillings
US Patent App. 12/272,757, 2010
372010
DNA self-assembled parallel computer architectures
C Dwyer, J Poulton, R Taylor, L Vicci
Nanotechnology 15 (11), 1688, 2004
352004
Selective functionalization of arbitrary nanowires
K Skinner, C Dwyer, S Washburn
Nano letters 6 (12), 2758-2762, 2006
342006
El sistema no puede realizar la operación en estos momentos. Inténtalo de nuevo más tarde.
Artículos 1–20