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 | 366 | 2006 |
DNA-functionalized single-walled carbon nanotubes C Dwyer, M Guthold, M Falvo, S Washburn, R Superfine, D Erie Nanotechnology 13 (5), 601, 2002 | 342 | 2002 |
Semi-empirical SPICE models for carbon nanotube FET logic C Dwyer, M Cheung, DJ Sorin 4th IEEE Conference on Nanotechnology, 2004., 386-388, 2004 | 97 | 2004 |
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 | 72 | 2004 |
Nanoscale optical computing using resonance energy transfer logic C Pistol, C Dwyer, AR Lebeck IEEE micro 28 (6), 7-18, 2008 | 68 | 2008 |
DNA-enabled integrated molecular systems for computation and sensing C LaBoda, H Duschl, CL Dwyer Accounts of chemical research 47 (6), 1816-1824, 2014 | 62 | 2014 |
Scalable, low-cost, hierarchical assembly of programmable DNA nanostructures C Pistol, C Dwyer Nanotechnology 18 (12), 125305, 2007 | 61 | 2007 |
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 | 60 | 2015 |
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 | 52 | 2004 |
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 | 46 | 2015 |
Growing applications for bioassembled Förster resonance energy transfer cascades CE Rowland, JB Delehanty, CL Dwyer, IL Medintz Materials Today 20 (3), 131-141, 2017 | 45 | 2017 |
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 | 45 | 2004 |
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 | 44 | 1997 |
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 | 42 | 2017 |
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 | 41 | 2006 |
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 | 38 | 2013 |
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 | 38 | 2006 |
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 | 36 | 2010 |
DNA self-assembled parallel computer architectures C Dwyer, J Poulton, R Taylor, L Vicci Nanotechnology 15 (11), 1688, 2004 | 35 | 2004 |
Selective functionalization of arbitrary nanowires K Skinner, C Dwyer, S Washburn Nano letters 6 (12), 2758-2762, 2006 | 34 | 2006 |