| Power dissipation in clocking wires for clocked molecular quantum-dot cellular automata EP Blair, E Yost, CS Lent Journal of computational electronics 9, 49-55, 2010 | 82 | 2010 |
| Quantum-dot cellular automata: an architecture for molecular computing EP Blair, CS Lent International Conference on Simulation of Semiconductor Processes and …, 2003 | 63 | 2003 |
| An architecture for molecular computing using quantum-dot cellular automata EP Blair, CS Lent 2003 Third IEEE Conference on Nanotechnology, 2003. IEEE-NANO 2003. 1, 402-405, 2003 | 48 | 2003 |
| Clock topologies for molecular quantum-dot cellular automata E Blair, C Lent Journal of Low Power Electronics and Applications 8 (3), 31, 2018 | 45 | 2018 |
| Electric-field-driven electron-transfer in mixed-valence molecules EP Blair, SA Corcelli, CS Lent The Journal of chemical physics 145 (1), 2016 | 45 | 2016 |
| Environmental decoherence stabilizes quantum-dot cellular automata EP Blair, CS Lent Journal of Applied Physics 113 (12), 2013 | 35 | 2013 |
| Electric-field inputs for molecular quantum-dot cellular automata circuits E Blair IEEE Transactions on Nanotechnology 18, 453-460, 2019 | 33 | 2019 |
| Signal energy in quantum-dot cellular automata bit packets EP Blair, M Liu, CS Lent Journal of Computational and Theoretical Nanoscience 8 (6), 972-982, 2011 | 33 | 2011 |
| Molecular cellular networks: A non von Neumann architecture for molecular electronics CS Lent, KW Henderson, SA Kandel, SA Corcelli, GL Snider, AO Orlov, ... 2016 IEEE International Conference on Rebooting Computing (ICRC), 1-7, 2016 | 29 | 2016 |
| Minimum energy for computation, theory vs. experiment GL Snider, EP Blair, GP Boechler, CC Thorpe, NW Bosler, MJ Wohlwend, ... 2011 11th IEEE International Conference on Nanotechnology, 478-481, 2011 | 27 | 2011 |
| Tools for the design and simulation of clocked molecular quantum-dot cellular automata circuits EP Blair University of Notre Dame, 2003 | 23 | 2003 |
| Asymmetric, mixed-valence molecules for spectroscopic readout of quantum-dot cellular automata N Liza, D Murphey, P Cong, DW Beggs, Y Lu, EP Blair Nanotechnology 33 (11), 115201, 2021 | 13 | 2021 |
| Reversible and adiabatic computing: energy-efficiency maximized I Hänninen, H Lu, EP Blair, CS Lent, GL Snider Field-Coupled Nanocomputing: Paradigms, Progress, and Perspectives, 341-356, 2014 | 13 | 2014 |
| Tunable, hardware-based quantum random number generation using coupled quantum dots H McCabe, SM Koziol, GL Snider, EP Blair IEEE Transactions on Nanotechnology 19, 292-296, 2020 | 12 | 2020 |
| Operator-sum models of quantum decoherence in molecular quantum-dot cellular automata JS Ramsey, EP Blair Journal of Applied Physics 122 (8), 2017 | 9 | 2017 |
| Entanglement loss in molecular quantum-dot qubits due to interaction with the environment EP Blair, G Tóth, CS Lent Journal of Physics: Condensed Matter 30 (19), 195602, 2018 | 8 | 2018 |
| The role of the tunneling matrix element and nuclear reorganization in the design of quantum-dot cellular automata molecules J Henry, EP Blair Journal of Applied Physics 123 (6), 2018 | 8 | 2018 |
| Robust electric-field input circuits for clocked molecular quantum-dot cellular automata P Cong, EP Blair IEEE Transactions on Nanotechnology 21, 424-433, 2022 | 7 | 2022 |
| Designing boron-cluster-centered zwitterionic Y-shaped clocked QCA molecules N Liza, Y Lu, EP Blair Nanotechnology 33 (46), 465201, 2022 | 5 | 2022 |
| Clocked molecular quantum-dot cellular automata circuits tolerate unwanted external electric fields P Cong, EP Blair Journal of Applied Physics 131 (23), 2022 | 5 | 2022 |
Craig LentFreimann Professor of Engineering, Electrical Engineering, University of Notre DameVerified email at nd.edu
