2007 |
12 | EE | Urmi Majumder,
Thomas H. LaBean,
John H. Reif:
Activatable Tiles: Compact, Robust Programmable Assembly and Other Applications.
DNA 2007: 15-25 |
11 | EE | John H. Reif,
Thomas H. LaBean:
Autonomous Programmable Biomolecular Devices Using Self-assembled DNA Nanostructures.
WoLLIC 2007: 297-306 |
10 | EE | John H. Reif,
Thomas H. LaBean:
Autonomous programmable biomolecular devices using self-assembled DNA nanostructures.
Commun. ACM 50(9): 46-53 (2007) |
2006 |
9 | EE | Urmi Majumder,
Sudheer Sahu,
Thomas H. LaBean,
John H. Reif:
Design and Simulation of Self-repairing DNA Lattices.
DNA 2006: 195-214 |
2004 |
8 | EE | Ashish Gehani,
Thomas H. LaBean,
John H. Reif:
DNA-based Cryptography.
Aspects of Molecular Computing 2004: 167-188 |
7 | EE | John H. Reif,
Thomas H. LaBean,
Sudheer Sahu,
Hao Yan,
Peng Yin:
Design, Simulation, and Experimental Demonstration of Self-assembled DNA Nanostructures and Motors.
UPP 2004: 173-187 |
2003 |
6 | | Thomas H. LaBean:
Introduction to Self-Assembling DNA Nanostructures for Computation and Nanofabrication.
Computational Biology and Genome Informatics 2003: 35-58 |
2002 |
5 | EE | Dage Liu,
John H. Reif,
Thomas H. LaBean:
DNA Nanotubes: Construction and Characterization of Filaments Composed of TX-tile Lattice.
DNA 2002: 10-21 |
2001 |
4 | EE | John H. Reif,
Thomas H. LaBean,
Michael Pirrung,
Vipul S. Rana,
Bo Guo,
Carl Kingsford,
Gene S. Wickham:
Experimental Construction of Very Large Scale DNA Databases with Associative Search Capability.
DNA 2001: 231-247 |
3 | | John H. Reif,
Thomas H. LaBean,
Nadrian C. Seeman:
Programmable Assembly at the Molecular Scale: Self-Assembly of DNA Lattices (Invited Paper).
ICRA 2001: 966-971 |
2000 |
2 | EE | John H. Reif,
Thomas H. LaBean:
Computationally Inspired Biotechnologies: Improved DNA Synthesis and Associative Search Using Error-Correcting Codes and Vector-Quantization.
DNA Computing 2000: 145-172 |
1 | EE | John H. Reif,
Thomas H. LaBean,
Nadrian C. Seeman:
Challenges and Applications for Self-Assembled DNA Nanostructures.
DNA Computing 2000: 173-198 |