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Nadrian C. Seeman
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2020 – today
- 2023
- [j13]Feng Zhou
, Heng Ni, Guolong Zhu
Toward three-dimensional DNA industrial nanorobots. Sci. Robotics 8(85) (2023)
2010 – 2019
- 2017
- [j12]Joanna A. Ellis-Monaghan, Greta Pangborn
Design tools for reporter strands and DNA origami scaffold strands. Theor. Comput. Sci. 671: 69-78 (2017) - 2014
- [j11]Jennifer E. Padilla, Matthew J. Patitz
Asynchronous signal Passing for Tile Self-assembly: Fuel Efficient Computation and Efficient assembly of Shapes. Int. J. Found. Comput. Sci. 25(4): 459-488 (2014) - 2013
- [c12]Jennifer E. Padilla, Matthew J. Patitz
Asynchronous Signal Passing for Tile Self-assembly: Fuel Efficient Computation and Efficient Assembly of Shapes. UCNC 2013: 174-185 - 2012
- [j10]Jennifer E. Padilla, Wenyan Liu, Nadrian C. Seeman:
Hierarchical self assembly of patterns from the Robinson tilings: DNA tile design in an enhanced Tile Assembly Model. Nat. Comput. 11(2): 323-338 (2012) - [i1]Jennifer E. Padilla, Matthew J. Patitz, Raul Pena, Robert T. Schweller, Nadrian C. Seeman, Robert Sheline, Scott M. Summers, Xingsi Zhong:
Asynchronous Signal Passing for Tile Self-Assembly: Fuel Efficient Computation and Efficient Assembly of Shapes. CoRR abs/1202.5012 (2012) - 2010
- [j9]Egor Dolzhenko, Natasa Jonoska, Nadrian C. Seeman:
Transducer generated arrays of robotic nano-arms. Nat. Comput. 9(2): 437-455 (2010) - [c11]Natasa Jonoska, Nadrian C. Seeman:
Finite State Automata by DNA Self-assembly. ICT Innovations 2010: 1-4
2000 – 2009
- 2009
- [j8]Gang Wu, Natasha Jonoska, Nadrian C. Seeman:
Construction of a DNA nano-object directly demonstrates computation. Biosyst. 98(2): 80-84 (2009) - [j7]Natasa Jonoska, Nadrian C. Seeman, Gang Wu:
On existence of reporter strands in DNA-based graph structures. Theor. Comput. Sci. 410(15): 1448-1460 (2009) - [c10]Nadrian C. Seeman:
The Perils of Polynucleotides Revisited. Algorithmic Bioprocesses 2009: 205-214 - 2006
- [j6]Gang Wu, Nadrian C. Seeman:
Multiplying with DNA. Nat. Comput. 5(4): 427-441 (2006) - 2005
- [c9]Yuliy M. Baryshnikov
Self-correcting Self-assembly: Growth Models and the Hammersley Process. DNA 2005: 1-11 - [c8]Ruojie Sha, Xiaoping Zhang, Shiping Liao, Pamela E. Constantinou, Baoquan Ding, Tong Wang, Alejandra V. Garibotti, Hong Zhong, Lisa B. Israel, Xing Wang, Gang Wu, Banani Chakraborty, Junghuei Chen, Yuwen Zhang, Hao Yan, Zhiyong Shen, Wanqiu Shen, Phiset Sa-Ardyen, Jens Kopatsch, Jiwen Zheng, Philip S. Lukeman, William B. Sherman, Chengde Mao, Natasa Jonoska, Nadrian C. Seeman:
Structural DNA Nanotechnology: Molecular Construction and Computation. UC 2005: 20-31 - 2004
- [j5]Alessandra Carbone
3D Fractal DNA Assembly from Coding, Geometry and Protection. Nat. Comput. 3(3): 235-252 (2004) - [c7]Alessandra Carbone
Molecular Tiling and DNA Self-assembly. Aspects of Molecular Computing 2004: 61-83 - [c6]Natasa Jonoska, Shiping Liao, Nadrian C. Seeman:
Transducers with Programmable Input by DNA Self-assembly. Aspects of Molecular Computing 2004: 219-240 - [c5]Matteo Cavaliere
Biomolecular Implementation of Computing Devices with Unbounded Memory. DNA 2004: 35-49 - 2003
- [j4]Natasa Jonoska, Phiset Sa-Ardyen, Nadrian C. Seeman:
Computation by Self-assembly of DNA Graphs. Genet. Program. Evolvable Mach. 4(2): 123-137 (2003) - [j3]Alessandra Carbone
Coding and geometrical shapes in nanostructures: A fractal DNA-assembly. Nat. Comput. 2(2): 133-151 (2003) - [j2]Phiset Sa-Ardyen, Natasa Jonoska, Nadrian C. Seeman:
Self-assembling DNA graphs. Nat. Comput. 2(4): 427-438 (2003) - 2002
- [j1]Nadrian C. Seeman:
It started with Watson and Crick, but it sure didn't end there: Pitfalls and possibilities beyond the classic double helix. Nat. Comput. 1(1): 53-84 (2002) - [c4]Phiset Sa-Ardyen, Natasa Jonoska, Nadrian C. Seeman:
Self-assembling DNA Graphs. DNA 2002: 1-9 - [e1]Natasa Jonoska, Nadrian C. Seeman:
DNA Computing, 7th International Workshop on DNA-Based Computers, DNA7, Tampa, Florida, USA, June 10-13, 2001, Revised Papers. Lecture Notes in Computer Science 2340, Springer 2002, ISBN 3-540-43775-4 [contents] - 2001
- [c3]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
- [c2]John H. Reif, Thomas H. LaBean, Nadrian C. Seeman:
Challenges and Applications for Self-Assembled DNA Nanostructures. DNA Computing 2000: 173-198
1990 – 1999
- 1996
- [c1]Erik Winfree
Universal computation via self-assembly of DNA: Some theory and experiments. DNA Based Computers 1996: 191-213
Coauthor Index
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