Paul Hanakata, Ph.D.
Affiliations: | 2019- | Physics | Harvard University, Cambridge, MA, United States |
Website:
https://phanakata.github.io/Google:
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Parents
Sign in to add mentor| Francis W. Starr | research assistant | Wesleyan University (Middletown, CT) | |
| David Kelly Campbell | grad student | 2014-2019 | Boston University |
| Harold S. Park | grad student | 2014-2019 | Boston University (E-Tree) |
| David Robert Nelson | post-doc | 2019- | Harvard |
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Publications
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| Hanakata PZ, Plummer A, Nelson DR. (2022) Anomalous Thermal Expansion in Ising-like Puckered Sheets. Physical Review Letters. 128: 075902 |
| Hanakata PZ, Cubuk ED, Campbell DK, et al. (2019) Erratum: Accelerated Search and Design of Stretchable Graphene Kirigami Using Machine Learning [Phys. Rev. Lett. 121, 255304 (2018)]. Physical Review Letters. 123: 069901 |
| Hanakata PZ, Cubuk ED, Campbell DK, et al. (2018) Accelerated Search and Design of Stretchable Graphene Kirigami Using Machine Learning. Physical Review Letters. 121: 255304 |
| Dias MA, McCarron MP, Rayneau-Kirkhope D, et al. (2017) Kirigami actuators. Soft Matter |
| Hanakata PZ, Qi Z, Campbell DK, et al. (2015) Highly stretchable MoS2 kirigami. Nanoscale |
| Hanakata PZ, Pazmiño Betancourt BA, Douglas JF, et al. (2015) A unifying framework to quantify the effects of substrate interactions, stiffness, and roughness on the dynamics of thin supported polymer films. The Journal of Chemical Physics. 142: 234907 |
| Pazmiño Betancourt BA, Hanakata PZ, Starr FW, et al. (2015) Quantitative relations between cooperative motion, emergent elasticity, and free volume in model glass-forming polymer materials. Proceedings of the National Academy of Sciences of the United States of America. 112: 2966-71 |
| Hanakata PZ, Douglas JF, Starr FW. (2014) Interfacial mobility scale determines the scale of collective motion and relaxation rate in polymer films. Nature Communications. 5: 4163 |
| Hanakata PZ, Douglas JF, Starr FW. (2012) Local variation of fragility and glass transition temperature of ultra-thin supported polymer films. The Journal of Chemical Physics. 137: 244901 |