James Curtis Hone
Affiliations: | Mechanical Engineering | Columbia University, New York, NY |
Area:
Graphene, 2D materials, NEMS, nano-biologyWebsite:
http://me.columbia.edu/james-honeGoogle:
"James Curtis Hone"Bio:
http://hone.me.columbia.edu/
http://www.dkv.columbia.edu/demo/nanomedicine/site2/bios/bio_hone.html
https://scholar.google.com/citations?user=mQcg8HoAAAAJ&hl=en
Mean distance: (not calculated yet)
Parents
Sign in to add mentor| Alex K. Zettl | grad student | 1998 | UC Berkeley | |
| (Studies of one-dimensional carbon-based metals : AC60 and carbon nanotubes) | ||||
| Michael Lee Roukes | post-doc | 2000 | Caltech | |
Children
Sign in to add trainee| Baichang Li | grad student | ||
| Bhupesh Chandra | grad student | 2009 | Columbia |
| Mingyuan Huang | grad student | 2009 | Columbia |
| Justin J. Abramson | grad student | 2010 | Columbia |
| Nathaniel Wilson | grad student | 2010 | Columbia |
| Saba Ghassemi | grad student | 2011 | Columbia |
| Anurag Mathur | grad student | 2012 | Columbia |
| Changyao Chen | grad student | 2013 | Columbia |
| Yuyao Shan | grad student | 2013 | Columbia |
| Zhengyi Zhang | grad student | 2014 | Columbia |
| Jesse Balgley | post-doc | 2022- | Columbia (LinguisTree) |
| Young Duck Kim | post-doc | 2013-2017 | Columbia |
BETA: Related publications
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Publications
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| Shin JC, Jeong JH, Kwon J, et al. (2024) Electrically Confined Electroluminescence of Neutral Excitons in WSe Light-emitting Transistors. Advanced Materials (Deerfield Beach, Fla.). e2310498 |
| Zhang S, Liu Y, Sun Z, et al. (2023) Visualizing moiré ferroelectricity via plasmons and nano-photocurrent in graphene/twisted-WSe structures. Nature Communications. 14: 6200 |
| Liu S, Liu Y, Holtzman L, et al. (2023) Two-Step Flux Synthesis of Ultrapure Transition-Metal Dichalcogenides. Acs Nano |
| Tan C, Ho DYH, Wang L, et al. (2022) Dissipation-enabled hydrodynamic conductivity in a tunable bandgap semiconductor. Science Advances. 8: eabi8481 |
| Su H, Xu D, Cheng SW, et al. (2022) Dark-Exciton Driven Energy Funneling into Dielectric Inhomogeneities in Two-Dimensional Semiconductors. Nano Letters |
| Zhang S, Li B, Chen X, et al. (2022) Nano-spectroscopy of excitons in atomically thin transition metal dichalcogenides. Nature Communications. 13: 542 |
| Liu Y, Liu S, Li B, et al. (2022) Identifying the Transition Order in an Artificial Ferroelectric van der Waals Heterostructure. Nano Letters |
| Kim H, Kim YD, Wu T, et al. (2022) Electroluminescence of atoms in a graphene nanogap. Science Advances. 8: eabj1742 |
| Zhu L, Tang J, Li B, et al. (2022) Artificial Neuron Networks Enabled Identification and Characterizations of 2D Materials and van der Waals Heterostructures. Acs Nano |
| Jadwiszczak J, Sherman J, Lynall D, et al. (2022) Mixed-Dimensional 1D/2D van der Waals Heterojunction Diodes and Transistors in the Atomic Limit. Acs Nano |