Yongjie Hu, Ph.D.
Affiliations: | 2010 | Harvard University, Cambridge, MA, United States |
Area:
nanoscienceGoogle:
"Yongjie Hu"Mean distance: 7.85 | S | N | B | C | P |
Parents
Sign in to add mentor| Charles M. Lieber | grad student | 2010 | Harvard | |
| (Nanowire Platform for Fundamental Physics and Applications in Nanoelectronics and Quantum Devices.) | ||||
| Gang Chen | post-doc | MIT (E-Tree) | ||
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Publications
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| Yan Y, Li M, King SC, et al. (2020) Controlling Thermal Conductivity in Mesoporous Silica Films Using Pore Size and Nanoscale Architecture. The Journal of Physical Chemistry Letters |
| Cui Y, Li M, Hu Y. (2020) Emerging Interface Materials for Electronics Thermal Management: Experiments, Modeling, and New Opportunities Journal of Materials Chemistry C. 8: 10568-10586 |
| Ke M, Nguyen HD, Fan H, et al. (2020) Complementary doping of van der Waals materials through controlled intercalation for monolithically integrated electronics Nano Research. 13: 1369-1375 |
| Kang JS, Wu H, Li M, et al. (2019) Intrinsic Low Thermal conductivity and Phonon Renormalization Due to Strong Anharmonicity of Single-Crystal Tin Selenide. Nano Letters |
| Li M, Kang JS, Nguyen HD, et al. (2019) Anisotropic Thermal Boundary Resistance across 2D Black Phosphorus: Experiment and Atomistic Modeling of Interfacial Energy Transport. Advanced Materials (Deerfield Beach, Fla.). e1901021 |
| Nguyen HD, Kang JS, Li M, et al. (2019) High-performance field emission based on nanostructured tin selenide for nanoscale vacuum transistors. Nanoscale |
| Fan H, Wu H, Lindsay L, et al. (2019) Ab initio investigation of single-layer high thermal conductivity boron compounds Physical Review B. 100 |
| Kang JS, Li M, Wu H, et al. (2019) Basic physical properties of cubic boron arsenide Applied Physics Letters. 115: 122103 |
| Yan Y, King SC, Li M, et al. (2019) Exploring the Effect of Porous Structure on Thermal Conductivity in Templated Mesoporous Silica Films The Journal of Physical Chemistry C. 123: 21721-21730 |
| Li M, Kang JS, Hu Y. (2018) Anisotropic thermal conductivity measurement using a new Asymmetric-Beam Time-Domain Thermoreflectance (AB-TDTR) method. The Review of Scientific Instruments. 89: 084901 |