David G. Cahill
Affiliations: | Physics | University of Illinois, Urbana-Champaign, Urbana-Champaign, IL |
Area:
materials physics, thermal sciences, nanoscience, materials scienceWebsite:
https://matse.illinois.edu/people/profile/d-cahillGoogle:
"David Gerard Cahill" OR "David G. Cahill"Bio:
https://cahill.matse.illinois.edu/
https://www.researchgate.net/profile/David-Cahill-6
https://scholar.google.com/citations?user=13JA0BIAAAAJ&hl=en
https://orcid.org/0000-0001-5969-3460
https://www.proquest.com/openview/bb3c596aa42c55ad9793f2a71068d59a/1
Mean distance: (not calculated yet)
Cross-listing: Materials Tree
Parents
Sign in to add mentor| Robert O. Pohl | grad student | 1989 | Cornell | |
| (Lattice vibrations in glasses) | ||||
Children
Sign in to add trainee| Jaichan Kim | grad student | 2001 | UIUC |
| Xiaoyuan Hu | grad student | 2002 | UIUC |
| Marcel A. Wall | grad student | 2003 | UIUC |
| Justin R. Serrano | grad student | 2004 | UIUC |
| Ruxandra M. Costescu | grad student | 2006 | UIUC |
| Zhenbin Ge | grad student | 2006 | UIUC |
| Shawn A. Putnam | grad student | 2007 | UIUC |
| Xijing Zhang | grad student | 2008 | UIUC |
| Catalin Chiritescu | grad student | 2010 | UIUC |
| Yee K. Koh | grad student | 2010 | UIUC |
| Wen-Pin Hsieh | grad student | 2011 | UIUC |
| Zhun Y. Ong | grad student | 2011 | UIUC |
| Tamlin Matthews | grad student | 2014 | UIUC |
| Jingcheng Ma | grad student | 2017-2022 | UIUC (E-Tree) |
| Xiaoyang Ji | grad student | 2018-2022 | UIUC |
| Guangxin Lv | grad student | 2018-2022 | UIUC |
| Xiaojia Wang | post-doc | 2012-2014 | |
| Zhe Cheng | post-doc | 2020-2022 | (E-Tree) |
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Publications
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| Yeon S, Cahill DG. (2024) Analysis of heat flow in modified transient plane source (MTPS) measurements of the thermal effusivity and thermal conductivity of materials. The Review of Scientific Instruments. 95 |
| Cheng Z, Huang YJ, Zahiri B, et al. (2024) Ionic Peltier effect in Li-ion electrolytes. Physical Chemistry Chemical Physics : Pccp |
| Han HJ, Kumar S, Jin G, et al. (2023) Topological Metal MoP Nanowire for Interconnect. Advanced Materials (Deerfield Beach, Fla.). e2208965 |
| Sun J, Lv G, Cahill DG. (2023) Frequency-domain probe beam deflection method for measurement of thermal conductivity of materials on micron length scale. The Review of Scientific Instruments. 94: 014903 |
| Cheng Z, Liang J, Kawamura K, et al. (2022) High thermal conductivity in wafer-scale cubic silicon carbide crystals. Nature Communications. 13: 7201 |
| Lv G, Shen C, Shan N, et al. (2022) Odd-even effect on the thermal conductivity of liquid crystalline epoxy resins. Proceedings of the National Academy of Sciences of the United States of America. 119: e2211151119 |
| Cheng Z, Mu F, Ji X, et al. (2022) Correction to "Thermal Visualization of Buried Interfaces Enabled by Ratio Signal and Steady-State Heating of Time-Domain Thermoreflectance". Acs Applied Materials & Interfaces. 14: 22678 |
| Lv G, Soman B, Shan N, et al. (2021) Effect of Linker Length and Temperature on the Thermal Conductivity of Ethylene Dynamic Networks. Acs Macro Letters. 10: 1088-1093 |
| Ma J, Kim JM, Hoque MJ, et al. (2021) Role of Thin Film Adhesion on Capillary Peeling. Nano Letters |
| Kim SE, Mujid F, Rai A, et al. (2021) Extremely anisotropic van der Waals thermal conductors. Nature. 597: 660-665 |