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Title:	Diffusion coefficient of electrons in silicon
Source:	Journal of Applied Physics [0021-8979] Brunetti, R yr:1981

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description	1.	Lacaita, A. "Observation of avalanche propagation by multiplication assisted diffusion in p‐n junctions." Applied physics letters 57.5 (1990): 489-491.
description	2.	Sigmon, T W. "Diffusivity of electrons and holes in silicon." Applied physics letters 15.10 (1969): 320-322.
description	3.	Canali, C. "Electron drift velocity in silicon." Physical review. B, Condensed matter and materials physics 12.6 (1975): 2265-2284.
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description	5.	Lacaita, A. "Photon‐assisted avalanche spreading in reach‐through photodiodes." Applied physics letters (1993): 606-.
description	6.	Paladino, W. D. E. "Aluminum ion diffusion in aluminum oxide." The Journal of chemical physics 37.5 (1962): 957-962.
description	7.	Lei, XL. "Theory of nonlinear electron transport for solids in a strong electric field." Physical review. B, Solid state 30.8 (1984): 4809-.
description	8.	Fischetti, Massimo V. "Monte Carlo analysis of electron transport in small semiconductor devices including band-structure and space-charge effects." Physical review. B, Condensed matter and materials physics 38.14 (1988): 9721-9745.
description	9.	Canali, C. "Electron and hole drift velocity measurements in silicon and their empirical relation to electric field and temperature." IEEE transactions on electron devices 22.11 (1975): 1045-1047.
description	10.	Koshino, M. "Transport in bilayer graphene: Calculations within a self-consistent Born approximation." Physical review. B, Condensed matter and materials physics 73.24 (2006): 245403-.
description	11.	Jacoboni, C. "A review of some charge transport properties of silicon." Solid-state electronics 20.2 (1977): 77-89.
description	12.	Lu, N. "The structure of ultrathin H-passivated [112] silicon nanowires." Journal of physical chemistry. C 111.22 (2007): 7933-7937.
description	13.	Zhong, Zhanrong R. "Equilibrium molecular dynamics study of phonon thermal transport in nanomaterials." Numerical heat transfer. Part B, Fundamentals 46.5 (2004): 429-446.
description	14.	Hanrath, T. "Chemical surface passivation of Ge nanowires." Journal of the American Chemical Society 126.47 (2004): 15466-15472.
description	15.	Li, D. "Thermal conductivity of individual silicon nanowires." Applied physics letters 83.14 (2003): 2934-2936.
description	16.	Zhao, X.B. B. "Bismuth telluride nanotubes and the effects on the thermoelectric properties of nanotube-containing nanocomposites." Applied physics letters 86.6 (2005): 62111-62111.
description	17.	Hanrath, T. "A Comprehensive Study of Electron Energy Losses in Ge Nanowires." Nano letters 4.8 (2004): 1455-1461.
description	18.	Hanrath, T. "Nucleation and growth of germanium nanowires seeded by organic monolayer-coated gold nanocrystals." Journal of the American Chemical Society 124.7 (2002): 1424-1429.
description	19.	Yu, H. "Bismuth, tellurium, and bismuth telluride nanowires." Journal of materials chemistry 14.4 (2004): 595-602.
description	20.	Pugnet, M. "Cooling of hot electron-hole plasmas in the presence of screened electron-phonon interactions." Solid state communications 38.6 (1981): 531-.

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Journal of Applied Physics [0021-8979] Brunetti, R yr:1981