Search Results - "Perrey, C.R."

Superhard silicon nanospheres by Gerberich, W.W, Mook, W.M, Perrey, C.R, Carter, C.B, Baskes, M.I, Mukherjee, R, Gidwani, A, Heberlein, J, McMurry, P.H, Girshick, S.L

“…Successful deposition and mechanical probing of nearly spherical, defect-free silicon nanospheres has been accomplished. The results show silicon at this…”
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Plasticity responses in ultra-small confined cubes and films by Cordill, M.J., Chambers, M.D., Lund, M.S., Hallman, D.M., Perrey, C.R., Carter, C.B., Bapat, A., Kortshagen, U., Gerberich, W.W.

“…Nanoindentation-induced dislocation emission at 5–7 nm displacements in ultra-thin films (12–33 nm) and nanocubes (40–60 nm) is used to examine deformation and…”
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Hypersonic plasma particle deposition of Si–Ti–N nanostructured coatings by Hafiz, J., Wang, X., Mukherjee, R., Mook, W., Perrey, C.R., Deneen, J., Heberlein, J.V.R., McMurry, P.H., Gerberich, W.W., Carter, C.B., Girshick, S.L.

“…Si–Ti–N coatings with various compositions were deposited on molybdenum substrates using hypersonic plasma particle deposition (HPPD). In this method, vapor…”
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A boundary constraint energy balance criterion for small volume deformation by Gerberich, W.W., Cordill, M.J., Mook, W.M., Moody, N.R., Perrey, C.R., Carter, C.B., Mukherjee, R., Girshick, S.L.

“…A concept for the deformation resistance of small volumes under contact subjected to displacements in the 2–100 nm regime is proposed. In terms of an energy…”
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A single nanoparticle silicon transistor by Ding, Y.P., Bapat, A., Dong, Y., Perrey, C.R., Kortshagen, U.R., Carter, C.B., Campbell, S.A.

“…Unlike devices built using wafers, single nanoparticle semiconductor devices made from singlecrystal particles would allow the construction of high performance…”
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