Digital electrostatic electron-beam
array lithography, Baylor, L.R., D.H. Lowndes, M.L. Simpson, C.E. Thomas, M.A. Guillorn,
V.I. Merkulov, J.H. Whealton, E.D. Ellis,
D.K. Hensley, and A.V. Melechko, . Journal of Vacuum Science &
Technology B, 2002. 20(6): p. 2646-2650.
Field emission from isolated individual vertically aligned carbon
nanocones. Baylor, L.R., V.I. Merkulov, E.D. Ellis, M.A. Guillorn, D.H. Lowndes,
A.V. Melechko, M.L. Simpson, and J.H. Whealton,
Journal of Applied Physics, 2002. 91(7): p. 4602-4606.
Self-aligned gated field emission
devices using single carbon nanofiber
cathodes. Guillorn, M.A., A.V. Melechko, V.I. Merkulov, D.K. Hensley, M.L.
Simpson, and D.H. Lowndes,
Applied Physics Letters, 2002. 81(19): p. 3660-3662.
Individually addressable vertically aligned carbon
nanofiber-based electrochemical probes.
Guillorn, M.A., T.E. McKnight, A. Melechko, V.I. Merkulov, P.F. Britt,
D.W. Austin, D.H. Lowndes, and M.L. Simpson,
Journal of Applied Physics, 2002. 91(6): p. 3824-3828.
Nanopipe
fabrication using vertically aligned carbon nanofiber
templates
Melechko, A.V., T.E. McKnight, M.A. Guillorn, D.W. Austin, B.
Ilic, V.I. Merkulov, M.J. Doktycz, D.H.
Lowndes, and M.L. Simpson, . Journal of Vacuum Science & Technology B,
2002.
20(6): p. 2730-2733.
Transition between 'base' and 'tip' carbon
nanofiber growth modes.
Melechko, A.V., V.I. Merkulov, D.H. Lowndes, M.A. Guillorn, and M.L.
Simpson,
Chemical Physics Letters, 2002. 356(5-6): p. 527-533.
Control mechanisms for the growth of
isolated vertically aligned carbon nanofibers. Merkulov, V.I., D.K. Hensley, A.V. Melechko, M.A. Guillorn, D.H.
Lowndes, and M.L. Simpson,
Journal of Physical Chemistry B, 2002. 106(41): p. 10570-10577.
Growth rate of plasma-synthesized vertically aligned carbon
nanofibers.
Merkulov, V., A.V. Melechko, M.A. Guillorn, D.H. Lowndes, and M.L.
Simpson,
Chemical Physics Letters, 2002.
361(5-6): p. 492-498.
Controlled alignment of carbon
nanofibers
in a large-scale synthesis process.
Merkulov, V.I., A.V. Melechko, M.A. Guillorn, M.L. Simpson, D.H.
Lowndes, J.H.
Whealton, and R.J. Raridon, Applied Physics Letters, 2002.
80(25): p.
4816-4818.
Effects of spatial separation on the
growth of vertically aligned carbon nanofibers
produced by plasma-enhanced chemical vapor deposition. Merkulov, V.I., A.V. Melechko, M.A. Guillorn, D.H. Lowndes, and M.L.
Simpson,
Applied Physics Letters, 2002. 80(3): p. 476-478.
Surfaces: a playground for physics with
broken symmetry in reduced dimensionality. Plummer, E.W., Ismail, R. Matzdorf, A.V.
Melechko, J.P. Pierce, and J.D. Zhang,
Surface Science, 2002. 500(1-3): p. 1-27.
RACHET: An efficient cover-based merging of clustering hierarchies from
distributed datasets. Samatova, N.F., G. Ostrouchov, A.
Geist, and A.V. Melechko,
Distributed and Parallel Databases, 2002. 11(2): p.
157-180.
Controlled transport of latex beads
through vertically aligned carbon nanofiber
membranes. Zhang, L., A.V. Melechko, V.I. Merkulov, M.A. Guillorn, M.L. Simpson,
D.H. Lowndes, and M.J. Doktycz,
Applied Physics Letters, 2002. 81(1): p. 135-137.