Skip to content

Nanocones on transparent substrates for investigations in scanning probe microscopes

Research output: Contribution to journalArticle

Standard

Nanocones on transparent substrates for investigations in scanning probe microscopes. / M., Fleischer; F., Stade; A., Heeren; M., Häffner; K., Braun; C., Stanciu; R., Ehlich; Hörber, JKH; A.J., Meixner; D.P., Kern.

In: Microelectronic Engineering, Vol. 86, 12.2008, p. 1219 - 1221.

Research output: Contribution to journalArticle

Harvard

M., F, F., S, A., H, M., H, K., B, C., S, R., E, Hörber, JKH, A.J., M & D.P., K 2008, 'Nanocones on transparent substrates for investigations in scanning probe microscopes', Microelectronic Engineering, vol. 86, pp. 1219 - 1221. https://doi.org/10.1016/j.mee.2008.11.091

APA

M., F., F., S., A., H., M., H., K., B., C., S., ... D.P., K. (2008). Nanocones on transparent substrates for investigations in scanning probe microscopes. Microelectronic Engineering, 86, 1219 - 1221. https://doi.org/10.1016/j.mee.2008.11.091

Vancouver

M. F, F. S, A. H, M. H, K. B, C. S et al. Nanocones on transparent substrates for investigations in scanning probe microscopes. Microelectronic Engineering. 2008 Dec;86:1219 - 1221. https://doi.org/10.1016/j.mee.2008.11.091

Author

M., Fleischer ; F., Stade ; A., Heeren ; M., Häffner ; K., Braun ; C., Stanciu ; R., Ehlich ; Hörber, JKH ; A.J., Meixner ; D.P., Kern. / Nanocones on transparent substrates for investigations in scanning probe microscopes. In: Microelectronic Engineering. 2008 ; Vol. 86. pp. 1219 - 1221.

Bibtex

@article{df52586f83d54a929603494a454ad99c,
title = "Nanocones on transparent substrates for investigations in scanning probe microscopes",
abstract = "Under excitation with an external electromagnetic field, gold nanocones act as efficient optical antennas. In this work, a process developed for the fabrication of sharp-tipped gold nanocones on silicon is extended to transparent substrates covered by a thin conducting layer. In this configuration, the cones can be investigated in scanning probe microscopes while illuminating from below. The electric coupling between cones and substrate and between individual cones can be varied by a precise thinning of the conducting layer via a fine-tuning of the original layer thicknesses.",
author = "Fleischer M. and Stade F. and Heeren A. and H{\"a}ffner M. and Braun K. and Stanciu C. and Ehlich R. and JKH H{\"o}rber and Meixner A.J. and Kern D.P.",
note = "Publisher: Elsevier",
year = "2008",
month = "12",
doi = "10.1016/j.mee.2008.11.091",
language = "English",
volume = "86",
pages = "1219 -- 1221",
journal = "Microelectronic Engineering",
issn = "0167-9317",
publisher = "Amsterdam:Elsevier",

}

RIS - suitable for import to EndNote

TY - JOUR

T1 - Nanocones on transparent substrates for investigations in scanning probe microscopes

AU - M., Fleischer

AU - F., Stade

AU - A., Heeren

AU - M., Häffner

AU - K., Braun

AU - C., Stanciu

AU - R., Ehlich

AU - Hörber, JKH

AU - A.J., Meixner

AU - D.P., Kern

N1 - Publisher: Elsevier

PY - 2008/12

Y1 - 2008/12

N2 - Under excitation with an external electromagnetic field, gold nanocones act as efficient optical antennas. In this work, a process developed for the fabrication of sharp-tipped gold nanocones on silicon is extended to transparent substrates covered by a thin conducting layer. In this configuration, the cones can be investigated in scanning probe microscopes while illuminating from below. The electric coupling between cones and substrate and between individual cones can be varied by a precise thinning of the conducting layer via a fine-tuning of the original layer thicknesses.

AB - Under excitation with an external electromagnetic field, gold nanocones act as efficient optical antennas. In this work, a process developed for the fabrication of sharp-tipped gold nanocones on silicon is extended to transparent substrates covered by a thin conducting layer. In this configuration, the cones can be investigated in scanning probe microscopes while illuminating from below. The electric coupling between cones and substrate and between individual cones can be varied by a precise thinning of the conducting layer via a fine-tuning of the original layer thicknesses.

U2 - 10.1016/j.mee.2008.11.091

DO - 10.1016/j.mee.2008.11.091

M3 - Article

VL - 86

SP - 1219

EP - 1221

JO - Microelectronic Engineering

JF - Microelectronic Engineering

SN - 0167-9317

ER -