Enhanced purity andresolution via laser assistedelectron beam induced deposition of platinum,
Document Type
Article
Journal/Book Title/Conference
Nanoscale
Volume
5
Issue
1
Publication Date
2013
First Page
408
Last Page
415
Abstract
We introduce a laser assisted electron beam induced deposition (LAEBID) process which is a nanoscale direct write synthesis method that integrates an electron beam induced deposition process with a synchronized pulsed laser step to induce thermal desorption of reaction by-products. Localized, spatially overlapping electron and photon pulses enable the thermal desorption of the reaction by-product while mitigating issues associated with bulk substrate heating, which can shorten the precursor residence time and distort pattern fidelity due to thermal drift. Current results demonstrate purification of platinum deposits (reduced carbon content by ∼50%) with the addition of synchronized laser pulses as well as a significant reduction in deposit resistivity. Measured resistivities from platinum LAEBID structures (4 × 103 μΩ cm) are nearly 4 orders of magnitude lower than standard EBID platinum structures (2.2 × 107 μΩ cm) from the same precursor and are lower than the lowest reported EBID platinum resistivity with post-deposition annealing (1.4 × 104 μΩ cm). Finally the LAEBID process demonstrates improved deposit resolution by ∼25% compared to EBID structures under the conditions investigated in this work.
Recommended Citation
N.A. Roberts , J.D. Fowlkes, G.A. Magel and P.D. Rack, Enhanced purity and resolution via laser assisted electron beam induced deposition of platinum, Nanoscale, 5, 1, 408-415, 2013.
