Title :
3D nanofabrication on complex seed shapes using glancing angle deposition
Author :
Hyeon-Ho Jeong ; Mark, Andrew G. ; Gibbs, John G. ; Reindl, Thomas ; Waizmann, Ulrike ; Weis, Jurgen ; Fischer, P.
Author_Institution :
Max Planck Inst. for Intell. Syst., Stuttgart, Germany
Abstract :
Three-dimensional (3D) fabrication techniques promise new device architectures and enable the integration of more components, but fabricating 3D nanostructures for device applications remains challenging. Recently, we have performed glancing angle deposition (GLAD) upon a nanoscale hexagonal seed array to create a variety of 3D nanoscale objects including multicomponent rods, helices, and zigzags [1]. Here, in an effort to generalize our technique, we present a step-by-step approach to grow 3D nanostructures on more complex nanoseed shapes and configurations than before. This approach allows us to create 3D nanostructures on nanoseeds regardless of seed sizes and shapes.
Keywords :
nanofabrication; nanostructured materials; vapour deposition; 3D nanofabrication; 3D nanoscale objects; 3D nanostructure fabrication; GLAD; complex nanoseed shapes; device architectures; glancing angle deposition; helices; multicomponent rods; nanoscale hexagonal seed array; physical vapor deposition technique; seed sizes; step-by-step approach; three-dimensional fabrication techniques; zigzags; Arrays; Nanoscale devices; Nanostructures; Shape; Substrates; Three-dimensional displays;
Conference_Titel :
Micro Electro Mechanical Systems (MEMS), 2014 IEEE 27th International Conference on
Conference_Location :
San Francisco, CA
DOI :
10.1109/MEMSYS.2014.6765670
