Theses most similar to Origami-inspired nanofabrication utilizing physical and magnetic properties of in situ grown carbon nanotubes (In, Hyun Jin; 2010) read it
- Advisors: Klavs F. Jensen; Martin A. Schmidt
- Department of Electrical Engineering and Computer Science; Department of Physics
Large-scale fabrication and assembly of carbon nanotubes via nanopelleting
El Aguizy, Tarek A., 1977- (2004)
- Advisor: Sang-Gook Kim
- Department of Mechanical Engineering
- Advisor: L. Rafael Reif
- Department of Electrical Engineering and Computer Science
Magnetically assisted statistical assembly of III-V heterostructures on silicon : initial process and technology development
Perkins, James Michael, 1978- (2002)
- Advisor: Clifton G. Fonstad, Jr.
- Department of Electrical Engineering and Computer Science
Design and fabrication of an electrically-activated photonic crystal nanocavity laser
Mattson, Eric (Eric Michael) (2005)
- Advisor: Leslie A. Kolodziejski
- Department of Electrical Engineering and Computer Science
Nanostructured Origami (TM) : stress-engineering of nanopatterned membranes to produce three-dimensional structures
Arora, William Jay (2008)
- Advisors: George Barbastathis; Henry I. Smith
- Department of Electrical Engineering and Computer Science
Structure/processing relationships in vapor-liquid-solid nanowire epitaxy
Boles, Steven Tyler (2010)
- Advisors: Carl V. Thompson, II; Eugene A. Fitzgerald
- Department of Materials Science and Engineering
Fabrication of high aspect ratio silicon nanostructure arrays by metal-assisted etching
Chang, Shih-wei, Ph.D (2010)
- Advisor: Carl V. Thompson, II
- Department of Materials Science and Engineering
Fabrication of capacitors based on silicon nanowire arrays generated by metal-assisted wet chemical etching
Zheng, We (2016)
- Advisor: Carl V. Thompson, II
- Department of Materials Science and Engineering
Synthesis and electrochemical characterization of carbon nanotube forests on metal foils for battery electrodes
Lettiere, Bethany R (2017)
- Advisor: A. John Hart
- Department of Mechanical Engineering