Theses most similar to those of author Liau, Forrest (Forrest W.)
Virus-enabled synthesis of titanium oxide nanowires (2006) read it
Assembly and functionalization of phage onto substrates patterned by dip-pen nanolithography
Gray, David Steven (2006)
- Advisor: Thomas F. Knight, Jr., Gerald Jay Sussma
- Department of Materials Science and Engineering
- Advisor: Francesco Stellacci
- Department of Materials Science and Engineering
Genetic engineering of bacteriophage and its applications for biomimetic materials
Lee, Soo-Kwan (2006)
- Advisor: Thomas F. Knight, Jr., Gerald Jay Sussma
- Biological Engineering Division
Biological scaffolds for the peptide-directed assembly of nanoscale materials and devices
Solis, Daniel J., 1978- (2006)
- Advisor: Thomas F. Knight, Jr., Gerald Jay Sussma
- Department of Chemistry
Assembly of biological building blocks for nano- and micro-fabrication of materials
Chiang, Chung-Yi (2008)
- Advisor: Thomas F. Knight, Jr., Gerald Jay Sussma
- Department of Materials Science and Engineering
Multifunctional virus scaffolds fore energy applications : nanomaterials synthesis and two dimensional assembly
Nam, Ki Tae (2007)
- Advisor: Thomas F. Knight, Jr., Gerald Jay Sussma
- Department of Materials Science and Engineering
Fabrication of 1-dimensional nanowires from genetically modified M13 phage through surfactant-mediated hybridization and the applications in medical diagnosis, energy devices, and catalysis
Lee, Youjin (2010)
- Advisor: Thomas F. Knight, Jr., Gerald Jay Sussma
- Department of Materials Science and Engineering
Investigation into the molar feeding ratio and temperature dependence on the replacement reaction between platinum ions and silver nanoparticles
Stuk, Archimedes (2010)
- Advisor: Kimberly Hamad-Schifferli
- Department of Mechanical Engineering
Biologically-templated metal oxide and metal nanostructures for photovoltaic applications
Dorval Courchesne, Noémie-Manuelle (2015)
- Advisors: Hammond, Paula T., 1963-; Thomas F. Knight, Jr., Gerald Jay Sussma
- Department of Chemical Engineering
- Advisor: Thomas F. Knight, Jr., Gerald Jay Sussma
- Department of Materials Science and Engineering
Virus-enabled synthesis and 2D/3D assembly of nanowire networks (2013) read it
- Advisor: Thomas F. Knight, Jr., Gerald Jay Sussma
- Department of Materials Science and Engineering
Controlled synthesis and characterization of templated, magneto-responsive nanoparticle structures
Singh, Harpree (2006)
- Advisors: Paul E. Laibinis; T. Alan Hatton, Peter T. Lansbury, Jr.
- Department of Chemical Engineering
Block copolymer micellar thin films as templates for the production of tunable inorganic nanocluster arrays and their applications
Bennett, Ryan Derek (2007)
- Advisor: Robert E. Cohen
- Department of Chemical Engineering
- Advisors: Chee Cheong Wong; Chiang, Yet-ming
- Department of Materials Science and Engineering
Nanostructures templated on biological scaffolds for light harvesting, energy transfer, charge transfer, and redox reactions
Nam, Yoon Sung (2010)
- Advisor: Thomas F. Knight, Jr., Gerald Jay Sussma
- Department of Biological Engineering
Investigation of layer-by-layer assembly and M13 bacteriophage nanowires for dye-sensitized solar cells
Ladewski, Rebecca L. (Rebecca Lynn) (2012)
- Advisors: Hammond, Paula T., 1963-; Thomas F. Knight, Jr., Gerald Jay Sussma
- Department of Chemical Engineering
- Advisors: Michael F. Rubner ; Robert E. Cohen
- Department of Chemical Engineering
M13 virus-enabled assembly of 3D nanostructured composites : synthesis and applications in solar energy conversion and electrochemical energy storage devices
Chen, Po-Ye (2015)
- Advisors: Hammond, Paula T., 1963-; Thomas F. Knight, Jr., Gerald Jay Sussma
- Department of Chemical Engineering
Biologically-templated metal oxide and metal nanostructures for photovoltaic applications
Dorval Courchesne, Noémie-Manuelle (2015)
- Advisors: Hammond, Paula T., 1963-; Thomas F. Knight, Jr., Gerald Jay Sussma
- Department of Chemical Engineering
- Advisor: Timothy M. Swager
- Department of Materials Science and Engineering