Theses most similar to Nanostructured electrodes for lithium ion batteries using biological scaffolds (Lee, Yun Jun; 2009) read it
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
Engineered biomolecular interactions with inorganic materials : sequence, binding, and assembly
Peelle, Beau R (2005)
- Advisors: Douglas A. Lauffenburger; Thomas F. Knight, Jr., Gerald Jay Sussma
- Department of Biology
- Advisor: Joseph M. Jacobson
- 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
Highly - conductive cathode for lithium-ion battery using M13 phage - SWCNT complex
Adams, Melanie Chantal (2013)
- Advisor: Angela Belcher
- Department of Materials Science and Engineering
M13 bacteriophage-enabled assembly of nanocomposites : synthesis and application in energy conversion devices
Dang, Xiangnan (2013)
- Advisor: Angela Belcher
- Department of Materials Science and Engineering
Hybrid nanostructure designs facilitated by M13 virus for lithium ion battery and lithium air battery electrodes
Oh, Dahyun (2014)
- Advisor: Thomas F. Knight, Jr., Gerald Jay Sussma
- Department of Materials Science and 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
Virus-based 3-dimensional nanowire network copper and nickel electrodes
Lew, Brandon (Brandon Timothy) (2011)
- Advisor: Thomas F. Knight, Jr., Gerald Jay Sussma
- Department of Materials Science and Engineering