Theses most similar to Molecular mechanics of cartilage : quantification of GAG electrostatic interactions via high-resolution force spectroscopy (Seog, Joonil, 1969-; 2003) read it
Modeling and measurement of intermolecular interaction forces between cartilage ECM macromolecules
Dean, Delphine Marguerite Denise, 1978- (2005)
- Advisor: Grodzinsky, Alan Jay
- Department of Electrical Engineering and Computer Science
Linear and star-shaped poly(ethylene oxide) grafted surfaces : grafting density and protein adsorption
Allgor, Susan J. Sofia (Susan Jane Sofia) (1996)
- Advisor: Edward W. Merill
- Department of Chemical Engineering
Adsorption and multilayer assembly of charged macromolecules on neutral hydrophobic surfaces and applications to surface patterning
Park, Juhyu (2006)
- Advisor: Hammond, Paula T., 1963-
- Department of Materials Science and Engineering
- Advisors: Christine Ortiz; Grodzinsky, Alan Jay
- Department of Materials Science and Engineering
Surface engineering using layer-by-layer assembly of pH-sensitive polymers and nanoparticles
Lee, Daeyeon (2007)
- Advisors: Michael F. Rubner ; Robert E. Cohen
- Department of Chemical Engineering
Reversible stimulus-responsive polymers for the control of the surface interfacial and nanomechanical properties
Ye, Mia (2008)
- Advisor: Christine Ortiz
- Department of Materials Science and Engineering
- Advisor: Christine Ortiz
- Department of Civil and Environmental Engineering
Measuring the electrostatic repulsion forces between glycosaminoglycans using the atomic force microscope
Kong, Jiang-Ti, 1975- (1999)
- Advisors: Christine Ortiz; Grodzinsky, Alan Jay
- Department of Materials Science and Engineering
Molecular electromechanics : modeling electrostatic forces between GAG molecules
Dean, Delphine Marguerite Denise, 1978- (2001)
- Advisor: Grodzinsky, Alan Jay
- Department of Electrical Engineering and Computer Science
Poly(vinyl alcohol) based hydrogen-bonded multilayers : from pH-controlled multi-stage dissolution to zwitter-wettable surfaces
Lee, Hyomi (2014)
- Advisors: Michael F. Rubner ; Robert E. Cohen
- Department of Chemical Engineering