APS Practice Talks: 1. Density-functional study... / 2. Electrostatic signatures...
Type:
SSO Seminar
Date/Time:
2009-03-11 16:00
Location:
Weniger 304
Event speaker:
1. Denny Jackson/ 2. Landon Prisbrey
Title:
APS Practice Talks: 1. Density-functional study... / 2. Electrostatic signatures...
Contact:
Abstract
- Density-functional study of the BaBi(Q)TiO_3 perovskite solid solution
Using density-functional theory we predict properties of the solid solution perovskites BaBi(Q)TiO_3 where Q is Mg, Ni or Zn. These properties are strongly affected by the presence of both A-site and B-site disorder. We study all distinct orderings within a given 2x2x2 supercell. - Electrostatic signatures of single protein dynamics for detection with carbon nanotube sensors
# Observing single molecule dynamics in real time at atomic resolution is crucial to study enzyme function, which is closely linked to the intrinsic dynamics of the enzyme and molecular interactions between enzyme and substrate. At present, techniques such as nuclear magnetic resonance (NMR) and single molecule fluorescence energy transfer (FRET) are used together with computer simulations to study single molecule dynamics. Recent progress in point-functionalization of single wall carbon nanotubes (CNT) opens up the possibility of electronic detection of single molecule dynamics. CNTs are ideal candidates for electronic sensing of single protein dynamics. Typical CNT diameters are 1-2 nm, comparable to both the size of proteins in solution and the electrostatic screening length in physiological solutions. CNT sensors based on point defects have potential advantages over FRET including better time resolution. We report results for the electrostatic signature of several proteins in solution, both in substrate free and bound forms, and discuss the potential for electronic detection of biologically relevant single protein dynamics using functionalized carbon nanotubes.