Multimedia Gallery - Single Molecule Optical STM Theory

Imaging molecular orbital of a single magnesium porphine molecule--STM (top) and calculated

January 6, 2009

Single Molecule Optical STM Theory

Imaging molecular orbital of a single magnesium porphine molecule: Scanning tunneling microscope (STM) image (top), calculated (bottom).

The Chemistry at the Space-Time Limit Center (CaSTL) at the University of California, Irvine, puts great effort into developing the theoretical framework necessary for understanding the ultrafast-STM measurements on single molecules. Under the guidance of Shaul Mukamel, theoretical effort focused on the development of non-equilibrium, super-operator Greens function theory (NESGFT) for describing the response of a single molecule to an external electric bias/current. For instance, this formalism was applied to calculate the tunneling induced florescence (TIF) spectra of single molecules in an STM junction and compared to measurements. Kieron Burke will lead current efforts that employ a density functional (DFT) approach to zoom in on the details of the molecular response. [Research supported by National Science Foundation grant CHE 05-33162.] (Date of Image: Aug. 4, 2008)

Credit: Wilson Ho and Shaul Mukamel, University of California, Irvine, NSF-Chemical Bonding Center

Images and other media in the National Science Foundation Multimedia Gallery are available for use in print and electronic material by NSF employees, members of the media, university staff, teachers and the general public. All media in the gallery are intended for personal, educational and nonprofit/non-commercial use only.

Images credited to the National Science Foundation, a federal agency, are in the public domain. The images were created by employees of the United States Government as part of their official duties or prepared by contractors as "works for hire" for NSF. You may freely use NSF-credited images and, at your discretion, credit NSF with a "Courtesy: National Science Foundation" notation.

Additional information about general usage can be found in Conditions.

Also Available:
Download the high-resolution JPG version of the image. (1 MB)

Use your mouse to right-click (Mac users may need to Ctrl-click) the link above and choose the option that will save the file or target to your computer.