Home > News > Porphyrin electron-transfer reactions observed at the molecular level
August 2nd, 2007
Porphyrin electron-transfer reactions observed at the molecular level
Researchers at Temple University have observed and documented electron transfer reactions on an electrode surface at the single molecule level for the first time, a discovery which could have future relevance to areas such as molecular electronics, electrochemistry, biology, catalysis, information storage, and solar energy conversion.
The researchers have published their findings, "Dynamics of Porphyrin Electron-Transfer Reactions at the Electrode-Electrolyte Interface at the Molecular Level", in the international scientific journal, Angewandte Chemie International.
Watching Schrödinger's cat die (or come to life): Steering quantum evolution & using probes to conduct continuous error correction in quantum computers July 30th, 2014
From Narrow to Broad July 30th, 2014
Optimum inertial design for self-propulsion: A new study investigates the effects of small but finite inertia on the propulsion of micro and nano-scale swimming machines July 29th, 2014
A new way to make microstructured surfaces: Method can produce strong, lightweight materials with specific surface properties July 29th, 2014
University of Manchester selects Anasys AFM-IR for coatings and corrosion research July 30th, 2014
Nature inspires a greener way to make colorful plastics July 30th, 2014
Analytical solutions from Malvern Instruments support University of Wisconsin-Milwaukee researchers in understanding environmental effects of nanomaterials July 30th, 2014
FEI Unveils New Solutions for Faster Time-to-Analysis in Metals Research July 30th, 2014