Working together takes us further : we believe in the power of collaboration.
We make better decisions because we gather more information and understand the perspectives of our partners.
With BLINGCRETE, TOUCHCRETE and DYSCRETE, we have developed three novel standards of concrete, enabling this material to be light-reflecting, information-conveying, and energy-generating for the very first time.
Researchers have created a new method to extract the static and dynamic structure of complex chemical systems.
In this context, "structure" doesn't just mean the 3-D arrangement of atoms that make up a molecule, but rather time-dependent quantum-mechanical degrees of freedom that dictate the optical, chemical and physical properties of the system.
Consider how we view the world: three dimensions in space and one dimension in time, i.e., space-time.
The required know-how is including both objective and subjective categories as well as technical knowledge and experience.
The aim of this multi-scale, multi-disciplinary approach is to construct a coherent picture of geomicrobiological processes by integrating information gathered at the various scales and through the various techniques.
Two dimensions encode information on vibrational frequencies, while the remaining dimensions represent electronic transitions in the molecule.
Researchers at Northwestern University have created a new method to extract the static and dynamic structure of complex chemical systems.
A number of linear and branched substrates of this type were prepared and their photochemical behavior was explored.
The results of this effort have led to the identification of several key factors that govern the chemoselectivities and efficiencies of the competitive reaction pathways followed.