When molecules are coupled to an optical cavity, new light–matter hybrid states, so-called
polaritons, are formed due to quantum light–matter interactions. With the experimental …

Optically active molecular materials, such as organic conjugated polymers and biological
systems, are characterized by strong coupling between electronic and vibrational degrees of …

Over the past decade, the possibility of manipulating chemistry and material properties using
hybrid light–matter states has stimulated considerable interest. Hybrid light–matter states …

Intestinal colonization by bacteria of oral origin has been correlated with several negative
health outcomes, including inflammatory bowel disease. However, a causal role of oral …

Many chemical methods have been developed to favor a particular product in
transformations of compounds that have two or more reactive sites. We explored a different …

The excitation of surface plasmons (SPs)—collective oscillation of conduction-band
electrons in nanostructures—can afford photon, electron and heat energy redistribution over …

Tailored femtosecond laser pulses from a computer-controlled pulse shaper were used to
optimize the branching ratios of different organometallic photodissociation reaction …

How does a chemical reaction proceed at ultralow temperatures? Can simple quantum
mechanical rules such as quantum statistics, single partial-wave scattering, and quantum …

The introduction of control theory in quantum mechanics has created a rich, new
interdisciplinary scientific field, which is producing novel insight into important theoretical …

Process intensification (PI) is commonly seen as one of the most promising development
paths for the chemical process industry and one of the most important progress areas for …