Capturing and converting solar energy into fuels and feedstocks is a global challenge that
spans numerous disciplines and fields of research. Billions of years of evolution have …

The light reactions of photosynthesis in green plants are mediated by four large protein
complexes, embedded in the thylakoid membrane of the chloroplast. Photosystem I (PSI) …

Figures showing species and properties relevant to non-photochemical quenching
studies.(a) Filamentous planktonic cyanobacteria Dolichospermum crassum and D. flos …

Quantum states depend on the coordinates of all their constituent particles, with essential
multi-particle correlations. Time-resolved laser spectroscopy is widely used to probe the …

Photosystem I (PSI) is a multisubunit protein complex located in the thylakoid membranes of
green plants and algae, where it initiates one of the first steps of solar energy conversion by …

We report on two multi-chromophore building blocks that self-assemble in solution and on
surfaces into supramolecular light-harvesting arrays. Each building block is based on …

The energy dissipation mechanism in oligomers of the major light‐harvesting complex II
(LHC II) from Arabidopsis thaliana mutants npq1 and npq2, zeaxanthin‐deficient and …

Photosynthetic organisms harvest sunlight with near unity quantum efficiency. The
complexity of the electronic structure and energy transfer pathways within networks of …

Photosystem II (PSII) is responsible for the water oxidation in photosynthesis and it consists
of many proteins and pigment-protein complexes in a variable composition, depending on …

We review the current state of multiphoton microscopy. In particular, the requirements and
limitations associated with high-speed multiphoton imaging are considered. A description of …