Photochemistry beyond the red limit in chlorophyll f–containing photosystems
DJ Nürnberg, J Morton, S Santabarbara, A Telfer… - Science, 2018 - science.org
Photosystems I and II convert solar energy into the chemical energy that powers life.
Chlorophyll a photochemistry, using red light (680 to 700 nm), is near universal and is …
Chlorophyll a photochemistry, using red light (680 to 700 nm), is near universal and is …
Photochemistry beyond the red limit in chlorophyll f-containing photosystems
DJ Nürnberg, J Morton… - … (New York, NY), 2018 - pubmed.ncbi.nlm.nih.gov
Photosystems I and II convert solar energy into the chemical energy that powers life.
Chlorophyll a photochemistry, using red light (680 to 700 nm), is near universal and is …
Chlorophyll a photochemistry, using red light (680 to 700 nm), is near universal and is …
Photochemistry beyond the red limit in chlorophyll f–containing photosystems
D Nürnberg, J Morton, S Santabarbara, A Telfer… - Science, 2018 - hal.science
Photosystems I and II convert solar energy into the chemical energy that powers life.
Chlorophyll a photochemistry, using red light (680 to 700 nm), is near universal and is …
Chlorophyll a photochemistry, using red light (680 to 700 nm), is near universal and is …
Photochemistry beyond the red limit in chlorophyll f–containing photosystems
DJ Nürnberg, A Telfer, LA Antonaru, T Cardona… - Science, 2018 - elibrary.ru
We gratefully acknowledge our friend and colleague Fabrice Rappaport, who died in
January 2016, with whom we worked in the early stages of this project. We thank J. Murray …
January 2016, with whom we worked in the early stages of this project. We thank J. Murray …
Photochemistry beyond the red limit in chlorophyll f-containing photosystems
DJ Nürnberg, J Morton, S Santabarbara, A Telfer… - Science, 2018 - ui.adsabs.harvard.edu
Photosystems I and II convert solar energy into the chemical energy that powers life.
Chlorophyll a photochemistry, using red light (680 to 700 nm), is near universal and is …
Chlorophyll a photochemistry, using red light (680 to 700 nm), is near universal and is …
[PDF][PDF] Photochemistry beyond the red limit in chlorophyll f–containing photosystems
DJ Nürnberg, J Morton, S Santabarbara, A Telfer… - researchgate.net
Photosystems I and II convert solar energy into the chemical energy that powers life.
Chlorophyll a photochemistry, using red light (680 to 700 nm), is near universal and is …
Chlorophyll a photochemistry, using red light (680 to 700 nm), is near universal and is …
Photochemistry beyond the red limit in chlorophyll f–containing photosystems
DJ Nürnberg, J Morton, S Santabarbara, A Telfer… - Science, 2018 - JSTOR
Photosystems I and II convert solar energy into the chemical energy that powers life.
Chlorophyll a photochemistry, using red light (680 to 700 nm), is near universal and is …
Chlorophyll a photochemistry, using red light (680 to 700 nm), is near universal and is …
Photochemistry beyond the red limit in chlorophyll f-containing photosystems.
DJ Nürnberg, J Morton, S Santabarbara… - Science (New York …, 2018 - europepmc.org
Photosystems I and II convert solar energy into the chemical energy that powers life.
Chlorophyll a photochemistry, using red light (680 to 700 nm), is near universal and is …
Chlorophyll a photochemistry, using red light (680 to 700 nm), is near universal and is …
[PDF][PDF] Photochemistry beyond the red limit in chlorophyll f–containing photosystems
DJ Nürnberg, J Morton, S Santabarbara, A Telfer… - ibpc.fr
Photosystems I and II convert solar energy into the chemical energy that powers life.
Chlorophyll a photochemistry, using red light (680 to 700 nm), is near universal and is …
Chlorophyll a photochemistry, using red light (680 to 700 nm), is near universal and is …
Photochemistry beyond the red limit in chlorophyll f–containing photosystems
DJ Nürnberg, J Morton, S Santabarbara, A Telfer… - Science, 2018 - cir.nii.ac.jp
抄録< jats: title> Lower-energy photons do the work, too</jats: title>< jats: p> Plants and
cyanobacteria use chlorophyll-rich photosystem complexes to convert light energy into …
cyanobacteria use chlorophyll-rich photosystem complexes to convert light energy into …