Credit: University of Queensland In its billions of years on earth, plant life has become super-efficient at using light – and now it’s showing how it does it. A quantum – minuscule – examination of chlorophyll within certain purple bacteria shows an exceptionally efficient geometric arrangement for light harvesting, say scientists from The University of Queensland and Iran’s Institute for Research in Fundamental Sciences.
UQ’s Dr Ivan Kassal, also a researcher at the ARC Centre of Excellence for Engineered Quantum Systems, said the bacteria used ”quantum coherence” – particles’ wave-like properties – to harvest light during photosynthesis.
”Inside, the bacteria’s chlorophyll molecules – which collect energy from light – are arranged in symmetrical rings,” Dr Kassal said.
”This geometric organisation is exceptionally good for light harvesting.
”By Understanding how the purple bacteria harvest light, we may be able to use these lessons to improve how we do artificial light harvesting.”
Dr Kassal said previous research had proposed the theory that quantum coherence played a role in how the purple bacteria harvested light.
”We found that the geometry adopted by the purple bacteria allows for quantum coherence,” he said.
”There has been debate in the field about whether coherent effects are possible in photosynthetic systems at all.”
”The research was significant also because it provided evidence of quantum effects in a biological setting,” Dr Kassal said.
”We know now that quantum effects cannot be neglected in studies on biological light harvesting,” he said.
”This is a fertile ground for developing new technologies for simulating quantum systems in noisy environments.”
”The study also opens avenues for research into whether quantum coherence already occurs in organic solar cells, and whether humans can deliberately engineer that coherence to make them more efficient.”
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More information: Sima Baghbanzadeh et al. Geometry, Supertransfer, and Optimality in the Light Harvesting of Purple Bacteria, The Journal of Physical Chemistry Letters (2016). DOI: 10.1021/acs.jpclett.6b01779
Journal reference:Journal of Physical Chemistry Letters
Provided by:University of Queensland