Wednesday, May 16, 2007

photosynthesis research could lead way to better solar panels

Neat stuff!
New view of photosynthesis could help develop better solar cells
(Nanowerk News) During the remarkable cascade of events in photosynthesis, plants approach the pinnacle of stinginess by scavenging nearly every photon of available light energy to produce food.Yet after many years of careful research into the exact mechanisms, some key questions remain about this fundamental biological process that supports almost all life on Earth.
Now a research team led by Neal Woodbury, a scientist at the Arizona State University (ASU) Biodesign Institute, has come up with a new insight into the mechanism of photosynthesis.
Biologists have discovered that a split-second, highly orchestrated process drives photosynthesis
Biologists have discovered that a split-second, highly orchestrated process drives photosynthesis. (Image: ASU)
The discovery involves the orchestrated movement of proteins on the timescale of a millionth of a millionth of a second.
"This pioneering research gives us new insights into the basic mechanism of photosynthesis," said Kamal Shukla, program director in the National Science Foundation (NSF) Division of Molecular and Cellular Biosciences. "Understanding such basic biological processes can lead to important societal benefits."
For example, the answer may be good news for the development of organic solar cells, said Shukla, which have been of commercial interest because of their relatively low cost compared to traditional silicon solar cells.
Traditional solar cells use semi-conductor devices (silicon chemistry) to convert solar energy into electricity, whereas organic solar cells are based on biological systems that use the same chemistry as living organisms to harvest the energy of sunlight to drive photosynthesis.
So, inspiration for the design of organic solar cells would be based upon the principle of photosynthesis.
Woodbury's research is focused on understanding the basic principles of photosynthesis and it could be valuable in the design of organic solar cells. The efficiency of energy conversion by photosynthesis is much higher than traditional solar devices.
To get a closer look at what happens during photosynthesis, the research team used a well-studied purple photosynthetic bacterium named Rhodobacter sphaeroides. This organism is likely one of the earliest photosynthetic bacteria to evolve.
The researchers focused their efforts on studying the center stage of photosynthesis, the reaction center, where light energy is funneled into specialized chlorophyll-binding proteins.
Woodbury and his colleagues tried to uncover more of the physical mechanism driving photosynthesis by creating mutants that would tweak the electron transfer relationships between molecules in the reaction center.
The researchers started to inch closer to an answer when Haiyu Wang, a postdoctoral research associate in Woodbury's lab, noticed something in common with all of the different mutants: a similarity in how fast electrons moved in the reaction center. He decided that there must be some sort of underlying physical principle involved.
Few research groups are equipped to measure the early events in photosynthesis because of the extremely short timescale--similar to the amount of time it takes a supercomputer to carry out a single flop.
Wang used ASU's ultrafast laser facility, funded by NSF, which acts like a high-speed motion picture camera that can capture data from these lightning-fast reactions.
The movement of the reaction center proteins during photosynthesis allows a plant or bacteria to harness light energy efficiently, even if conditions aren't optimal.
The findings are described in the journal Science, and were funded by NSF.
The research team includes lead author Haiyu Wang, ASU Biodesign Institute; Su Lin, ASU Biodesign Institute; James Allen, ASU Department of Chemistry and Biochemistry; JoAnn Williams, ASU Department of Chemistry and Biochemistry; Sean Blankert and Christa Laser, ASU Biodesign Institute.
Source: National Science Foundation

7 comments:

Unknown said...

This may be important work for solar panels, but it is "opening act", not "center stage" as far as photosynthesis research is concerned. That is, it involves the "photo" (light-dependent) stage, whereas the subsequent chemically-driven "synthesis" stage --- the carbon fixation process --- is what needs to be harnessed to achieve reduction in current atmospheric carbon dioxide levels, a more immediate and pressing problem.
Photosynthesis as practiced by vegetation during the Northern Hemisphere spring and summer is the only known process with demonstrated capability of reducing atmospheric CO2 levels on the necessary time scale --- one ppm per month (see Gore's Inconvenient Truth, pp. 36-37) --- for all CO2 sources, including "industrial".
The research goal, then, ought to be to develop a lab process capable of accomplishing carbon fixation continuously (i.e., 24/7/365) at accelerated rates versus vegetative CO2 sinks and their truly horrendous duty cycles.
Disappointingly, I have not found reference to any such research, while this is the second recent reference to "photo" stage research aimed at solar panels. This new work will be most useful only to the extent that it sparks interest in the needed carbon fixation research.

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