WASHINGTON,
D.C. – To help achieve the Bush Administration's
goal of increased use of solar and other renewable
forms of energy, the Department of Energy's (DOE)
Office of Science has released a report describing
the basic research needed to produce "revolutionary
progress in bringing solar energy to its full potential
in the energy marketplace." The report resulted from
a workshop of 200 scientists held earlier this year.
"The tax credits contained in the historic energy
bill signed by President Bush will greatly help expand
the use of renewable energy," said Dr. Raymond L.
Orbach, Director of DOE's Office of Science. "This
research will help improve a critical component of
renewable energy, solar technology, in the future.
Increasing the use of renewable energy is a clear
way to help meet our growing energy needs using environmentally-friendly
power sources."
"This report demonstrates the important contribution
the entire scientific community can make to the development
of new sustainable energy resources," Orbach said. "Science
and basic research can and must play a key role in
addressing the energy security needs of our nation."
Every hour more energy from sunlight strikes the
Earth than is consumed on the planet in a year. Yet
today, solar electricity provides only approximately
one thousandth of the total electricity supply. The
report notes that a "huge gap between our present
use of solar energy and its enormous undeveloped
potential defines a grand challenge in energy research" and
that "sunlight is a compelling solution to our need
for clean, abundant sources of energy in the future."
The report notes that progress in the proposed research
could lead to: artificial "molecular machines" that
turn sunlight into chemical fuel; "smart materials" based
on nature's ability to transfer captured solar energy
with no energy loss; self-repairing solar conversion
systems; devices that absorb all the colors in the
solar spectrum for energy conversion, not just a
fraction; far more efficient solar cells created
using nanotechnologies; and new materials for high-capacity,
slow-release thermal storage.
The report further notes that revolutionary breakthroughs
come only from basic research and that, "We must
understand the fundamental principles of solar energy
conversion and develop new materials that exploit
them."
Solar energy conversion systems fall into three
categories: solar electricity, solar fuels and solar
thermal systems. Workshop participants considered
the potential of all three approaches. They identified
13 priority research directions with the "potential
to produce revolutionary, not evolutionary, breakthroughs
in materials and processes for solar energy utilization." Cross-cutting
research directions include: coaxing cheap materials
to perform as well as expensive materials; developing
new solar cell designs that surpass traditional efficiency
limits; finding catalysts that enable inexpensive,
efficient conversion of solar energy into chemical
fuels; and developing materials for solar energy
conversion infrastructure, such as transparent conductors
and robust, inexpensive thermal management materials. The Office of Basic Energy Sciences in DOE's Office
of Science organized the 2005 workshop on solar energy
research needs. Two hundred scientists from the U.S.,
Europe and Asia examined the challenges to developing
solar energy as a competitive energy source and identified
the basic research directions that show promise to
overcome these challenges. The workshop was the second
in a series following the 2002 Basic Energy Sciences
Advisory Committee study "Basic Research Needs to
Assure a Secure Energy Future." The first workshop
examined basic research needs for the hydrogen economy.
The Basic Research Needs for Solar Energy Utilization
report can be viewed and downloaded at: www.sc.doe.gov/bes/reports/files/SEU_rpt.pdf Hard
copies of the report are available upon request from
the Office of Basic Energy Sciences at www.sc.doe.gov/bes .
Contact: Jeff Sherwood
jeff.sherwood@hq.doe.gov
202-586-4826
DOE/US Department of Energy
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