panel’s working life. Solar modules—which are linked together to form a solar
panel—for instance, are solid state and encased in glass or other
protective material to keep them dry. The problem, as the Silicon Valley Toxics Coalition<\/a> pointed out in
a 2009 report<\/a>,
comes at the beginning and end of a panel’s life. Toxins potentially can be
released during the manufacturing process—putting workers at risk—and when
panels finally hit the scrap heap decades later.<\/p>\n
<\/p>\n
“The solar PV industry has the potential to provide enormous
environmental benefits,” according to the Silicon Valley Toxics report, “but
the toxic materials contained in solar panels will present a serious danger to
public health and the environment if they are not disposed of properly when
they reach the end of their useful lives.”<\/p>\n
<\/p>\n
The report compared the nascent but fast-growing solar
industry to the electronics industry of past decades, which left a legacy of
toxic pollution in the 1970s and ‘80s. Unlike the early electronics industry—which in Silicon Valley was literally built on plumes of contaminated
groundwater—solar companies are taking a more responsible approach, as any
green business must.<\/p>\n
<\/p>\n
Companies such as thin-film module maker First Solar have <\/p>\n Then there are companies like BioSolar<\/a> that aim to take the toxics out of solar by substituting environmentally <\/p>\n “The solar industry will have some of the same problems the <\/p>\n That, of course, is easier said than done.<\/p>\n <\/p>\n Most bioplastics are used to make disposable things—cups, <\/p>\n BioSolar’s solution was to develop a proprietary process <\/p>\n The company’s first product is Bio Backsheet, a replacement <\/p>\n “Existing backsheets are extremely hard to recycle,” says <\/p>\n According to Lee, BioSolar’s Bio Backsheet can be safely <\/p>\n So far, BioSolar has only manufactured limited quantities of <\/p>\n BioSolar is also developing bioplastics that can be used to <\/p>\n [A customary word of caution about startups: It’s impossible <\/p>\n While BioSolar talks about greening the solar industry, the <\/p>\n Lee is aiming to produce bioplastic solar cell components at Related Links:<\/strong><\/p>\n Ask Umbra on water bottles, gas dryers, and tea lights<\/a><\/p>\n Broken promises follow Tennessee coal ash disaster<\/a><\/p>\n Ask Umbra on Christmas trees, broken lights, and naughty birds<\/a><\/p>\n
implemented take-back and recycling programs from the get-go. In labs at the University of Washington and elsewhere
and at startups such as German’s Heliatek<\/a>, researchers are
working on developing so-called organic solar cells that generate electricity—albeit very inefficiently so far—without using toxic chemicals.<\/p>\n
friendly materials. The company, based in the Southern California city of Santa
Clarita, is developing a plastic made from plant material—called bioplastic—that can be used as components in solar modules.<\/p>\n
electronics industry had unless we plan now,” says David Lee, BioSolar’s chief
executive. “The solar industry involves a lot of toxic chemicals and we have to
look at the lifecycle of these materials, from mining to manufacturing.”<\/p>\n
plates, and trash bags—and are designed to be biodegradable. A bioplastic used
in a solar cell is built to last for the typical 25-year life of the cell. It
must be able to withstand the high temperatures generated by photovolatic
modules and be water tight to keep moisture at bay.<\/p>\n
that strengthens petroleum- and toxin-free bioplastics so they can withstand
temperature and moisture yet still be recycled or biodegrade in a landfill.<\/p>\n
for the the material that forms the protective back of a solar cell. Standard
so-called backsheets are usually made of polyvinyl fluoride, a chemical
compound that can contain lead, chromium, cadmium, selenium, arsenic, and
antimony.<\/p>\n
Lee, who holds a Ph.D. in electrical engineering. “The only way to get rid of
them is by burying them in the ground.”<\/p>\n
recycled at the end of a solar module’s life or disposed of in a landfill. It
will degrade—eventually I’ll have to check but I suspect I’ll just get a
vague estimate—but without causing environmental contamination.<\/p>\n
the Bio Backsheet, mainly so that solar module makers can test the product. Lee
says BioSolar is working with several solar companies who are testing the
product, which he declined to identify.<\/p>\n
replace chemical-based substrates that form solar cells.<\/p>\n
at this stage to verify BioSolar’s claims or whether its products will live up
to their billing. Founded in 2006, BioSolar was initially funded by family and
funds before going public in 2007. It trades in the over-the-counter market and
has accumulated losses of $2.6 million since its inception, according to
financial filings.]<\/p>\n
company’s pitch to photovoltaic module makers is just as much about saving
money as the world. “We all know that everyone loves green products,” says Lee,
“but unless the cost is less, manufacturers don’t pay much attention.”<\/p>\n
half the cost of their chemical-based counterparts. If he succeeds, solar power
may finally start to live up to its clean, green billing.<\/p>\n
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