Wednesday, November 26, 2008

IBM Reveals Five Innovations That Will Change Our Lives in the Next Five Years: Solar technology will be built into asphalt, paint and windows

From the press release:

ARMONK, NY - 25 Nov 2008: Unveiled today, the third annual "IBM Next Five in Five" is a list of innovations that have the potential to change the way people work, live and play over the next five years:

  • Energy saving solar technology will be built into asphalt, paint and windows
  • You will have a crystal ball for your health
  • You will talk to the Web . . . and the Web will talk back
  • You will have your own digital shopping assistants
  • Forgetting will become a distant memory
The Next Five in Five is based on market and societal trends expected to transform our lives, as well as emerging technologies from IBM’s Labs around the world that can make these innovations possible.



In the next five years, technology innovations will change our lives in the following ways:

Energy saving solar technology will be built into asphalt, paint and windows
Ever wonder how much energy could be created by having solar technology embedded in our sidewalks, driveways, siding, paint, rooftops, and windows? In the next five years, solar energy will be an affordable option for you and your neighbors. Until now, the materials and the process of producing solar cells to convert into solar energy have been too costly for widespread adoption. But now this is changing with the creation of “thin-film” solar cells, a new type of cost-efficient solar cell that can be 100 times thinner than silicon-wafer cells and produced at a lower cost. These new thin-film solar cells can be “printed” and arranged on a flexible backing, suitable for not only the tops, but also the sides of buildings, tinted windows, cell phones, notebook computers, cars, and even clothing.

You will have a crystal ball for your health
...

HT: Next Big Future who also link to
Georgia Institute of Technology has developed a new structural material based on leftovers (fly ash, bottom ash) from coal burning. Known as Cenocell, the material offers attributes that include high strength and light weight – without the use of cement, an essential ingredient of conventional concrete....