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  • From: Lawrence London <lfljvenaura@gmail.com>
  • To: permaculture <permaculture@lists.ibiblio.org>
  • Subject: [permaculture] Technology could bring high-end solar to the masses
  • Date: Wed, 31 Jul 2013 23:17:51 -0400

Technology could bring high-end solar to the masses
Jul 25, 2013 by Sarah Yang
Engineers at the University of California, Berkeley, have developed an
inexpensive new way to grow thin films of a material prized in the
semiconductor and photovoltaic industries, an achievement that could bring
high-end solar cells within reach of consumer pocketbooks
Read more at:
http://phys.org/news/2013-07-technology-high-end-solar-masses.html#jCp
http://phys.org/news/2013-07-technology-high-end-solar-masses.html#inlRlv

Technology could bring high-end solar to the masses
http://phys.org/news/2013-07-technology-high-end-solar-masses.html#inlRlv
More information: www.pnas.org/content/110/29/11688.short
Journal reference: Proceedings of the National Academy of Sciences
http://phys.org/journals/proceedings-of-the-national-academy-of-scien<http://phys.org/journals/proceedings-of-the-national-academy-of-sciences/>
ces/<http://phys.org/journals/proceedings-of-the-national-academy-of-sciences/>

Researchers discover universal law for light absorption in 2D semiconductors
>From solar cells to optoelectronic sensors to lasers and imaging devices,
many of today's semiconductor technologies hinge upon the absorption of
light. Absorption is especially critical for nano-sized structures at the
interface between two energy barriers called quantum wells, in which the
movement of charge carriers is confined to two-dimensions. Now, for the
first time, a simple law of light absorption for 2D semiconductors has been
demonstrated.

Read more at:
http://phys.org/news/2013-07-universal-law-absorption-2d-semiconductors.html#jCp

>From solar cells to optoelectronic sensors to lasers and imaging devices,
many of today's semiconductor technologies hinge upon the absorption of
light. Absorption is especially critical for nano-sized structures at the
interface between two energy barriers called quantum wells, in which the
movement of charge carriers is confined to two-dimensions. Now, for the
first time, a simple law of light absorption for 2D semiconductors has been
demonstrated.

Read more at:
http://phys.org/news/2013-07-universal-law-absorption-2d-semiconductors.html#jCp
>From solar cells to optoelectronic sensors to lasers and imaging devices,
many of today's semiconductor technologies hinge upon the absorption of
light. Absorption is especially critical for nano-sized structures at the
interface between two energy barriers called quantum wells, in which the
movement of charge carriers is confined to two-dimensions. Now, for the
first time, a simple law of light absorption for 2D semiconductors has been
demonstrated.

Read more at:
http://phys.org/news/2013-07-universal-law-absorption-2d-semiconductors.html#jCp

>From solar cells to optoelectronic sensors to lasers and imaging devices,
many of today's semiconductor technologies hinge upon the absorption of
light. Absorption is especially critical for nano-sized structures at the
interface between two energy barriers called quantum wells, in which the
movement of charge carriers is confined to two-dimensions. Now, for the
first time, a simple law of light absorption for 2D semiconductors has been
demonstrated.

Read more at:
http://phys.org/news/2013-07-universal-law-absorption-2d-semiconductors.html#jCp

>From solar cells to optoelectronic sensors to lasers and imaging devices,
many of today's semiconductor technologies hinge upon the absorption of
light. Absorption is especially critical for nano-sized structures at the
interface between two energy barriers called quantum wells, in which the
movement of charge carriers is confined to two-dimensions. Now, for the
first time, a simple law of light absorption for 2D semiconductors has been
demonstrated.

Read more at:
http://phys.org/news/2013-07-universal-law-absorption-2d-semiconductors.html#jCp
>From solar cells to optoelectronic sensors to lasers and imaging devices,
many of today's semiconductor technologies hinge upon the absorption of
light. Absorption is especially critical for nano-sized structures at the
interface between two energy barriers called quantum wells, in which the
movement of charge carriers is confined to two-dimensions. Now, for the
first time, a simple law of light absorption for 2D semiconductors has been
demonstrated.

Read more at:
http://phys.org/news/2013-07-universal-law-absorption-2d-semiconductors.html#jCp
>From solar cells to optoelectronic sensors to lasers and imaging devices,
many of today's semiconductor technologies hinge upon the absorption of
light. Absorption is especially critical for nano-sized structures at the
interface between two energy barriers called quantum wells, in which the
movement of charge carriers is confined to two-dimensions. Now, for the
first time, a simple law of light absorption for 2D semiconductors has been
demonstrated.

Read more at:
http://phys.org/news/2013-07-universal-law-absorption-2d-semiconductors.html#jCp



  • [permaculture] Technology could bring high-end solar to the masses, Lawrence London, 07/31/2013

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