4. ,
:
04 / 05 /1953
: University of Science Economic of RENNES ( France )
1977 – 1980
1980 – 1988
( Pepsi and Cocacola )
1989
Universe Garment in Lao
K & C Group
Auto Lao
Mercerdes Benz Dealer )
:
1997-2013
(
4
5. Executive Board of National Olympic Lao
Lao National Fron of Edification
-
Chairman
Advisor of the National Foundation for Promoting Education
13. The Last Award In 2013
Great time for CEO nBeerlao company for the Best Entreprise, on Europe
Business Assembly (EBA) at Le PalaisMontreux( Switzerland), 1st Sept
2013.
Read more: http://www.grcblog.com/fullview.php?blog_id=106 : http://physorg.com/news110727530.html Discovery of selective vapor response with nanostructures of butterfly wing scales... a recent breakthrough in GE's Chemical and Biological Sensing Laboratory that was reported in a cover-story article in February issue of Nature PhotonicsTropical Morpho butterflies are famous for their brilliant iridescent colors, which arise from ordered arrays of scales on their wings. In our paper, my team shows that the iridescent scales of the Morphosulkowskyi butterfly give a different optical response to different individual vapors, and that this optical response dramatically outperforms that of existing nano-engineered photonic sensors. Read more: http://www.grcblog.com/fullview.php?blog_id=106http://www.greenlodgingnews.com/content.aspx?id=1442 http://economist.com/search/displaystory.cfm?story_id=9719013
Read more: http://www.grcblog.com/fullview.php?blog_id=106 : http://physorg.com/news110727530.html Discovery of selective vapor response with nanostructures of butterfly wing scales... a recent breakthrough in GE's Chemical and Biological Sensing Laboratory that was reported in a cover-story article in February issue of Nature PhotonicsTropical Morpho butterflies are famous for their brilliant iridescent colors, which arise from ordered arrays of scales on their wings. In our paper, my team shows that the iridescent scales of the Morphosulkowskyi butterfly give a different optical response to different individual vapors, and that this optical response dramatically outperforms that of existing nano-engineered photonic sensors. Read more: http://www.grcblog.com/fullview.php?blog_id=106http://www.greenlodgingnews.com/content.aspx?id=1442 http://economist.com/search/displaystory.cfm?story_id=9719013
Read more: http://www.grcblog.com/fullview.php?blog_id=106 : http://physorg.com/news110727530.html Discovery of selective vapor response with nanostructures of butterfly wing scales... a recent breakthrough in GE's Chemical and Biological Sensing Laboratory that was reported in a cover-story article in February issue of Nature PhotonicsTropical Morpho butterflies are famous for their brilliant iridescent colors, which arise from ordered arrays of scales on their wings. In our paper, my team shows that the iridescent scales of the Morphosulkowskyi butterfly give a different optical response to different individual vapors, and that this optical response dramatically outperforms that of existing nano-engineered photonic sensors. Read more: http://www.grcblog.com/fullview.php?blog_id=106http://www.greenlodgingnews.com/content.aspx?id=1442 http://economist.com/search/displaystory.cfm?story_id=9719013
Read more: http://www.grcblog.com/fullview.php?blog_id=106 : http://physorg.com/news110727530.html Discovery of selective vapor response with nanostructures of butterfly wing scales... a recent breakthrough in GE's Chemical and Biological Sensing Laboratory that was reported in a cover-story article in February issue of Nature PhotonicsTropical Morpho butterflies are famous for their brilliant iridescent colors, which arise from ordered arrays of scales on their wings. In our paper, my team shows that the iridescent scales of the Morphosulkowskyi butterfly give a different optical response to different individual vapors, and that this optical response dramatically outperforms that of existing nano-engineered photonic sensors. Read more: http://www.grcblog.com/fullview.php?blog_id=106http://www.greenlodgingnews.com/content.aspx?id=1442 http://economist.com/search/displaystory.cfm?story_id=9719013
Read more: http://www.grcblog.com/fullview.php?blog_id=106 : http://physorg.com/news110727530.html Discovery of selective vapor response with nanostructures of butterfly wing scales... a recent breakthrough in GE's Chemical and Biological Sensing Laboratory that was reported in a cover-story article in February issue of Nature PhotonicsTropical Morpho butterflies are famous for their brilliant iridescent colors, which arise from ordered arrays of scales on their wings. In our paper, my team shows that the iridescent scales of the Morphosulkowskyi butterfly give a different optical response to different individual vapors, and that this optical response dramatically outperforms that of existing nano-engineered photonic sensors. Read more: http://www.grcblog.com/fullview.php?blog_id=106http://www.greenlodgingnews.com/content.aspx?id=1442 http://economist.com/search/displaystory.cfm?story_id=9719013
Read more: http://www.grcblog.com/fullview.php?blog_id=106 : http://physorg.com/news110727530.html Discovery of selective vapor response with nanostructures of butterfly wing scales... a recent breakthrough in GE's Chemical and Biological Sensing Laboratory that was reported in a cover-story article in February issue of Nature PhotonicsTropical Morpho butterflies are famous for their brilliant iridescent colors, which arise from ordered arrays of scales on their wings. In our paper, my team shows that the iridescent scales of the Morphosulkowskyi butterfly give a different optical response to different individual vapors, and that this optical response dramatically outperforms that of existing nano-engineered photonic sensors. Read more: http://www.grcblog.com/fullview.php?blog_id=106http://www.greenlodgingnews.com/content.aspx?id=1442 http://economist.com/search/displaystory.cfm?story_id=9719013
Read more: http://www.grcblog.com/fullview.php?blog_id=106 : http://physorg.com/news110727530.html Discovery of selective vapor response with nanostructures of butterfly wing scales... a recent breakthrough in GE's Chemical and Biological Sensing Laboratory that was reported in a cover-story article in February issue of Nature PhotonicsTropical Morpho butterflies are famous for their brilliant iridescent colors, which arise from ordered arrays of scales on their wings. In our paper, my team shows that the iridescent scales of the Morphosulkowskyi butterfly give a different optical response to different individual vapors, and that this optical response dramatically outperforms that of existing nano-engineered photonic sensors. Read more: http://www.grcblog.com/fullview.php?blog_id=106http://www.greenlodgingnews.com/content.aspx?id=1442 http://economist.com/search/displaystory.cfm?story_id=9719013
Although the biomimetic epoxy is still in the development stage, researchers project that it will prove useful to the Navy, the private marine industry, the construction industry, and medical and dental fields. Product Overview: Mollusk inspired underwater glue Organism Inspired by: Blue Mussel Lead Researcher: Frank (Fransisco) Roberts Lab/University: Idaho National Engineering and Environmental LaboratoryAvailability: Under Development
Read more: http://www.grcblog.com/fullview.php?blog_id=106 : http://physorg.com/news110727530.html Discovery of selective vapor response with nanostructures of butterfly wing scales... a recent breakthrough in GE's Chemical and Biological Sensing Laboratory that was reported in a cover-story article in February issue of Nature PhotonicsTropical Morpho butterflies are famous for their brilliant iridescent colors, which arise from ordered arrays of scales on their wings. In our paper, my team shows that the iridescent scales of the Morphosulkowskyi butterfly give a different optical response to different individual vapors, and that this optical response dramatically outperforms that of existing nano-engineered photonic sensors. Read more: http://www.grcblog.com/fullview.php?blog_id=106http://www.greenlodgingnews.com/content.aspx?id=1442 http://economist.com/search/displaystory.cfm?story_id=9719013
Read more: http://www.grcblog.com/fullview.php?blog_id=106 : http://physorg.com/news110727530.html Discovery of selective vapor response with nanostructures of butterfly wing scales... a recent breakthrough in GE's Chemical and Biological Sensing Laboratory that was reported in a cover-story article in February issue of Nature PhotonicsTropical Morpho butterflies are famous for their brilliant iridescent colors, which arise from ordered arrays of scales on their wings. In our paper, my team shows that the iridescent scales of the Morphosulkowskyi butterfly give a different optical response to different individual vapors, and that this optical response dramatically outperforms that of existing nano-engineered photonic sensors. Read more: http://www.grcblog.com/fullview.php?blog_id=106http://www.greenlodgingnews.com/content.aspx?id=1442 http://economist.com/search/displaystory.cfm?story_id=9719013