EUREKA! KITCHEN GADGET INSPIRES SCIENTIST TO MAKE MORE EFFECTIVE PLASTIC ELECTRONICS
Eureka! Kitchen tool inspires scientist to make more effective cosmetic electronics
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Public release date: 27-Jan-2012[
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Contact: Carl Bleschcblesch@ur.rutgers.edu732-932-7084 x616Rutgers University
One day in 2010, Rutgers physicist Vitaly Podzorov watched a store worker showcase a kitchen tool that vacuum-seals food in plastic. The demo stranded with him. The elementary judgment ? an indisputable sign around pieces of food ? only might apply to his research: building stretchable wiring regulating lightweight organic semiconductors for products such as video displays or solar cells.
“Organic transistors, which switch or make louder electronic signals, reason guarantee for creation video displays that hook similar to book pages or roll and spread out similar to posters,” pronounced Podzorov. But normal methods of fabricating a part of the transistor well well well well known as the embankment insulator mostly end up deleterious the transistor’s ethereal semiconductor crystals.
Drawing impulse from the food-storage gadget, Podzorov and his colleagues attempted an experiment. They dangling a skinny polymer aspect on top of the organic clear and combined a opening underneath, causing the aspect to fall kindly and uniformly onto the crystal’s surface. The result: a smooth, defect-free interface in in in in between the organic semiconductor and the embankment insulator.
The researchers reported their success in the biography Advanced Materials. In the article, Podzorov and 3 colleagues report how a single-crystal organic margin effect transistor (OFET) made with this skinny polymer embankment insulator increased electrical performance. The researchers serve reported that they could mislay and reapply membranes to the same clear multiform times though spiritless its surface.
Organic transistors electrically resemble silicon transistors in mechanism chips, though they are made of stretchable carbon-based molecules that can be printed on sheets of plastic. Silicon transistors are made in rigid, crisp wafers of silicon.
The methods that scientists formerly practical to organic transistor phony were based on silicon semiconductor processing, explained Podzorov, partner highbrow in the Department of Physics and Astronomy, School of Arts and Sciences. These concerned tall temperatures, high-energy plasmas or containing alkali reactions, all of which could repairs the ethereal organic clear aspect and impede the transistor’s performance.
“People have tendencies to go with something they’ve well well well well known for a long time,” he said. “In this case, it doesn’t work right.”
Podzorov’s creation builds on a decade of Rutgers investigate in this field, together with his invention of the first singular clear organic transistor in 2003. While his ultimate creation is still a ways from blurb reality, he sees an evident focus in the classroom.
“Our technique takes 10 minutes,” he said. “It should be exciting for students to essentially set up these devices and rught away see them work, all inside of one lab session.”
Podzorov was essentially perplexing to compromise an additional problem when he first removed the food wrapping demo. He was meditative about how to strengthen organic crystals from airborne impurities when his lab shipped samples to collaborating scientists in California and overseas.
“We could place our samples in in in in between cosmetic sheets and lift a vacuum,” he said. “Then I thought, ‘why do not we try you do this for our embankment insulator?’”
###
Funding for the investigate was supposing by the U. S. Department of Energy and the Rutgers Institute for Advanced Materials and Devices for Nanotechnology. Collaborators in Podzorov’s lab were postdoctoral researchers Hee Taek Yi and Yuanzhen Chen, and undergraduate tyro Krzysztof Czelen. The department’s appurtenance emporium made a custom-designed opening cover for the project.
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AAAS and EurekAlert! are not obliged for the accuracy of headlines releases posted to EurekAlert! by contributing institutions or for the use of any information through the EurekAlert! system.
Eureka! Kitchen tool inspires scientist to make more effective cosmetic electronics
Public release date: 27-Jan-2012[
| E-mail
| Share
]
Contact: Carl Bleschcblesch@ur.rutgers.edu732-932-7084 x616Rutgers University
One day in 2010, Rutgers physicist Vitaly Podzorov watched a store worker showcase a kitchen tool that vacuum-seals food in plastic. The demo stranded with him. The elementary judgment ? an indisputable sign around pieces of food ? only might apply to his research: building stretchable wiring regulating lightweight organic semiconductors for products such as video displays or solar cells.
“Organic transistors, which switch or make louder electronic signals, reason guarantee for creation video displays that hook similar to book pages or roll and spread out similar to posters,” pronounced Podzorov. But normal methods of fabricating a part of the transistor well well well well known as the embankment insulator mostly end up deleterious the transistor’s ethereal semiconductor crystals.
Drawing impulse from the food-storage gadget, Podzorov and his colleagues attempted an experiment. They dangling a skinny polymer aspect on top of the organic clear and combined a opening underneath, causing the aspect to fall kindly and uniformly onto the crystal’s surface. The result: a smooth, defect-free interface in in in in between the organic semiconductor and the embankment insulator.
The researchers reported their success in the biography Advanced Materials. In the article, Podzorov and 3 colleagues report how a single-crystal organic margin effect transistor (OFET) made with this skinny polymer embankment insulator increased electrical performance. The researchers serve reported that they could mislay and reapply membranes to the same clear multiform times though spiritless its surface.
Organic transistors electrically resemble silicon transistors in mechanism chips, though they are made of stretchable carbon-based molecules that can be printed on sheets of plastic. Silicon transistors are made in rigid, crisp wafers of silicon.
The methods that scientists formerly practical to organic transistor phony were based on silicon semiconductor processing, explained Podzorov, partner highbrow in the Department of Physics and Astronomy, School of Arts and Sciences. These concerned tall temperatures, high-energy plasmas or containing alkali reactions, all of which could repairs the ethereal organic clear aspect and impede the transistor’s performance.
“People have tendencies to go with something they’ve well well well well known for a long time,” he said. “In this case, it doesn’t work right.”
Podzorov’s creation builds on a decade of Rutgers investigate in this field, together with his invention of the first singular clear organic transistor in 2003. While his ultimate creation is still a ways from blurb reality, he sees an evident focus in the classroom.
“Our technique takes 10 minutes,” he said. “It should be exciting for students to essentially set up these devices and rught away see them work, all inside of one lab session.”
Podzorov was essentially perplexing to compromise an additional problem when he first removed the food wrapping demo. He was meditative about how to strengthen organic crystals from airborne impurities when his lab shipped samples to collaborating scientists in California and overseas.
“We could place our samples in in in in between cosmetic sheets and lift a vacuum,” he said. “Then I thought, ‘why do not we try you do this for our embankment insulator?’”
###
Funding for the investigate was supposing by the U. S. Department of Energy and the Rutgers Institute for Advanced Materials and Devices for Nanotechnology. Collaborators in Podzorov’s lab were postdoctoral researchers Hee Taek Yi and Yuanzhen Chen, and undergraduate tyro Krzysztof Czelen. The department’s appurtenance emporium made a custom-designed opening cover for the project.
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AAAS and EurekAlert! are not obliged for the accuracy of headlines releases posted to EurekAlert! by contributing institutions or for the use of any information through the EurekAlert! system.
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Eureka! Kitchen tool inspires scientist to make more effective cosmetic electronics
Public release date: 27-Jan-2012[
| Share
]
Contact: Carl Bleschcblesch@ur.rutgers.edu732-932-7084 x616Rutgers University
One day in 2010, Rutgers physicist Vitaly Podzorov watched a store worker showcase a kitchen tool that vacuum-seals food in plastic. The demo stranded with him. The elementary judgment ? an indisputable sign around pieces of food ? only might apply to his research: building stretchable wiring regulating lightweight organic semiconductors for products such as video displays or solar cells.
“Organic transistors, which switch or make louder electronic signals, reason guarantee for creation video displays that hook similar to book pages or roll and spread out similar to posters,” pronounced Podzorov. But normal methods of fabricating a part of the transistor well well well well known as the embankment insulator mostly end up deleterious the transistor’s ethereal semiconductor crystals.
Drawing impulse from the food-storage gadget, Podzorov and his colleagues attempted an experiment. They dangling a skinny polymer aspect on top of the organic clear and combined a opening underneath, causing the aspect to fall kindly and uniformly onto the crystal’s surface. The result: a smooth, defect-free interface in in in in between the organic semiconductor and the embankment insulator.
The researchers reported their success in the biography Advanced Materials. In the article, Podzorov and 3 colleagues report how a single-crystal organic margin effect transistor (OFET) made with this skinny polymer embankment insulator increased electrical performance. The researchers serve reported that they could mislay and reapply membranes to the same clear multiform times though spiritless its surface.
Organic transistors electrically resemble silicon transistors in mechanism chips, though they are made of stretchable carbon-based molecules that can be printed on sheets of plastic. Silicon transistors are made in rigid, crisp wafers of silicon.
The methods that scientists formerly practical to organic transistor phony were based on silicon semiconductor processing, explained Podzorov, partner highbrow in the Department of Physics and Astronomy, School of Arts and Sciences. These concerned tall temperatures, high-energy plasmas or containing alkali reactions, all of which could repairs the ethereal organic clear aspect and impede the transistor’s performance.
“People have tendencies to go with something they’ve well well well well known for a long time,” he said. “In this case, it doesn’t work right.”
Podzorov’s creation builds on a decade of Rutgers investigate in this field, together with his invention of the first singular clear organic transistor in 2003. While his ultimate creation is still a ways from blurb reality, he sees an evident focus in the classroom.
“Our technique takes 10 minutes,” he said. “It should be exciting for students to essentially set up these devices and rught away see them work, all inside of one lab session.”
Podzorov was essentially perplexing to compromise an additional problem when he first removed the food wrapping demo. He was meditative about how to strengthen organic crystals from airborne impurities when his lab shipped samples to collaborating scientists in California and overseas.
“We could place our samples in in in in between cosmetic sheets and lift a vacuum,” he said. “Then I thought, ‘why do not we try you do this for our embankment insulator?’”
###
Funding for the investigate was supposing by the U. S. Department of Energy and the Rutgers Institute for Advanced Materials and Devices for Nanotechnology. Collaborators in Podzorov’s lab were postdoctoral researchers Hee Taek Yi and Yuanzhen Chen, and undergraduate tyro Krzysztof Czelen. The department’s appurtenance emporium made a custom-designed opening cover for the project.
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| Share
]
AAAS and EurekAlert! are not obliged for the accuracy of headlines releases posted to EurekAlert! by contributing institutions or for the use of any information through the EurekAlert! system.
Eureka! Kitchen tool inspires scientist to make more effective cosmetic electronics
Public release date: 27-Jan-2012[
| Share
]
Contact: Carl Bleschcblesch@ur.rutgers.edu732-932-7084 x616Rutgers University
One day in 2010, Rutgers physicist Vitaly Podzorov watched a store worker showcase a kitchen tool that vacuum-seals food in plastic. The demo stranded with him. The elementary judgment ? an indisputable sign around pieces of food ? only might apply to his research: building stretchable wiring regulating lightweight organic semiconductors for products such as video displays or solar cells.
“Organic transistors, which switch or make louder electronic signals, reason guarantee for creation video displays that hook similar to book pages or roll and spread out similar to posters,” pronounced Podzorov. But normal methods of fabricating a part of the transistor well well well well known as the embankment insulator mostly end up deleterious the transistor’s ethereal semiconductor crystals.
Drawing impulse from the food-storage gadget, Podzorov and his colleagues attempted an experiment. They dangling a skinny polymer aspect on top of the organic clear and combined a opening underneath, causing the aspect to fall kindly and uniformly onto the crystal’s surface. The result: a smooth, defect-free interface in in in in between the organic semiconductor and the embankment insulator.
The researchers reported their success in the biography Advanced Materials. In the article, Podzorov and 3 colleagues report how a single-crystal organic margin effect transistor (OFET) made with this skinny polymer embankment insulator increased electrical performance. The researchers serve reported that they could mislay and reapply membranes to the same clear multiform times though spiritless its surface.
Organic transistors electrically resemble silicon transistors in mechanism chips, though they are made of stretchable carbon-based molecules that can be printed on sheets of plastic. Silicon transistors are made in rigid, crisp wafers of silicon.
The methods that scientists formerly practical to organic transistor phony were based on silicon semiconductor processing, explained Podzorov, partner highbrow in the Department of Physics and Astronomy, School of Arts and Sciences. These concerned tall temperatures, high-energy plasmas or containing alkali reactions, all of which could repairs the ethereal organic clear aspect and impede the transistor’s performance.
“People have tendencies to go with something they’ve well well well well known for a long time,” he said. “In this case, it doesn’t work right.”
Podzorov’s creation builds on a decade of Rutgers investigate in this field, together with his invention of the first singular clear organic transistor in 2003. While his ultimate creation is still a ways from blurb reality, he sees an evident focus in the classroom.
“Our technique takes 10 minutes,” he said. “It should be exciting for students to essentially set up these devices and rught away see them work, all inside of one lab session.”
Podzorov was essentially perplexing to compromise an additional problem when he first removed the food wrapping demo. He was meditative about how to strengthen organic crystals from airborne impurities when his lab shipped samples to collaborating scientists in California and overseas.
“We could place our samples in in in in between cosmetic sheets and lift a vacuum,” he said. “Then I thought, ‘why do not we try you do this for our embankment insulator?’”
###
Funding for the investigate was supposing by the U. S. Department of Energy and the Rutgers Institute for Advanced Materials and Devices for Nanotechnology. Collaborators in Podzorov’s lab were postdoctoral researchers Hee Taek Yi and Yuanzhen Chen, and undergraduate tyro Krzysztof Czelen. The department’s appurtenance emporium made a custom-designed opening cover for the project.
[
| Share
]
AAAS and EurekAlert! are not obliged for the accuracy of headlines releases posted to EurekAlert! by contributing institutions or for the use of any information through the EurekAlert! system.
gadget – Yahoo! News Search Results