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Paper-thin solar cell can turn any surface into a power source
MIT engineers have developed a scalable fabrication technique to produce ultrathin, lightweight solar cells that can quickly and easily turn any surface into a power source. (Learn more: https://news.mit.edu/2022/ultrathin-solar-cells-1209)
Watch more videos from MIT: http://www.youtube.com/user/MITNewsOffice?sub_confirmation=1
The Massachusetts Institute of Technology is an independent, coeducational, privately endowed university in Cambridge, Massachusetts. Our mission is to advance knowledge; to educate students in science, engineering, technology, humanities and social sciences; and to tackle the most pressing problems facing the world today. We are a community of hands-on problem-solvers in love with fundamental science and eager to make the world a better place.
The MIT YouTube c...
published: 09 Dec 2022
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The Fabrication of Thin Film Solar Cells on the Surface of the Moon
Alex Ignatiev, Hugh Roy and Lillie Cranz Cullen Professor of Physics, Chemistry, and Electrical and Computer Engineering, Director, Center for Advanced Materials, UH
published: 18 Sep 2017
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Hanergy | World-Leading Thin Film Solar
Join the mission to #GoSolar
Subscribe: http://bit.ly/YTHanergy
OR
Visit Hanergy's official website at http://bit.ly/ENHanergy
Like Hanergy on Facebook at http://bit.ly/FBHanergy
Follow Hanergy on Twitter at http://bit.ly/TWHanergy
Follow Hanergy on LinkedIn at http://bit.ly/LIHanergy
Follow Hanergy on Instagram at http://bit.ly/IGHanergy
published: 01 Mar 2019
-
What is a Thin Film PV Device ?
High level explanation of What is a Thin Film PV Device
published: 26 Aug 2020
-
Breakthrough: GE Global Research's Thin Film Solar Panels
Jim LeBlanc at GE Global Research takes you inside the lab to discuss the work we are doing on thin film solar panels. Learn about what makes up the "thin film sandwich" and how we're making solar technology more accessible. Learn more at www.ge.com/research.
published: 27 Oct 2011
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Printed Thin Film Energy for Flexible IoT - Pritesh Hiralal
This poster was presented at the virtual Arm Research Summit, September 9-11, 2020. This year's event explored global technology challenges across sustainability, security, and society, and attracted delegates from around the world for three days of innovative content.
The advent of printed large area electronics has started delivering exciting innovations over the last few years. A key enabler for fully thin devices is printed energy! Over the last 3 years, Zinergy has embarked on a mission to develop simple, low cost, printed energy storage devices which are compatible with other printed electronic devices. Printing is a very versatile technique for batteries. It allows to control not only size and shape of devices, but also via thickness control and ink formulations there is a toolkit ...
published: 13 Oct 2020
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Thin Film PV Reliability
Thin Film PV reliability for solar energy modules
published: 14 Apr 2009
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Susanne Siebentritt: Thin film solar cells – achievements and challenges
Susanne Siebentritt's lecture at the Molecular Frontiers Symposium at Chalmers University of Technology, Sweden, Dec 2017. The topic of the symposium was "Sustainable Energy". Check our YouTube channel for more exciting science videos! For more information, visit www.molecularfrontiers.org
published: 19 Dec 2017
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Nanostructured thin films for energy apps, biomed
Sitaraman Krishnan, assistant professor in the chemical engineering department at Clarkson University, discusses his research on nanostructured thin films for bio/life sciences and energy (solar cells and fuel cells) with ElectroIQ.com.
published: 09 May 2011
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Thin Film Photovoltaics | Research Podcast | Renewable Energy | Amrita School of Nanosciences
In today's world, the largest consumable commodity is energy. Permanent growth of the world's global energy needs requires novel technological solutions that would meet the increasing demand. Photovoltaic conversion is considered as one of the main roads successfully fulfilling the growing global energy demand.
Over the years the use of thin photovoltaic devices is gaining more market and land space all over the world. In Today’s Research Podcast, our PhD scholar from Semiconductor Nanomaterials and Devices Group at Amrita School of Nanosciences and Molecular Medicine, Mr. Kulandai Velu Ramanathan talks about his PhD research work on Flexible Solar Cells.
#ResearchPodcast #Podcast #AmritaSchoolofNanosciencesandMolecularMedicine #ASNSMM #AmritaVishwaVidyapeetham #DrShantikumarVNair #DrNa...
published: 24 May 2023
2:46
Paper-thin solar cell can turn any surface into a power source
MIT engineers have developed a scalable fabrication technique to produce ultrathin, lightweight solar cells that can quickly and easily turn any surface into a ...
MIT engineers have developed a scalable fabrication technique to produce ultrathin, lightweight solar cells that can quickly and easily turn any surface into a power source. (Learn more: https://news.mit.edu/2022/ultrathin-solar-cells-1209)
Watch more videos from MIT: http://www.youtube.com/user/MITNewsOffice?sub_confirmation=1
The Massachusetts Institute of Technology is an independent, coeducational, privately endowed university in Cambridge, Massachusetts. Our mission is to advance knowledge; to educate students in science, engineering, technology, humanities and social sciences; and to tackle the most pressing problems facing the world today. We are a community of hands-on problem-solvers in love with fundamental science and eager to make the world a better place.
The MIT YouTube channel features videos about all types of MIT research, including the robot cheetah, LIGO, gravitational waves, mathematics, and bombardier beetles, as well as videos on origami, time capsules, and other aspects of life and culture on the MIT campus. Our goal is to open the doors of MIT and bring the Institute to the world through video.
https://wn.com/Paper_Thin_Solar_Cell_Can_Turn_Any_Surface_Into_A_Power_Source
MIT engineers have developed a scalable fabrication technique to produce ultrathin, lightweight solar cells that can quickly and easily turn any surface into a power source. (Learn more: https://news.mit.edu/2022/ultrathin-solar-cells-1209)
Watch more videos from MIT: http://www.youtube.com/user/MITNewsOffice?sub_confirmation=1
The Massachusetts Institute of Technology is an independent, coeducational, privately endowed university in Cambridge, Massachusetts. Our mission is to advance knowledge; to educate students in science, engineering, technology, humanities and social sciences; and to tackle the most pressing problems facing the world today. We are a community of hands-on problem-solvers in love with fundamental science and eager to make the world a better place.
The MIT YouTube channel features videos about all types of MIT research, including the robot cheetah, LIGO, gravitational waves, mathematics, and bombardier beetles, as well as videos on origami, time capsules, and other aspects of life and culture on the MIT campus. Our goal is to open the doors of MIT and bring the Institute to the world through video.
- published: 09 Dec 2022
- views: 160512
1:20:34
The Fabrication of Thin Film Solar Cells on the Surface of the Moon
Alex Ignatiev, Hugh Roy and Lillie Cranz Cullen Professor of Physics, Chemistry, and Electrical and Computer Engineering, Director, Center for Advanced Material...
Alex Ignatiev, Hugh Roy and Lillie Cranz Cullen Professor of Physics, Chemistry, and Electrical and Computer Engineering, Director, Center for Advanced Materials, UH
https://wn.com/The_Fabrication_Of_Thin_Film_Solar_Cells_On_The_Surface_Of_The_Moon
Alex Ignatiev, Hugh Roy and Lillie Cranz Cullen Professor of Physics, Chemistry, and Electrical and Computer Engineering, Director, Center for Advanced Materials, UH
- published: 18 Sep 2017
- views: 104
6:27
Hanergy | World-Leading Thin Film Solar
Join the mission to #GoSolar
Subscribe: http://bit.ly/YTHanergy
OR
Visit Hanergy's official website at http://bit.ly/ENHanergy
Like Hanergy on Facebook at http...
Join the mission to #GoSolar
Subscribe: http://bit.ly/YTHanergy
OR
Visit Hanergy's official website at http://bit.ly/ENHanergy
Like Hanergy on Facebook at http://bit.ly/FBHanergy
Follow Hanergy on Twitter at http://bit.ly/TWHanergy
Follow Hanergy on LinkedIn at http://bit.ly/LIHanergy
Follow Hanergy on Instagram at http://bit.ly/IGHanergy
https://wn.com/Hanergy_|_World_Leading_Thin_Film_Solar
Join the mission to #GoSolar
Subscribe: http://bit.ly/YTHanergy
OR
Visit Hanergy's official website at http://bit.ly/ENHanergy
Like Hanergy on Facebook at http://bit.ly/FBHanergy
Follow Hanergy on Twitter at http://bit.ly/TWHanergy
Follow Hanergy on LinkedIn at http://bit.ly/LIHanergy
Follow Hanergy on Instagram at http://bit.ly/IGHanergy
- published: 01 Mar 2019
- views: 3269
2:17
What is a Thin Film PV Device ?
High level explanation of What is a Thin Film PV Device
High level explanation of What is a Thin Film PV Device
https://wn.com/What_Is_A_Thin_Film_Pv_Device
High level explanation of What is a Thin Film PV Device
- published: 26 Aug 2020
- views: 357
2:55
Breakthrough: GE Global Research's Thin Film Solar Panels
Jim LeBlanc at GE Global Research takes you inside the lab to discuss the work we are doing on thin film solar panels. Learn about what makes up the "thin film...
Jim LeBlanc at GE Global Research takes you inside the lab to discuss the work we are doing on thin film solar panels. Learn about what makes up the "thin film sandwich" and how we're making solar technology more accessible. Learn more at www.ge.com/research.
https://wn.com/Breakthrough_Ge_Global_Research's_Thin_Film_Solar_Panels
Jim LeBlanc at GE Global Research takes you inside the lab to discuss the work we are doing on thin film solar panels. Learn about what makes up the "thin film sandwich" and how we're making solar technology more accessible. Learn more at www.ge.com/research.
- published: 27 Oct 2011
- views: 3781
1:36
Printed Thin Film Energy for Flexible IoT - Pritesh Hiralal
This poster was presented at the virtual Arm Research Summit, September 9-11, 2020. This year's event explored global technology challenges across sustainabilit...
This poster was presented at the virtual Arm Research Summit, September 9-11, 2020. This year's event explored global technology challenges across sustainability, security, and society, and attracted delegates from around the world for three days of innovative content.
The advent of printed large area electronics has started delivering exciting innovations over the last few years. A key enabler for fully thin devices is printed energy! Over the last 3 years, Zinergy has embarked on a mission to develop simple, low cost, printed energy storage devices which are compatible with other printed electronic devices. Printing is a very versatile technique for batteries. It allows to control not only size and shape of devices, but also via thickness control and ink formulations there is a toolkit to adapt the battery´s power requirements to a large set of applications, from high energy, low or high current applications to ultra low voltage. Printing batteries allows a degree of freedom in design not possible with traditional batteries.
In this poster presentation, Pritesh discusses examples of some of these adaptations, including printed batteries for IoT applications with long range communication ability, which require high pulse currents, or direct printing onto electronic circuits. Routes for printed batteries adapted for ultra-low voltage electronics with batteries below 1.2V are discussed. This capability has allowed the production of smart labels which can amongst other things track locations of goods or measure other parameters and communicate of ranges of a few km. Results of field trials will be shown as well as a projection of possibilities we expect in the coming years.
To view the full poster in detail, click here: https://bit.ly/2GKInE1
https://wn.com/Printed_Thin_Film_Energy_For_Flexible_Iot_Pritesh_Hiralal
This poster was presented at the virtual Arm Research Summit, September 9-11, 2020. This year's event explored global technology challenges across sustainability, security, and society, and attracted delegates from around the world for three days of innovative content.
The advent of printed large area electronics has started delivering exciting innovations over the last few years. A key enabler for fully thin devices is printed energy! Over the last 3 years, Zinergy has embarked on a mission to develop simple, low cost, printed energy storage devices which are compatible with other printed electronic devices. Printing is a very versatile technique for batteries. It allows to control not only size and shape of devices, but also via thickness control and ink formulations there is a toolkit to adapt the battery´s power requirements to a large set of applications, from high energy, low or high current applications to ultra low voltage. Printing batteries allows a degree of freedom in design not possible with traditional batteries.
In this poster presentation, Pritesh discusses examples of some of these adaptations, including printed batteries for IoT applications with long range communication ability, which require high pulse currents, or direct printing onto electronic circuits. Routes for printed batteries adapted for ultra-low voltage electronics with batteries below 1.2V are discussed. This capability has allowed the production of smart labels which can amongst other things track locations of goods or measure other parameters and communicate of ranges of a few km. Results of field trials will be shown as well as a projection of possibilities we expect in the coming years.
To view the full poster in detail, click here: https://bit.ly/2GKInE1
- published: 13 Oct 2020
- views: 154
4:02
Thin Film PV Reliability
Thin Film PV reliability for solar energy modules
Thin Film PV reliability for solar energy modules
https://wn.com/Thin_Film_Pv_Reliability
Thin Film PV reliability for solar energy modules
- published: 14 Apr 2009
- views: 13445
31:39
Susanne Siebentritt: Thin film solar cells – achievements and challenges
Susanne Siebentritt's lecture at the Molecular Frontiers Symposium at Chalmers University of Technology, Sweden, Dec 2017. The topic of the symposium was "Susta...
Susanne Siebentritt's lecture at the Molecular Frontiers Symposium at Chalmers University of Technology, Sweden, Dec 2017. The topic of the symposium was "Sustainable Energy". Check our YouTube channel for more exciting science videos! For more information, visit www.molecularfrontiers.org
https://wn.com/Susanne_Siebentritt_Thin_Film_Solar_Cells_–_Achievements_And_Challenges
Susanne Siebentritt's lecture at the Molecular Frontiers Symposium at Chalmers University of Technology, Sweden, Dec 2017. The topic of the symposium was "Sustainable Energy". Check our YouTube channel for more exciting science videos! For more information, visit www.molecularfrontiers.org
- published: 19 Dec 2017
- views: 1596
2:16
Nanostructured thin films for energy apps, biomed
Sitaraman Krishnan, assistant professor in the chemical engineering department at Clarkson University, discusses his research on nanostructured thin films for b...
Sitaraman Krishnan, assistant professor in the chemical engineering department at Clarkson University, discusses his research on nanostructured thin films for bio/life sciences and energy (solar cells and fuel cells) with ElectroIQ.com.
https://wn.com/Nanostructured_Thin_Films_For_Energy_Apps,_Biomed
Sitaraman Krishnan, assistant professor in the chemical engineering department at Clarkson University, discusses his research on nanostructured thin films for bio/life sciences and energy (solar cells and fuel cells) with ElectroIQ.com.
- published: 09 May 2011
- views: 378
1:46
Thin Film Photovoltaics | Research Podcast | Renewable Energy | Amrita School of Nanosciences
In today's world, the largest consumable commodity is energy. Permanent growth of the world's global energy needs requires novel technological solutions that wo...
In today's world, the largest consumable commodity is energy. Permanent growth of the world's global energy needs requires novel technological solutions that would meet the increasing demand. Photovoltaic conversion is considered as one of the main roads successfully fulfilling the growing global energy demand.
Over the years the use of thin photovoltaic devices is gaining more market and land space all over the world. In Today’s Research Podcast, our PhD scholar from Semiconductor Nanomaterials and Devices Group at Amrita School of Nanosciences and Molecular Medicine, Mr. Kulandai Velu Ramanathan talks about his PhD research work on Flexible Solar Cells.
#ResearchPodcast #Podcast #AmritaSchoolofNanosciencesandMolecularMedicine #ASNSMM #AmritaVishwaVidyapeetham #DrShantikumarVNair #DrNair #MolecularMedicine #Nanobiotechnology #Nanoengineering #Nanoelectronics #Nanotechnology #Nanoscience #Nanomedicine #Nanoman #ResearchatAmrita #StopFollowingtheCrowd #BScHonors #AmritaMScAdmissions #AmritaMTechAdmissions #AmritaNano #AmritaAdmissions2023 #AdmissionsOpen2023 #FlexibleSolarCells #SemiconductorNanomaterials #EnergyConversion #CadmiumTeluride #RenewableEnergy #AmritaUniversityResearch
https://wn.com/Thin_Film_Photovoltaics_|_Research_Podcast_|_Renewable_Energy_|_Amrita_School_Of_Nanosciences
In today's world, the largest consumable commodity is energy. Permanent growth of the world's global energy needs requires novel technological solutions that would meet the increasing demand. Photovoltaic conversion is considered as one of the main roads successfully fulfilling the growing global energy demand.
Over the years the use of thin photovoltaic devices is gaining more market and land space all over the world. In Today’s Research Podcast, our PhD scholar from Semiconductor Nanomaterials and Devices Group at Amrita School of Nanosciences and Molecular Medicine, Mr. Kulandai Velu Ramanathan talks about his PhD research work on Flexible Solar Cells.
#ResearchPodcast #Podcast #AmritaSchoolofNanosciencesandMolecularMedicine #ASNSMM #AmritaVishwaVidyapeetham #DrShantikumarVNair #DrNair #MolecularMedicine #Nanobiotechnology #Nanoengineering #Nanoelectronics #Nanotechnology #Nanoscience #Nanomedicine #Nanoman #ResearchatAmrita #StopFollowingtheCrowd #BScHonors #AmritaMScAdmissions #AmritaMTechAdmissions #AmritaNano #AmritaAdmissions2023 #AdmissionsOpen2023 #FlexibleSolarCells #SemiconductorNanomaterials #EnergyConversion #CadmiumTeluride #RenewableEnergy #AmritaUniversityResearch
- published: 24 May 2023
- views: 46