-
Mingyang Thin Film Technology-Company Introduction
@BIPV @PV Module @Solar Module
Guangdong Mingyang Thin Film Technology Co., Ltd (Mingyang Thin Film Tech hereafter) is a fully owned subsidiary of Mingyang Smart Energy Group. The company focuses on the development of advanced thin film solar technologies and their applications for green building materials. We manufacture highly efficient and cost-competitive thin film solar modules, the certified conversion efficiency of CdTe thin film solar products ranked first in China.
Mingyang Thin Film Tech offers a wide series of products including standard thin film panels and BIPV products via integration of solar panels with diverse architectural glass structures. Most of our business involves customized design and production of thin film solar modules and BIPV products, which may differ in ...
published: 21 Dec 2023
-
Chinese solar company to develop thin film solar projects
Chinese solar company Hanergy Mobile Energy Holding Group Limited signed a cooperative agreement to develop thin-film solar projects. Hanergy signed the agreement with the Administration Committee for Development and Construction of Lingang Area and the Lingang Group.Thin-film solar energy, as a renewable energy source, has been hailed as an important force in transforming solar technology. Compared with traditional crystalline silicon solar cells, thin-film solar cells are lighter and more flexible in converting sunlight into electricity.
Subscribe to us on YouTube: https://goo.gl/lP12gA
Download our APP on Apple Store (iOS): https://itunes.apple.com/us/app/cctvnews-app/id922456579?l=zh&ls=1&mt=8
Download our APP on Google Play (Android): https://play.google.com/store/apps/details?id=c...
published: 13 Apr 2019
-
All About Thin Film Solar Cells!
Visuals available at energynerdshow.com/episodes
Links for more info on today's topic:
The BEMI Group: https://thebemigroup.com/
Connect with Dr. Collins: https://www.linkedin.com/in/shamaracollins
CdTe Thin Films: https://scholarcommons.usf.edu/etd/7276/
Solar District Cup: https://www.youtube.com/watch?v=Dm7IbwFETS4
National Community Solar Partnership: https://www.energy.gov/eere/solar/national-community-solar-partnership
DOE's Solar Technologies Office: https://www.energy.gov/eere/solar/solar-energy-technologies-office
The National Society of Professional Engineers: https://www.nspe.org/
Follow us on social media to keep up with the show!
Instagram, Twitter, Facebook @energynerdshow
Episode 59 of Energy Nerd Show & Tell. This week's guest: Dr. Shamara Collins on thin film solar cell...
published: 15 Jul 2021
-
Thin Film Fun with the Ediger Group
Join Mark Ediger's group and create your own thin films using household supplies! The Ediger Group will show you how to do the activities and explain how they use and characterize thin films in their research. To learn more about the Ediger Group and their research:
https://ediger.chem.wisc.edu/
You can learn more about measuring the thickness of your nail polish thin films at home at:
https://education.mrsec.wisc.edu/using-the-wavelength-of-light-%ce%bb-as-a-ruler-to-measure-the-thickness-of-a-thin-film/
UW MRSEC ON SOCIAL
Follow UW MRSEC on Twitter: https://twitter.com/UWMRSEC
Like UW MRSEC on Facebook: https://www.facebook.com/uwmrsec/
The NSF-sponsored Wisconsin Materials Research Science and Engineering Center brings together teams of interdisciplinary researchers to address gran...
published: 16 Sep 2020
-
Daiyang group solar thin film battery tel:19218915319
published: 30 Nov 2023
-
Thin-Film Silicon PV Technology
Learn about a different silicon technology, the thin-film silicon PV technology, which belongs to the so-called second generation PV technology. Take the full course, test yourself, and earn a certificate on edX: https://www.edx.org/course/solar-energy?utm_source=youtube&utm_medium=social&utm_campaign=partnership&utm_content=solar-energy
published: 03 Apr 2019
-
Optical bandgap of ZnO thin film using Tauc Plot
This video shows how to determine Optical Bandgap of ZnO thin film using Tauc plot.
published: 27 Sep 2021
-
First Solar ($FSLR) Expands European Footprint with Acquisition of Thin Film Company Evolar
First Solar (NASDAQ: FSLR), a leading American solar technology company, has acquired Evolar AB, a European leader in photovoltaic technology.
The deal, valued at around $38 million, with an additional $42 million contingent upon future technical milestones, aims to accelerate the development of high-efficiency tandem devices by integrating Evolar's expertise with First Solar's research and development capabilities. Evolar's research facility in Uppsala, Sweden, will continue its activities, marking First Solar's first R&D facility in Europe. Around 30 of Evolar's R&D staff will join First Solar, collaborating with the company's scientists in California and Ohio.
Founded in 2019, Evolar has achieved notable advancements in thin film PV, including setting a world record for CIGS research...
published: 12 May 2023
-
eGOPV - Liwei Chen - Energy band alignment in thin-film organic photovoltaic devices
Understanding energy band alignment in thin-film organic photovoltaic devices
Liwei Chen (Invited talk)
See the rest of the eGOPV conference at http://plasticphotovoltaics.com/egopv.html
published: 02 Sep 2016
-
Atomic-scale Structure of Complex Semiconductors for Thin Film Solar Cells (Prof. Claudia Schnohr)
Atomic-scale Structure of Complex Semiconductors for Thin Film Solar Cells
Prof. Claudia Schnohr (Leipzig University)
Thursday March 30, 2023
Photovoltaics, particularly thin film solar cells, are anticipated to significantly contribute to the sustainable energy supply of the future. In this regard, complex semiconductors such as Cu(In,Ga)Se2 or Cu2Zn(Sn,Ge)Se4 are being increasingly utilized and investigated as absorber materials in thin film solar cells due to their capacity for specific tailoring of material properties by adjusting alloy composition. Nonetheless, this complexity also results in intrinsic structural inhomogeneity at the subnanometer scale, as two different types of atoms are situated on a specific site of the crystal structure. Consequently, the local atomic arrang...
published: 31 Mar 2023
1:12
Mingyang Thin Film Technology-Company Introduction
@BIPV @PV Module @Solar Module
Guangdong Mingyang Thin Film Technology Co., Ltd (Mingyang Thin Film Tech hereafter) is a fully owned subsidiary of Mingyang Smar...
@BIPV @PV Module @Solar Module
Guangdong Mingyang Thin Film Technology Co., Ltd (Mingyang Thin Film Tech hereafter) is a fully owned subsidiary of Mingyang Smart Energy Group. The company focuses on the development of advanced thin film solar technologies and their applications for green building materials. We manufacture highly efficient and cost-competitive thin film solar modules, the certified conversion efficiency of CdTe thin film solar products ranked first in China.
Mingyang Thin Film Tech offers a wide series of products including standard thin film panels and BIPV products via integration of solar panels with diverse architectural glass structures. Most of our business involves customized design and production of thin film solar modules and BIPV products, which may differ in shape, size, color, and transmittance. The products have been extensively applied in traditional power stations, building wall, glazing, sunroof, sun room, parking structure, bus station, etc.
In addition to CdTe solar technology, Mingyang Thin Film Tech also has a world-class R&D team in Perovskite and Tandem solar cell technologies. We have built a state-of-the-art facility capable of fabrication and testing of thin film solar cells and prototyping mini modules. Recently, we have achieved a 25.11% certified conversion efficiency for PIN perovskite thin film cells, placing at a leading position in the thin film photovoltaic industry.
https://wn.com/Mingyang_Thin_Film_Technology_Company_Introduction
@BIPV @PV Module @Solar Module
Guangdong Mingyang Thin Film Technology Co., Ltd (Mingyang Thin Film Tech hereafter) is a fully owned subsidiary of Mingyang Smart Energy Group. The company focuses on the development of advanced thin film solar technologies and their applications for green building materials. We manufacture highly efficient and cost-competitive thin film solar modules, the certified conversion efficiency of CdTe thin film solar products ranked first in China.
Mingyang Thin Film Tech offers a wide series of products including standard thin film panels and BIPV products via integration of solar panels with diverse architectural glass structures. Most of our business involves customized design and production of thin film solar modules and BIPV products, which may differ in shape, size, color, and transmittance. The products have been extensively applied in traditional power stations, building wall, glazing, sunroof, sun room, parking structure, bus station, etc.
In addition to CdTe solar technology, Mingyang Thin Film Tech also has a world-class R&D team in Perovskite and Tandem solar cell technologies. We have built a state-of-the-art facility capable of fabrication and testing of thin film solar cells and prototyping mini modules. Recently, we have achieved a 25.11% certified conversion efficiency for PIN perovskite thin film cells, placing at a leading position in the thin film photovoltaic industry.
- published: 21 Dec 2023
- views: 10
1:02
Chinese solar company to develop thin film solar projects
Chinese solar company Hanergy Mobile Energy Holding Group Limited signed a cooperative agreement to develop thin-film solar projects. Hanergy signed the agreeme...
Chinese solar company Hanergy Mobile Energy Holding Group Limited signed a cooperative agreement to develop thin-film solar projects. Hanergy signed the agreement with the Administration Committee for Development and Construction of Lingang Area and the Lingang Group.Thin-film solar energy, as a renewable energy source, has been hailed as an important force in transforming solar technology. Compared with traditional crystalline silicon solar cells, thin-film solar cells are lighter and more flexible in converting sunlight into electricity.
Subscribe to us on YouTube: https://goo.gl/lP12gA
Download our APP on Apple Store (iOS): https://itunes.apple.com/us/app/cctvnews-app/id922456579?l=zh&ls=1&mt=8
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Douyin: https://www.youtube.com/redirect?q=http%3A%2F%2Fv.douyin.com%2F8QTXhV%2F&redir_token=WkBScl40kZbx7ZwJ9M7QhhTjErx8MTU0NTcyMTg3N0AxNTQ1NjM1NDc3&event=channel_description
https://wn.com/Chinese_Solar_Company_To_Develop_Thin_Film_Solar_Projects
Chinese solar company Hanergy Mobile Energy Holding Group Limited signed a cooperative agreement to develop thin-film solar projects. Hanergy signed the agreement with the Administration Committee for Development and Construction of Lingang Area and the Lingang Group.Thin-film solar energy, as a renewable energy source, has been hailed as an important force in transforming solar technology. Compared with traditional crystalline silicon solar cells, thin-film solar cells are lighter and more flexible in converting sunlight into electricity.
Subscribe to us on YouTube: https://goo.gl/lP12gA
Download our APP on Apple Store (iOS): https://itunes.apple.com/us/app/cctvnews-app/id922456579?l=zh&ls=1&mt=8
Download our APP on Google Play (Android): https://play.google.com/store/apps/details?id=com.imib.cctv
Follow us on:
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Douyin: https://www.youtube.com/redirect?q=http%3A%2F%2Fv.douyin.com%2F8QTXhV%2F&redir_token=WkBScl40kZbx7ZwJ9M7QhhTjErx8MTU0NTcyMTg3N0AxNTQ1NjM1NDc3&event=channel_description
- published: 13 Apr 2019
- views: 21179
12:07
All About Thin Film Solar Cells!
Visuals available at energynerdshow.com/episodes
Links for more info on today's topic:
The BEMI Group: https://thebemigroup.com/
Connect with Dr. Collins: http...
Visuals available at energynerdshow.com/episodes
Links for more info on today's topic:
The BEMI Group: https://thebemigroup.com/
Connect with Dr. Collins: https://www.linkedin.com/in/shamaracollins
CdTe Thin Films: https://scholarcommons.usf.edu/etd/7276/
Solar District Cup: https://www.youtube.com/watch?v=Dm7IbwFETS4
National Community Solar Partnership: https://www.energy.gov/eere/solar/national-community-solar-partnership
DOE's Solar Technologies Office: https://www.energy.gov/eere/solar/solar-energy-technologies-office
The National Society of Professional Engineers: https://www.nspe.org/
Follow us on social media to keep up with the show!
Instagram, Twitter, Facebook @energynerdshow
Episode 59 of Energy Nerd Show & Tell. This week's guest: Dr. Shamara Collins on thin film solar cells.
Each week, Jeannie and Bruce will interview an energy nerd about what's been getting them psyched about energy!
Thumbnail: By Fieldsken Ken Fields - Own work, CC BY-SA 3.0, https://commons.wikimedia.org/w/index.php?curid=10861988
https://wn.com/All_About_Thin_Film_Solar_Cells
Visuals available at energynerdshow.com/episodes
Links for more info on today's topic:
The BEMI Group: https://thebemigroup.com/
Connect with Dr. Collins: https://www.linkedin.com/in/shamaracollins
CdTe Thin Films: https://scholarcommons.usf.edu/etd/7276/
Solar District Cup: https://www.youtube.com/watch?v=Dm7IbwFETS4
National Community Solar Partnership: https://www.energy.gov/eere/solar/national-community-solar-partnership
DOE's Solar Technologies Office: https://www.energy.gov/eere/solar/solar-energy-technologies-office
The National Society of Professional Engineers: https://www.nspe.org/
Follow us on social media to keep up with the show!
Instagram, Twitter, Facebook @energynerdshow
Episode 59 of Energy Nerd Show & Tell. This week's guest: Dr. Shamara Collins on thin film solar cells.
Each week, Jeannie and Bruce will interview an energy nerd about what's been getting them psyched about energy!
Thumbnail: By Fieldsken Ken Fields - Own work, CC BY-SA 3.0, https://commons.wikimedia.org/w/index.php?curid=10861988
- published: 15 Jul 2021
- views: 6056
12:21
Thin Film Fun with the Ediger Group
Join Mark Ediger's group and create your own thin films using household supplies! The Ediger Group will show you how to do the activities and explain how they u...
Join Mark Ediger's group and create your own thin films using household supplies! The Ediger Group will show you how to do the activities and explain how they use and characterize thin films in their research. To learn more about the Ediger Group and their research:
https://ediger.chem.wisc.edu/
You can learn more about measuring the thickness of your nail polish thin films at home at:
https://education.mrsec.wisc.edu/using-the-wavelength-of-light-%ce%bb-as-a-ruler-to-measure-the-thickness-of-a-thin-film/
UW MRSEC ON SOCIAL
Follow UW MRSEC on Twitter: https://twitter.com/UWMRSEC
Like UW MRSEC on Facebook: https://www.facebook.com/uwmrsec/
The NSF-sponsored Wisconsin Materials Research Science and Engineering Center brings together teams of interdisciplinary researchers to address grand challenges in materials science.
https://mrsec.wisc.edu/
The Wisconsin MRSEC has free, engaging educational activities for a variety of audiences.
https://education.mrsec.wisc.edu/
https://wn.com/Thin_Film_Fun_With_The_Ediger_Group
Join Mark Ediger's group and create your own thin films using household supplies! The Ediger Group will show you how to do the activities and explain how they use and characterize thin films in their research. To learn more about the Ediger Group and their research:
https://ediger.chem.wisc.edu/
You can learn more about measuring the thickness of your nail polish thin films at home at:
https://education.mrsec.wisc.edu/using-the-wavelength-of-light-%ce%bb-as-a-ruler-to-measure-the-thickness-of-a-thin-film/
UW MRSEC ON SOCIAL
Follow UW MRSEC on Twitter: https://twitter.com/UWMRSEC
Like UW MRSEC on Facebook: https://www.facebook.com/uwmrsec/
The NSF-sponsored Wisconsin Materials Research Science and Engineering Center brings together teams of interdisciplinary researchers to address grand challenges in materials science.
https://mrsec.wisc.edu/
The Wisconsin MRSEC has free, engaging educational activities for a variety of audiences.
https://education.mrsec.wisc.edu/
- published: 16 Sep 2020
- views: 1861
16:41
Thin-Film Silicon PV Technology
Learn about a different silicon technology, the thin-film silicon PV technology, which belongs to the so-called second generation PV technology. Take the full c...
Learn about a different silicon technology, the thin-film silicon PV technology, which belongs to the so-called second generation PV technology. Take the full course, test yourself, and earn a certificate on edX: https://www.edx.org/course/solar-energy?utm_source=youtube&utm_medium=social&utm_campaign=partnership&utm_content=solar-energy
https://wn.com/Thin_Film_Silicon_Pv_Technology
Learn about a different silicon technology, the thin-film silicon PV technology, which belongs to the so-called second generation PV technology. Take the full course, test yourself, and earn a certificate on edX: https://www.edx.org/course/solar-energy?utm_source=youtube&utm_medium=social&utm_campaign=partnership&utm_content=solar-energy
- published: 03 Apr 2019
- views: 4238
10:03
Optical bandgap of ZnO thin film using Tauc Plot
This video shows how to determine Optical Bandgap of ZnO thin film using Tauc plot.
This video shows how to determine Optical Bandgap of ZnO thin film using Tauc plot.
https://wn.com/Optical_Bandgap_Of_Zno_Thin_Film_Using_Tauc_Plot
This video shows how to determine Optical Bandgap of ZnO thin film using Tauc plot.
- published: 27 Sep 2021
- views: 14443
2:14
First Solar ($FSLR) Expands European Footprint with Acquisition of Thin Film Company Evolar
First Solar (NASDAQ: FSLR), a leading American solar technology company, has acquired Evolar AB, a European leader in photovoltaic technology.
The deal, value...
First Solar (NASDAQ: FSLR), a leading American solar technology company, has acquired Evolar AB, a European leader in photovoltaic technology.
The deal, valued at around $38 million, with an additional $42 million contingent upon future technical milestones, aims to accelerate the development of high-efficiency tandem devices by integrating Evolar's expertise with First Solar's research and development capabilities. Evolar's research facility in Uppsala, Sweden, will continue its activities, marking First Solar's first R&D facility in Europe. Around 30 of Evolar's R&D staff will join First Solar, collaborating with the company's scientists in California and Ohio.
Founded in 2019, Evolar has achieved notable advancements in thin film PV, including setting a world record for CIGS research solar cells. First Solar's investment in R&D also includes the construction of a cutting-edge innovation center in Ohio, which is set to be the largest facility of its kind in the Western Hemisphere.
Markus Gloeckler, chief technology officer of First Solar stated: “As we approach over 20 gigawatts of global nameplate capacity by 2025, First Solar’s track record in scaling thin film photovoltaics speaks for itself.”
Since 1999, First Solar’s approach to technology embodies sustainability and a responsibility towards people and the planet.
Shares of First Solar trade on the NASDAQ under the ticker symbol FSLR. For more information visit www.greenstocknews.com
Source: https://greenstocknews.com/newswire/first-solar-fslr-expands-european-footprint-with-acquisition-of-thin-film-company-evolar
#cleanenergy #solarpower #solarenergy #solarstocks #firstsolar #acquisitions #fslr
https://wn.com/First_Solar_(_Fslr)_Expands_European_Footprint_With_Acquisition_Of_Thin_Film_Company_Evolar
First Solar (NASDAQ: FSLR), a leading American solar technology company, has acquired Evolar AB, a European leader in photovoltaic technology.
The deal, valued at around $38 million, with an additional $42 million contingent upon future technical milestones, aims to accelerate the development of high-efficiency tandem devices by integrating Evolar's expertise with First Solar's research and development capabilities. Evolar's research facility in Uppsala, Sweden, will continue its activities, marking First Solar's first R&D facility in Europe. Around 30 of Evolar's R&D staff will join First Solar, collaborating with the company's scientists in California and Ohio.
Founded in 2019, Evolar has achieved notable advancements in thin film PV, including setting a world record for CIGS research solar cells. First Solar's investment in R&D also includes the construction of a cutting-edge innovation center in Ohio, which is set to be the largest facility of its kind in the Western Hemisphere.
Markus Gloeckler, chief technology officer of First Solar stated: “As we approach over 20 gigawatts of global nameplate capacity by 2025, First Solar’s track record in scaling thin film photovoltaics speaks for itself.”
Since 1999, First Solar’s approach to technology embodies sustainability and a responsibility towards people and the planet.
Shares of First Solar trade on the NASDAQ under the ticker symbol FSLR. For more information visit www.greenstocknews.com
Source: https://greenstocknews.com/newswire/first-solar-fslr-expands-european-footprint-with-acquisition-of-thin-film-company-evolar
#cleanenergy #solarpower #solarenergy #solarstocks #firstsolar #acquisitions #fslr
- published: 12 May 2023
- views: 570
34:41
eGOPV - Liwei Chen - Energy band alignment in thin-film organic photovoltaic devices
Understanding energy band alignment in thin-film organic photovoltaic devices
Liwei Chen (Invited talk)
See the rest of the eGOPV conference at http://plasticph...
Understanding energy band alignment in thin-film organic photovoltaic devices
Liwei Chen (Invited talk)
See the rest of the eGOPV conference at http://plasticphotovoltaics.com/egopv.html
https://wn.com/Egopv_Liwei_Chen_Energy_Band_Alignment_In_Thin_Film_Organic_Photovoltaic_Devices
Understanding energy band alignment in thin-film organic photovoltaic devices
Liwei Chen (Invited talk)
See the rest of the eGOPV conference at http://plasticphotovoltaics.com/egopv.html
- published: 02 Sep 2016
- views: 1222
1:02:16
Atomic-scale Structure of Complex Semiconductors for Thin Film Solar Cells (Prof. Claudia Schnohr)
Atomic-scale Structure of Complex Semiconductors for Thin Film Solar Cells
Prof. Claudia Schnohr (Leipzig University)
Thursday March 30, 2023
Photovoltaic...
Atomic-scale Structure of Complex Semiconductors for Thin Film Solar Cells
Prof. Claudia Schnohr (Leipzig University)
Thursday March 30, 2023
Photovoltaics, particularly thin film solar cells, are anticipated to significantly contribute to the sustainable energy supply of the future. In this regard, complex semiconductors such as Cu(In,Ga)Se2 or Cu2Zn(Sn,Ge)Se4 are being increasingly utilized and investigated as absorber materials in thin film solar cells due to their capacity for specific tailoring of material properties by adjusting alloy composition. Nonetheless, this complexity also results in intrinsic structural inhomogeneity at the subnanometer scale, as two different types of atoms are situated on a specific site of the crystal structure. Consequently, the local atomic arrangements in these semiconductor alloys often differ from the average crystal structure, and this deviation significantly affects critical material properties, including the band gap energy.
To address this issue, we employed Extended X-ray Absorption Fine Structure (EXAFS) spectroscopy to identify element-specific bond lengths of complex semiconductors such as Cu(In,Ga)Se2 or Cu2Zn(Sn,Ge)Se4. Based on these outcomes, we modelled the atomic displacements of the various local configurations and assessed their impact on the band gap energy using ab initio theoretical calculations. Our findings contribute to a comprehensive understanding of the intricate relationship between composition, structure, and properties of semiconductor alloys and enable the realization of their complete technological potential.
https://wn.com/Atomic_Scale_Structure_Of_Complex_Semiconductors_For_Thin_Film_Solar_Cells_(Prof._Claudia_Schnohr)
Atomic-scale Structure of Complex Semiconductors for Thin Film Solar Cells
Prof. Claudia Schnohr (Leipzig University)
Thursday March 30, 2023
Photovoltaics, particularly thin film solar cells, are anticipated to significantly contribute to the sustainable energy supply of the future. In this regard, complex semiconductors such as Cu(In,Ga)Se2 or Cu2Zn(Sn,Ge)Se4 are being increasingly utilized and investigated as absorber materials in thin film solar cells due to their capacity for specific tailoring of material properties by adjusting alloy composition. Nonetheless, this complexity also results in intrinsic structural inhomogeneity at the subnanometer scale, as two different types of atoms are situated on a specific site of the crystal structure. Consequently, the local atomic arrangements in these semiconductor alloys often differ from the average crystal structure, and this deviation significantly affects critical material properties, including the band gap energy.
To address this issue, we employed Extended X-ray Absorption Fine Structure (EXAFS) spectroscopy to identify element-specific bond lengths of complex semiconductors such as Cu(In,Ga)Se2 or Cu2Zn(Sn,Ge)Se4. Based on these outcomes, we modelled the atomic displacements of the various local configurations and assessed their impact on the band gap energy using ab initio theoretical calculations. Our findings contribute to a comprehensive understanding of the intricate relationship between composition, structure, and properties of semiconductor alloys and enable the realization of their complete technological potential.
- published: 31 Mar 2023
- views: 264