Videos
We’ve produced a collection of videos exploring various aspects of Amorphyx’s technologies and their impacts on the display industry. The expertise of Ian Hendy (Hendy Consulting) in display factory capital equipment and operation brings unique value to these videos.
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AMOLED G8.6/8.7: Difficult Technologies, Difficult Decisions
The display industry faces its single greatest technology challenge: how to extend AMOLED beyond smartphones. The first phase is a $27B industry bet on frontplane and backplane technologies and techniques.
The reward? Redefining the winners and losers for the future of displays.
The display industry faces its single greatest technology challenge: how to extend AMOLED beyond smartphones. The first phase is a $27B industry bet on frontplane and backplane technologies and techniques.
The reward? Redefining the winners and losers for the future of displays.
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Cross the G8.6/8.7 Backplane Technology Gap: IGZO AMeTFT
Metal oxide TFTs have been in development for 20 years, promising the integration of amorphous silicon manufacturing simplicity and polycrystalline silicon mobility.
The obsessive fixation on “juicing up” the metal oxide semiconductor has led the display industry to a dead end on the high mobility TFT required for implementing AMOLED IT panels at G8.6/8.7.
Metal oxide TFTs have been in development for 20 years, promising the integration of amorphous silicon manufacturing simplicity and polycrystalline silicon mobility.
The obsessive fixation on “juicing up” the metal oxide semiconductor has led the display industry to a dead end on the high mobility TFT required for implementing AMOLED IT panels at G8.6/8.7.
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Overview of Oxide Transistors in the Display Industry
Introduce your lesson with an optional, short summary. You can edit this excerpt in lesson settings.
Introduce your lesson with an optional, short summary. You can edit this excerpt in lesson settings.
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Image Refresh Rate and Amorphous Metal TFT
Introduce your lesson with an optional, short summary. You can edit this excerpt in lesson settings.
Introduce your lesson with an optional, short summary. You can edit this excerpt in lesson settings.
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This is a fundamental backgrounder into AMeTFT in Mandarin
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刷新率管理 (Refresh rate management)
This is the discussion on how AMeTFT can improve refresh rates in modern OLED displays
This is the discussion on how AMeTFT can improve refresh rates in modern OLED displays
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氧化物的首选是什么?(What are the top choices in Oxides?)
This is the Amorphyx view on the top competing technical choices in oxides
This is the Amorphyx view on the top competing technical choices in oxides
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AMeTFT的制造流程 (Manufacturing flow for AMeTFT)
A discussion on manufacturing competitiveness for AMeTFT
A discussion on manufacturing competitiveness for AMeTFT
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氧化物在2025年第8.7代晶圆厂中的作用(第1部分)(Role of Oxide in Gen 8.7 Fabs 2025 (Part 1))
A discussion on the role of AMeTFT in Gen 8.7 OLED fabs
A discussion on the role of AMeTFT in Gen 8.7 OLED fabs
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2025年高性能氧化物(第2部分)(High Performance Oxides in 2025 (Part 2))
And the second part of our discussion on. the role of AMeTFT in Gen 8.7 fabs
And the second part of our discussion on. the role of AMeTFT in Gen 8.7 fabs
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Quantum Tunneling Electronics in Displays
Click on the image at right to view a YouTube video of the world’s first liquid crystal display (LCD) fabricated with a Fowler-Nordheim quantum tunneling electronic switch - the Amorphous Metal Nonlinear Resistor.
The display was fabricated in collaboration with BOE, the world’s largest display manufacturer, at their Beijing R&D facility in 2017. It was demonstrated at the Society of Information Display 2018 in Los Angeles.
