Sheng‐Fa Liu scite author profile

Sheng‐Fa Liu

5Publications

39Citation Statements Received

22Citation Statements Given

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Affiliations

Shanghai Industrial Technology Institute, Chunghwa Picture Tubes (Taiwan ), Central Research Institute

Publications

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Improving the flexibility of AMOLED display through modulating thickness of layer stack structure

et al. 2016

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-A robust methodology is established to predict the critical bending radius of a flexible AMOLED. According to the methodology, the critical bending radius of display manufactured by the same process could be reduced from 7 mm to 4 mm by modulating the layer stack thickness.Keywords -flexible, neutral plane, stress, strain, simulation, AMOLED. DOI # 10.1002/jsid.443 Objective and backgroundRecently, there are many significant investments in the development of flexible display technology. Several flexible AMOLED products are already available in the display market. But, these products are only slightly curved and remain rigid, which are not as much different from the present glass-based portable device as one could anticipate from a flexible display. In order to realize flexible display applied to the rollable or foldable device of next generation, it is necessary to reduce the critical bending radius.The structure of a flexible AMOLED display can be divided into several parts: the flexible substrate, TFT backplane, OLED, and encapsulation layers. The AMOLED display contains functional brittle inorganic layers that have different purposes and could easily fail during bending. A number of literatures have pointed out that we can place the mechanically vulnerable components (TFT backplane and OLED) close to the zero-strain plane (the neutral plane) to improve the reliability and flexibility of flexible displays.1-4 But, the inorganic layers used for encapsulation layers would be far away from neutral plane and easily fail during bending.OLED materials are extremely sensitive to ambient water vapor and oxygen, which causes oxidation of cathode and results in the formation of black spots in electroluminescence. [5][6][7][8] Therefore, keeping the performance of encapsulation layers during bending is important. The most common technique of encapsulation for flexible AMOLED is the thin-film encapsulation (TFE) 9-12 that is fabricated by alternative stacks of inorganic and organic layers. In order to protect the TFE layer, we modulate the thickness of organic layers. In our structure configuration, we maintain the neutral plane located on TFT and OLED layers but change the thicknesses of organic layers. The inorganic layers in TFE component could get closer to the neutral plane and take lesser strain. Experiment and process flowA robust methodology consisting of a mechanical model of multi-films under bending loads and experiment of bending test is proposed to predict the critical bending radius of a flexible AMOLED display. Figure 1 shows the process flow. We apply this methodology in different layer stack structure configuration and try to reduce the critical bending radius.The flexible AMOLED interpreted below is fabricated by PI substrate with SiNx bottom barrier to perform the IGZO TFT process, then, deposit the OLED material and encapsulated by thin-film encapsulation (TFE) process. The TFE layer is made by stacks of SiNx layers and "organic coating for planarization (OCP)" layers, alternately. SiNx is dep...

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58.3: A Novel Highly Transparent 6‐in. AMOLED Display Consisting of IGZO TFTs

Lee

Huang

Tsai

et al. 2015

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Display technology advances, from thin to "transparent" new forms of sustainable development. AMOLED has the advantage of self-luminous, wide viewing angle, high contrast and fast response. AMOLED panel cathode and anode use transparent materials, with IGZO TFTs high electron mobility, low power consumption, sub-pixel aperture ratio can be increased to achieve high resolution and higher transmittance of the panel. Furthermore, we demonstrate high-transparent 6 inch AMOLED display with IGZO TFTs, the module transparency of the AMOLED display is about 23% transmittance which can realize transparent and thinner portable device.

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31‐2: Optimization of TFE Structure by FTIR Analysis and Mechanical Simulation to Achieve Excellent Encapsulation and High Flexibility AMOLED

Chiou

Liu

Niu

et al. 2017

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A near-zero cross-regulation single-inductor bipolar-output (SIBO) converter with an active-energy-correlation control for driving cholesteric-LCD

Lee

Fan

Chen

et al. 2011

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P‐59: 6‐inch Full Color AMOLED with Improved Bonding Strength of Laser Frit Encapsulations

Chiu

Liu

Chiou

et al. 2015

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Sheng‐Fa Liu

Improving the flexibility of AMOLED display through modulating thickness of layer stack structure

58.3: A Novel Highly Transparent 6‐in. AMOLED Display Consisting of IGZO TFTs

31‐2: Optimization of TFE Structure by FTIR Analysis and Mechanical Simulation to Achieve Excellent Encapsulation and High Flexibility AMOLED

A near-zero cross-regulation single-inductor bipolar-output (SIBO) converter with an active-energy-correlation control for driving cholesteric-LCD

P‐59: 6‐inch Full Color AMOLED with Improved Bonding Strength of Laser Frit Encapsulations

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