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    • 5. 发明申请
    • Organic thin-film transistor backplane with multi-layer contact structures and data lines
    • 具有多层接触结构和数据线的有机薄膜晶体管背板
    • US20070158644A1
    • 2007-07-12
    • US11316551
    • 2005-12-21
    • Michael ChabinycRene LujanAna AriasJackson Ho
    • Michael ChabinycRene LujanAna AriasJackson Ho
    • H01L29/08
    • H01L27/283H01L51/0037H01L51/0541H01L51/0545H01L51/105
    • A backplane circuit includes an array of organic thin-film transistors (OTFTs), each OTFT including a source contact, a drain contact, and an organic semiconductor region extending between the source and drain contacts. The drain contacts in each row are connected to an address line. The source and drain contacts and the address lines are fabricated using a multi-layer structure including a relatively thick base portion formed of a relatively inexpensive metal (e.g., aluminum or copper), and a relatively thin contact layer formed of a high work function, low oxidation metal (e.g., gold) that exhibits good electrical contact to the organic semiconductor, is formed opposite at least one external surface of the base, and is located at least partially in an interface region where the organic semiconductor contacts an underlying dielectric layer.
    • 背板电路包括有机薄膜晶体管(OTFT)的阵列,每个OTFT包括源极接触,漏极接触以及在源极和漏极接触之间延伸的有机半导体区域。 每行的漏极触点连接到地址线。 源极和漏极触点和地址线使用包括由相对便宜的金属(例如,铝或铜)形成的相对厚的基部的多层结构以及由高功函数形成的相对较薄的接触层制造, 与有机半导体呈现良好的电接触的低氧化金属(例如,金)形成在与基底的至少一个外表面相对的位置,并且至少部分地位于有机半导体与下面的介电层接触的界面区域中。
    • 6. 发明授权
    • Pattern-print thin-film transistors with top gate geometry
    • 具有顶栅几何形状的图案印刷薄膜晶体管
    • US07884361B2
    • 2011-02-08
    • US12817127
    • 2010-06-16
    • William WongRene LujanEugene Chow
    • William WongRene LujanEugene Chow
    • H01L21/00
    • H01L29/41733H01L27/124H01L27/1285H01L27/1288H01L27/1292H01L29/42384H01L29/4908H01L29/66757
    • A self-aligned, thin-film, top-gate transistor and method of manufacturing same are disclosed. A first print-patterned mask is formed over a metal layer by digital lithography, for example by printing with a phase change material using a droplet ejector. The metal layer is then etched using the first print-patterned mask to form source and drain electrodes. A semiconductive layer and an insulative layer are formed thereover. A layer of photosensitive material is then deposited and exposed through the substrate, with the source and drain electrodes acting as masks for the exposure. Following development of the photosensitive material, a gate metal layer is deposited. A second print-patterned mask is then formed over the device, again by digital lithography. Etching and removal of the photosensitive material leaves the self-aligned top-gate electrode.
    • 公开了一种自对准薄膜顶栅晶体管及其制造方法。 通过数字光刻在金属层上形成第一印刷图案掩模,例如通过使用液滴喷射器用相变材料进行印刷。 然后使用第一印刷图案化掩模蚀刻金属层以形成源极和漏极。 在其上形成半导体层和绝缘层。 然后将一层感光材料沉积并暴露通过基底,源极和漏极用作曝光的掩模。 在感光材料的显影之后,沉积栅极金属层。 然后再次通过数字光刻法在器件上形成第二印刷图案掩模。 蚀刻和去除感光材料离开自对准顶栅电极。
    • 7. 发明申请
    • Patterned-print thin-film transistors with top gate geometry
    • 具有顶栅几何形状的图案印刷薄膜晶体管
    • US20070026585A1
    • 2007-02-01
    • US11193847
    • 2005-07-28
    • William WongRene LujanEugene Chow
    • William WongRene LujanEugene Chow
    • H01L21/84
    • H01L29/41733H01L27/124H01L27/1285H01L27/1288H01L27/1292H01L29/42384H01L29/4908H01L29/66757
    • A self-aligned, thin-film, top-gate transistor and method of manufacturing same are disclosed. A first print-patterned mask is formed over a metal layer by digital lithography, for example by printing with a phase change material using a droplet ejector. The metal layer is then etched using the first print-patterned mask to form source and drain electrodes. A semiconductive layer and an insulative layer are formed thereover. A layer of photosensitive material is then deposited and exposed through the substrate, with the source and drain electrodes acting as masks for the exposure. Following development of the photosensitive material, a gate metal layer is deposited. A second print-patterned mask is then formed over the device, again by digital lithography. Etching and removal of the photosensitive material leaves the self-aligned top-gate electrode.
    • 公开了一种自对准薄膜顶栅晶体管及其制造方法。 通过数字光刻在金属层上形成第一印刷图案掩模,例如通过使用液滴喷射器用相变材料进行印刷。 然后使用第一印刷图案化掩模蚀刻金属层以形成源极和漏极。 在其上形成半导体层和绝缘层。 然后将一层感光材料沉积并暴露通过基底,源极和漏极用作曝光的掩模。 在感光材料的显影之后,沉积栅极金属层。 然后再次通过数字光刻法在器件上形成第二印刷图案掩模。 蚀刻和去除感光材料离开自对准顶栅电极。
    • 10. 发明授权
    • Patterned-print thin-film transistors with top gate geometry
    • 具有顶栅几何形状的图案印刷薄膜晶体管
    • US07804090B2
    • 2010-09-28
    • US12018794
    • 2008-01-23
    • William WongRene LujanEugene Chow
    • William WongRene LujanEugene Chow
    • H01L29/04
    • H01L29/41733H01L27/124H01L27/1285H01L27/1288H01L27/1292H01L29/42384H01L29/4908H01L29/66757
    • A self-aligned, thin-film, top-gate transistor and method of manufacturing same are disclosed. A first print-patterned mask is formed over a metal layer by digital lithography, for example by printing with a phase change material using a droplet ejector. The metal layer is then etched using the first print-patterned mask to form source and drain electrodes. A semiconductive layer and an insulative layer are formed thereover. A layer of photosensitive material is then deposited and exposed through the substrate, with the source and drain electrodes acting as masks for the exposure. Following development of the photosensitive material, a gate metal layer is deposited. A second print-patterned mask is then formed over the device, again by digital lithography. Etching and removal of the photosensitive material leaves the self-aligned top-gate electrode.
    • 公开了一种自对准薄膜顶栅晶体管及其制造方法。 通过数字光刻在金属层上形成第一印刷图案掩模,例如通过使用液滴喷射器用相变材料进行印刷。 然后使用第一印刷图案化掩模蚀刻金属层以形成源极和漏极。 在其上形成半导体层和绝缘层。 然后将一层感光材料沉积并暴露通过基底,源极和漏极用作曝光的掩模。 在感光材料的显影之后,沉积栅极金属层。 然后再次通过数字光刻法在器件上形成第二印刷图案掩模。 蚀刻和去除感光材料离开自对准顶栅电极。