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    Preparation method and application of visible-near infrared high-transmittance Low-E glass

    New search for: HU BIN
    New search for: LI SHANGJING
    New search for: ZHOU ZHENGUI

    The invention discloses a preparation method and application of visible-near infrared high-transmittance Low-E glass, and belongs to the technical field of building energy conservation, the method comprises the following steps: in a room-temperature mixed atmosphere of hydrogen, oxygen and argon, magnetron sputtering an indium oxide target material on the surface of soda-lime glass to obtain coated glass with a proton-doped indium oxide film layer deposited on the surface; continuously sputtering a silicon dioxide target material in a room-temperature mixed atmosphere to form a silicon dioxide anti-reflection layer, so as to obtain proton-doped indium oxide-based silicon dioxide composite film layer glass; and putting the composite film layer glass into annealing equipment, and carrying out annealing treatment in a nitrogen atmosphere, so as to obtain the Low-E glass with visible-near infrared high transmission property. According to the invention, the mobility and carrier concentration of the oxide are optimized by using a proton doping method, high-selectivity near-red transmission of the oxide-based Low-E film layer is realized, and the oxide-based Low-E film layer has the unique advantages of adjustable intrinsic optical properties of materials, simple film layer structure and the like.

    本发明公开了一种可见‑近红外高透Low‑E玻璃制备方法及其应用,属于建筑节能技术领域,该方法包括:在氢气、氧气和氩气的室温混合气氛中,在钠钙玻璃表面磁控溅射氧化铟靶材,得到表面沉积有质子掺杂的氧化铟膜层的镀膜玻璃;在室温混合气氛中继续溅射二氧化硅靶材形成二氧化硅减反层,从而得到质子掺杂的氧化铟基‑二氧化硅复合膜层玻璃;将复合膜层玻璃置于退火设备中,在氮气气氛中进行退火处理,由此得到具有可见‑近红外高透性质的Low‑E玻璃。本发明利用质子掺杂法优化氧化物的迁移率和载流子浓度,实现氧化物基Low‑E膜层的高选择性红近外透过,具有材料本征光学性质可调和膜层结构简单等独特优势。

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    Preparation method and application of visible-near infrared high-transmittance Low-E glass

    New search for: HU BIN
    New search for: LI SHANGJING
    New search for: ZHOU ZHENGUI

    The invention discloses a preparation method and application of visible-near infrared high-transmittance Low-E glass, and belongs to the technical field of building energy conservation, the method comprises the following steps: in a room-temperature mixed atmosphere of hydrogen, oxygen and argon, magnetron sputtering an indium oxide target material on the surface of soda-lime glass to obtain coated glass with a proton-doped indium oxide film layer deposited on the surface; continuously sputtering a silicon dioxide target material in a room-temperature mixed atmosphere to form a silicon dioxide anti-reflection layer, so as to obtain proton-doped indium oxide-based silicon dioxide composite film layer glass; and putting the composite film layer glass into annealing equipment, and carrying out annealing treatment in a nitrogen atmosphere, so as to obtain the Low-E glass with visible-near infrared high transmission property. According to the invention, the mobility and carrier concentration of the oxide are optimized by using a proton doping method, high-selectivity near-red transmission of the oxide-based Low-E film layer is realized, and the oxide-based Low-E film layer has the unique advantages of adjustable intrinsic optical properties of materials, simple film layer structure and the like.

    本发明公开了一种可见‑近红外高透Low‑E玻璃制备方法及其应用,属于建筑节能技术领域,该方法包括:在氢气、氧气和氩气的室温混合气氛中,在钠钙玻璃表面磁控溅射氧化铟靶材,得到表面沉积有质子掺杂的氧化铟膜层的镀膜玻璃;在室温混合气氛中继续溅射二氧化硅靶材形成二氧化硅减反层,从而得到质子掺杂的氧化铟基‑二氧化硅复合膜层玻璃;将复合膜层玻璃置于退火设备中,在氮气气氛中进行退火处理,由此得到具有可见‑近红外高透性质的Low‑E玻璃。本发明利用质子掺杂法优化氧化物的迁移率和载流子浓度,实现氧化物基Low‑E膜层的高选择性红近外透过,具有材料本征光学性质可调和膜层结构简单等独特优势。

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    Preparation method and application of visible-near infrared high-transmittance Low-E glass

    New search for: HU BIN
    New search for: LI SHANGJING
    New search for: ZHOU ZHENGUI

    The invention discloses a preparation method and application of visible-near infrared high-transmittance Low-E glass, and belongs to the technical field of building energy conservation, the method comprises the following steps: in a room-temperature mixed atmosphere of hydrogen, oxygen and argon, magnetron sputtering an indium oxide target material on the surface of soda-lime glass to obtain coated glass with a proton-doped indium oxide film layer deposited on the surface; continuously sputtering a silicon dioxide target material in a room-temperature mixed atmosphere to form a silicon dioxide anti-reflection layer, so as to obtain proton-doped indium oxide-based silicon dioxide composite film layer glass; and putting the composite film layer glass into annealing equipment, and carrying out annealing treatment in a nitrogen atmosphere, so as to obtain the Low-E glass with visible-near infrared high transmission property. According to the invention, the mobility and carrier concentration of the oxide are optimized by using a proton doping method, high-selectivity near-red transmission of the oxide-based Low-E film layer is realized, and the oxide-based Low-E film layer has the unique advantages of adjustable intrinsic optical properties of materials, simple film layer structure and the like.

    本发明公开了一种可见‑近红外高透Low‑E玻璃制备方法及其应用,属于建筑节能技术领域,该方法包括:在氢气、氧气和氩气的室温混合气氛中,在钠钙玻璃表面磁控溅射氧化铟靶材,得到表面沉积有质子掺杂的氧化铟膜层的镀膜玻璃;在室温混合气氛中继续溅射二氧化硅靶材形成二氧化硅减反层,从而得到质子掺杂的氧化铟基‑二氧化硅复合膜层玻璃;将复合膜层玻璃置于退火设备中,在氮气气氛中进行退火处理,由此得到具有可见‑近红外高透性质的Low‑E玻璃。本发明利用质子掺杂法优化氧化物的迁移率和载流子浓度,实现氧化物基Low‑E膜层的高选择性红近外透过,具有材料本征光学性质可调和膜层结构简单等独特优势。

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    Title:

    Preparation method and application of visible-near infrared high-transmittance Low-E glass

    Additional title:

    一种可见-近红外高透Low-E玻璃制备方法及其应用

    Contributors:

    HU BIN (author) / LI SHANGJING (author) / ZHOU ZHENGUI (author)

    Publication date:

    2024-12-27

    Type of media:

    Patent

    Type of material:

    Electronic Resource

    Language:

    Chinese

    Classification:

    IPC:  C03C Chemische Zusammensetzungen für Gläser, Glasuren oder Emails , CHEMICAL COMPOSITION OF GLASSES, GLAZES, OR VITREOUS ENAMELS / C03B Herstellung oder Formgebung von Glas, Mineral- oder Schlackenwolle , MANUFACTURE OR SHAPING OF GLASS, OR OF MINERAL OR SLAG WOOL / E06B Feste oder bewegliche Abschlüsse für Öffnungen in Bauwerken, Fahrzeugen, Zäunen oder ähnlichen Einfriedungen allgemein, z.B. Türen, Fenster, Läden, Tore , FIXED OR MOVABLE CLOSURES FOR OPENINGS IN BUILDINGS, VEHICLES, FENCES, OR LIKE ENCLOSURES, IN GENERAL, e.g. DOORS, WINDOWS, BLINDS, GATES

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