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    • 4. 发明授权
    • Back-to-back metal/semiconductor/metal (MSM) Schottky diode
    • 背对背金属/半导体/金属(MSM)肖特基二极管
    • US07968419B2
    • 2011-06-28
    • US12234663
    • 2008-09-21
    • Tingkai LiSheng Teng HsuDavid R. Evans
    • Tingkai LiSheng Teng HsuDavid R. Evans
    • H01L21/20
    • H01L27/101G11C13/0007G11C2213/31H01L27/2409H01L29/66143H01L29/872H01L45/04H01L45/1233H01L45/147
    • A method is provided for forming a metal/semiconductor/metal (MSM) back-to-back Schottky diode from a silicon (Si) semiconductor. The method deposits a Si semiconductor layer between a bottom electrode and a top electrode, and forms a MSM diode having a threshold voltage, breakdown voltage, and on/off current ratio. The method is able to modify the threshold voltage, breakdown voltage, and on/off current ratio of the MSM diode in response to controlling the Si semiconductor layer thickness. Generally, both the threshold and breakdown voltage are increased in response to increasing the Si thickness. With respect to the on/off current ratio, there is an optimal thickness. The method is able to form an amorphous Si (a-Si) and polycrystalline Si (polySi) semiconductor layer using either chemical vapor deposition (CVD) or DC sputtering. The Si semiconductor can be doped with a Group V donor material, which decreases the threshold voltage and increases the breakdown voltage.
    • 提供了用于从硅(Si)半导体形成金属/半导体/金属(MSM)背对背肖特基二极管的方法。 该方法在底电极和顶电极之间沉积Si半导体层,并形成具有阈值电压,击穿电压和开/关电流比的MSM二极管。 响应于控制Si半导体层厚度,该方法能够修改MSM二极管的阈值电压,击穿电压和导通/截止电流比。 通常,响应于Si厚度的增加,阈值和击穿电压都增加。 关于开/关电流比,存在最佳厚度。 该方法能够使用化学气相沉积(CVD)或DC溅射形成非晶Si(a-Si)和多晶硅(polySi)半导体层。 Si半导体可以掺杂有V族施主材料,其降低阈值电压并增加击穿电压。
    • 6. 发明授权
    • Method of monitoring PCMO precursor synthesis
    • 监测PCMO前体合成的方法
    • US07625595B2
    • 2009-12-01
    • US11403022
    • 2006-04-11
    • Wei-Wei ZhuangDavid R. EvansTingkai LiSheng Teng Hsu
    • Wei-Wei ZhuangDavid R. EvansTingkai LiSheng Teng Hsu
    • B05D5/12
    • H01L22/20H01L21/31691H01L22/14
    • A method of monitoring synthesis of PCMO precursor solutions includes preparing a PCMO precursor solution and withdrawing samples of the precursor solution at intervals during a reaction phase of the PCMO precursor solution synthesis. The samples of the PCMO precursor solution are analyzed by UV spectroscopy to determine UV transmissivity of the samples of the PCMO precursor solution and the samples used to form PCMO thin films. Electrical characteristics of the PCMO thin films formed from the samples are determined to identify PCMO thin films having optimal electrical characteristics. The UV spectral characteristics of the PCMO precursor solutions are correlated with the PCMO thin films having optimal electrical characteristics. The UV spectral characteristics are used to monitor synthesis of future batches of the PCMO precursor solutions, which will result in PCMO thin films having optimal electrical characteristics.
    • 监测PCMO前体溶液合成的方法包括制备PCMO前体溶液,并在PCMO前体溶液合成反应期间间隔取出前体溶液样品。 通过紫外光谱分析PCMO前体溶液的样品,以确定PCMO前体溶液和用于形成PCMO薄膜的样品的UV透射率。 确定由样品形成的PCMO薄膜的电特性以鉴定具有最佳电特性的PCMO薄膜。 PCMO前体溶液的UV光谱特性与具有最佳电学特性的PCMO薄膜相关。 UV光谱特性用于监测未来批次的PCMO前体溶液的合成,这将导致具有最佳电特性的PCMO薄膜。
    • 10. 发明授权
    • Bipolar switching PCMO capacitor
    • 双极开关PCMO电容
    • US07696550B2
    • 2010-04-13
    • US11805177
    • 2007-05-22
    • Tingkai LiLawrence J. CharneskiWei-Wei ZhuangDavid R. EvansSheng Teng Hsu
    • Tingkai LiLawrence J. CharneskiWei-Wei ZhuangDavid R. EvansSheng Teng Hsu
    • H01L29/76
    • H01L45/04H01L45/1233H01L45/147H01L45/1616
    • A multi-layer PrxCa1-xMnO3 (PCMO) thin film capacitor and associated deposition method are provided for forming a bipolar switching thin film. The method comprises: forming a bottom electrode; depositing a nanocrystalline PCMO layer; depositing a polycrystalline PCMO layer; forming a multi-layer PCMO film with bipolar switching properties; and, forming top electrode overlying the PCMO film. If the polycrystalline layers are deposited overlying the nanocrystalline layers, a high resistance can be written with narrow pulse width, negative voltage pulses. The PCMO film can be reset to a low resistance using a narrow pulse width, positive amplitude pulse. Likewise, if the nanocrystalline layers are deposited overlying the polycrystalline layers, a high resistance can be written with narrow pulse width, positive voltage pulses, and reset to a low resistance using a narrow pulse width, negative amplitude pulse.
    • 提供多层PrxCa1-xMnO3(PCMO)薄膜电容器和相关的沉积方法用于形成双极开关薄膜。 该方法包括:形成底部电极; 沉积纳米晶体PCMO层; 沉积多晶PCMO层; 形成具有双极开关特性的多层PCMO膜; 并且形成覆盖PCMO膜的顶部电极。 如果多晶层沉积在纳米晶层之上,则可以用窄脉冲宽度,负电压脉冲写入高电阻。 PCMO膜可以使用窄脉冲宽度,正幅度脉冲复位为低电阻。 同样,如果纳米晶层沉积在多晶层上,则可以用窄脉冲宽度,正电压脉冲写入高电阻,并使用窄脉冲宽度,负幅度脉冲将其复位为低电阻。