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1.发明授权Chemical sensor using chemically induced electron-hole production at a schottky barrier 失效化学传感器在肖特基势垒中使用化学诱导的电子空穴生成公开(公告)号:US07274082B2
公开(公告)日:2007-09-25
申请号:US11118189
申请日:2005-04-29
申请人: Eric W. McFarland , W. Henry Weinberg , Hermann Nienhaus , Howard S. Bergh , Brian Gergen , Arunava Mujumdar
发明人: Eric W. McFarland , W. Henry Weinberg , Hermann Nienhaus , Howard S. Bergh , Brian Gergen , Arunava Mujumdar
IPC分类号: H01L27/095 , H01L29/47 , H01L29/812 , H01L31/07 , H01L31/108 , H01L21/28 , H01L21/44
CPC分类号: G01N27/129 , H01L27/0814
摘要: Electron-hole production at a Schottky barrier has recently been observed experimentally as a result of chemical processes. This conversion of chemical energy to electronic energy may serve as a basic link between chemistry and electronics and offers the potential for generation of unique electronic signatures for chemical reactions and the creation of a new class of solid state chemical sensors. Detention of the following chemical species was established: hydrogen, deuterium, carbon monoxide, and molecular oxygen. The detector (1b) consists of a Schottky diode between an Si layer and an ultrathin metal layer with zero force electrical contacts.
摘要翻译: 近来,作为化学工艺的结果,在肖特基势垒中的电子孔生产近来被观察到。 将化学能转化为电子能量可以作为化学和电子学之间的基本联系,并为生成用于化学反应的独特电子签名和创建一类新型的固态化学传感器提供了潜力。 建立了以下化学物质的滞留:氢,氘,一氧化碳和分子氧。 检测器(1b)由Si层和超薄金属层之间的肖特基二极管组成,零电压接触。
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2.发明授权Chemical sensor using chemically induced electron-hole production at a schottky barrier 失效化学传感器在肖特基势垒中使用化学诱导的电子空穴生成公开(公告)号:US06903433B1
公开(公告)日:2005-06-07
申请号:US10170000
申请日:2000-01-19
申请人: Eric W. McFarland , Henry W. Weinberg , Hermann Nienhaus , Howard S. Bergh , Brian Gergen , Arunava Mujumdar
发明人: Eric W. McFarland , Henry W. Weinberg , Hermann Nienhaus , Howard S. Bergh , Brian Gergen , Arunava Mujumdar
IPC分类号: G01N27/00 , H01L21/31 , H01L21/469 , H01L27/08 , H01L27/095 , H01L29/47 , H01L29/812 , H01L31/07 , H01L31/108
CPC分类号: G01N27/129 , H01L27/0814
摘要: Electron-hole production at a Schottky barrier has recently been observed experimentally as a result of chemical processes. This conversion of chemical energy to electronic energy may serve as a basic link between chemistry and electronics and offers the potential for generation of unique electronic signatures for chemical reactions and the creation of a new class of solide state chemical sensors. Detection of the following chemical species was established: hydrogen, deuterium, carbon monoxide, molecular oxygen. The detector (1b) consists of a Schottky diode between an Si layer and an ultrathin metal layer with zero force electrical contacts.
摘要翻译: 近来,作为化学工艺的结果,在肖特基势垒中的电子孔生产近来被观察到。 将化学能转化为电子能源可以作为化学和电子学之间的基本联系,并为生成用于化学反应的独特的电子签名和创建一类新型的固态化学传感器提供了潜力。 建立了以下化学物质的检测:氢,氘,一氧化碳,分子氧。 检测器(1b)由Si层和超薄金属层之间的肖特基二极管组成,零电压接触。
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3.发明授权Chemical sensor using chemically induced electron-hole production at a schottky barrier 失效化学传感器在肖特基势垒中使用化学诱导的电子空穴生成公开(公告)号:US07385271B2
公开(公告)日:2008-06-10
申请号:US11119258
申请日:2005-04-29
申请人: Eric W. McFarland , Henry W. Weinberg , Hermann Nienhaus , Howard S. Bergh , Brian Gergen , Arunava Mujumdar
发明人: Eric W. McFarland , Henry W. Weinberg , Hermann Nienhaus , Howard S. Bergh , Brian Gergen , Arunava Mujumdar
IPC分类号: H01L31/00
CPC分类号: G01N27/129 , H01L27/0814
摘要: Electro-hole production at a Schottky barrier has recently been observed experimentally as a result of chemical processes. This conversion of chemical energy to electronic energy may serve as a basic link between chemistry and electronics and offers the potential for generation of unique electronic signatures for chemical reactions and the creation of a new class of solide state chemical sensors. Detection of the following chemical species was established: hydrogen, deuterium, carbon monoxide, molecular oxygen. The detector (1b) consists of a Schottky diode between an Si layer and an ultrathin metal layer with zero force electrical contacts.
摘要翻译: 近来,由于化学过程,实验观察到肖特基势垒的电孔产生。 将化学能转化为电子能源可以作为化学和电子学之间的基本联系,并为生成用于化学反应的独特的电子签名和创建一类新型的固态化学传感器提供了潜力。 建立了以下化学物质的检测:氢,氘,一氧化碳,分子氧。 检测器(1b)由Si层和超薄金属层之间的肖特基二极管组成,零电压接触。
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4.发明授权Chemical sensor using chemically induced electron-hole production at a Schottky barrier 失效化学传感器使用肖特基势垒处的化学诱导电子空穴生成公开(公告)号:US07391056B2
公开(公告)日:2008-06-24
申请号:US11237443
申请日:2005-09-28
申请人: Eric W. McFarland , Henry W. Weinberg , Hermann Nienhaus , Howard S. Bergh , Brian Gergen , Arunava Mujumdar
发明人: Eric W. McFarland , Henry W. Weinberg , Hermann Nienhaus , Howard S. Bergh , Brian Gergen , Arunava Mujumdar
IPC分类号: H01L299/04
CPC分类号: G01N27/129 , H01L27/0814
摘要: Electron-hole production at a Schottky barrier has recently been observed experimentally as a result of chemical processes. This conversion of chemical energy to electronic energy may serve as a basic link between chemistry and electronics and offers the potential for generation of unique electronic signatures for chemical reactions and the creation of a new class of solid state chemical sensors. Detection of the following chemical species was established: hydrogen, deuterium, carbon monoxide, molecular oxygen. The detector (1b) consists of a Schottky diode between an Si layer and an ultrathin metal layer with zero force electrical contacts.
摘要翻译: 近来,作为化学工艺的结果,在肖特基势垒中的电子孔生产近来被观察到。 将化学能转化为电子能量可以作为化学和电子学之间的基本联系,并为生成用于化学反应的独特电子签名和创建一类新型的固态化学传感器提供了潜力。 建立了以下化学物质的检测:氢,氘,一氧化碳,分子氧。 检测器(1b)由Si层和超薄金属层之间的肖特基二极管组成,零电压接触。
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5.发明授权Chemical sensor using chemically induced electron-hole production at a Schottky barrier 失效化学传感器使用肖特基势垒处的化学诱导电子空穴生成公开(公告)号:US07282778B2
公开(公告)日:2007-10-16
申请号:US11268436
申请日:2005-11-07
申请人: Eric W. McFarland , Henry W. Weinberg , Hermann Nienhaus , Howard S. Bergh , Brian Gergen , Arunava Mujumdar
发明人: Eric W. McFarland , Henry W. Weinberg , Hermann Nienhaus , Howard S. Bergh , Brian Gergen , Arunava Mujumdar
IPC分类号: H01L27/095 , H01L29/08 , H01L29/732 , H01L29/739 , H01L23/58 , H01L29/82 , H01L29/84
CPC分类号: G01N27/129 , H01L27/0814
摘要: Electron-hole production at a Schottky barrier has recently been observed experimentally as a result of chemical processes. This conversion of chemical energy to electronic energy may serve as a basic link between chemistry and electronics and offers the potential for generation of unique electronic signatures for chemical reactions and the creation of a new class of solid state chemical sensors. Detection of the following chemical species was established: hydrogen, deuterium, carbon monoxide, molecular oxygen. The detector (1b) consists of a Schottky diode between an Si layer and an ultrathin metal layer with zero force electrical contacts.
摘要翻译: 近来,作为化学工艺的结果,在肖特基势垒中的电子孔生产近来被观察到。 将化学能转化为电子能量可以作为化学和电子学之间的基本联系,并为生成用于化学反应的独特电子签名和创建一类新型的固态化学传感器提供了潜力。 建立了以下化学物质的检测:氢,氘,一氧化碳,分子氧。 检测器(1b)由Si层和超薄金属层之间的肖特基二极管组成,零电压接触。
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6.发明授权Chemical sensor using chemically induced electron-hole production at a schottky barrier 失效化学传感器在肖特基势垒中使用化学诱导的电子空穴生成公开(公告)号:US07057213B2
公开(公告)日:2006-06-06
申请号:US10846433
申请日:2004-05-14
申请人: Eric W. McFarland , Henry W. Weinberg , Hermann Nienhaus , Howard S. Bergh , Brian Gergen , Arunava Mujumdar
发明人: Eric W. McFarland , Henry W. Weinberg , Hermann Nienhaus , Howard S. Bergh , Brian Gergen , Arunava Mujumdar
IPC分类号: H01L29/74
CPC分类号: G01N27/129 , H01L27/0814
摘要: Electron-hole production at a Schottky barrier has recently been observed experimentally as a result of chemical processes. This conversion of chemical energy to electronic energy may serve as a basic link between chemistry and electronics and offers the potential for generation of unique electronic signatures for chemical reactions and the creation of a new class of solide state chemical sensors. Detection of the following chemical species was established: hydrogen, deuterium, carbon monoxide, molecular oxygen. The detector (1b) consists of a Schottky diode between an Si layer and an ultrathin metal layer with zero force electrical contacts.
摘要翻译: 近来,作为化学工艺的结果,在肖特基势垒中的电子孔生产近来被观察到。 将化学能转化为电子能源可以作为化学和电子学之间的基本联系,并为生成用于化学反应的独特的电子签名和创建一类新型的固态化学传感器提供了潜力。 建立了以下化学物质的检测:氢,氘,一氧化碳,分子氧。 检测器(1b)由Si层和超薄金属层之间的肖特基二极管组成,零电压接触。
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公开(公告)号:US06998693B2
公开(公告)日:2006-02-14
申请号:US10447603
申请日:2003-09-02
申请人: Eric W. McFarland , Henry W. Weinberg , Hermann Nienhaus , Howard S. Bergh , Brian Gergen , Arunava Mujumdar
发明人: Eric W. McFarland , Henry W. Weinberg , Hermann Nienhaus , Howard S. Bergh , Brian Gergen , Arunava Mujumdar
IPC分类号: H01L27/095
CPC分类号: G01N27/129 , H01L27/0814
摘要: Electron-hole production at a Schottky barrier has recently been observed experimentally as a result of chemical processes. This conversion of chemical energy to electronic energy may serve as a basic link between chemistry and electronics and offers the potential for generation of unique electronic signatures for chemical reactions and the creation of a new class of solide state chemical sensors. Detection of the following chemical species was established: hydrogen, deuterium, carbon monoxide, molecular oxygen. The detector (1b) consists of a Schottky diode between an Si layer and an ultrathin metal layer with zero force electrical contacts.
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8.发明申请Chemical sensor using chemically induced electron-hole production at a schottky barrier 失效化学传感器在肖特基势垒中使用化学诱导的电子空穴生成公开(公告)号:US20050199495A1
公开(公告)日:2005-09-15
申请号:US11119258
申请日:2005-04-29
申请人: Eric McFarland , Henry Weinberg , Hermann Nienhaus , Howard Bergh , Brian Gergen , Arunava Mujumdar
发明人: Eric McFarland , Henry Weinberg , Hermann Nienhaus , Howard Bergh , Brian Gergen , Arunava Mujumdar
IPC分类号: G01N27/00 , H01L21/31 , H01L21/469 , H01L27/08 , H01L27/095 , H01L29/47 , H01L29/812 , H01L31/07 , H01L31/108 , G01N27/26
CPC分类号: G01N27/129 , H01L27/0814
摘要: Electro-hole production at a Schottky barrier has recently been observed experimentally as a result of chemical processes. This conversion of chemical energy to electronic energy may serve as a basic link between chemistry and electronics and offers the potential for generation of unique electronic signatures for chemical reactions and the creation of a new class of solide state chemical sensors. Detection of the following chemical species was established: hydrogen, deuterion, carbon monoxide, molecular oxygen. The detector (1b) consists of a Schottky diode between an Si layer and an ultrathin metal layer with zero force electrical contacts.
摘要翻译: 近来,由于化学过程,实验观察到肖特基势垒的电孔产生。 将化学能转化为电子能源可以作为化学和电子学之间的基本联系,并为生成用于化学反应的独特的电子签名和创建一类新型的固态化学传感器提供了潜力。 建立了以下化学物质的检测:氢,氘,一氧化碳,分子氧。 检测器(1b)由Si层和超薄金属层之间的肖特基二极管组成,零电压接触。
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9.发明申请CHEMICAL SENSOR USING CHEMICALLY INDUCED ELECTRON-HOLE PRODUCTION AT A SCHOTTKY BARRIER 审中-公开化学传感器使用化学诱导的电子孔生产在肖特基巴公开(公告)号:US20070111520A1
公开(公告)日:2007-05-17
申请号:US11621375
申请日:2007-01-09
申请人: Eric McFarland , W. Weinberg , Hermann Nienhaus , Howard Bergh , Brian Gergen , Arunava Mujumdar
发明人: Eric McFarland , W. Weinberg , Hermann Nienhaus , Howard Bergh , Brian Gergen , Arunava Mujumdar
IPC分类号: H01L21/44
CPC分类号: G01N27/129 , H01L27/0814
摘要: Electron-hole production at a Schottky barrier has recently been observed experimentally as a result of chemical processes. This conversion of chemical energy to electronic energy may serve as a basic link between chemistry and electronics and offers the potential for generation of unique electronic signatures for chemical reactions and the creation of a new class of solid state chemical sensors. Detention of the following chemical species was established: hydrogen, deuterium, carbon monoxide, molecular oxygen. The detector (1b) consists of a Schottky diode between an Si layer and an ultrathin metal layer with zero force electrical contacts.
摘要翻译: 近来,作为化学工艺的结果,在肖特基势垒中的电子孔生产近来被观察到。 将化学能转化为电子能量可以作为化学和电子学之间的基本联系,并为生成用于化学反应的独特电子签名和创建一类新型的固态化学传感器提供了潜力。 建立了以下化学物质的滞留:氢,氘,一氧化碳,分子氧。 检测器(1b)由Si层和超薄金属层之间的肖特基二极管组成,零电压接触。
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10.发明申请Chemical sensor using chemically induced electron-hole production at a Schottky barrier 失效化学传感器使用肖特基势垒处的化学诱导电子空穴生成公开(公告)号:US20060033121A1
公开(公告)日:2006-02-16
申请号:US11237443
申请日:2005-09-28
申请人: Eric McFarland , Henry Weinberg , Hermann Nienhaus , Howard Bergh , Brian Gergen , Arunava Mujumdar
发明人: Eric McFarland , Henry Weinberg , Hermann Nienhaus , Howard Bergh , Brian Gergen , Arunava Mujumdar
IPC分类号: H01L31/111
CPC分类号: G01N27/129 , H01L27/0814
摘要: Electron-hole production at a Schottky barrier has recently been observed experimentally as a result of chemical processes. This conversion of chemical energy to electronic energy may serve as a basic link between chemistry and electronics and offers the potential for generation of unique electronic signatures for chemical reactions and the creation of a new class of solid state chemical sensors. Detection of the following chemical species was established: hydrogen, deuterium, carbon monoxide, molecular oxygen. The detector (1b) consists of a Schottky diode between an Si layer and an ultrathin metal layer with zero force electrical contacts.
摘要翻译: 近来,作为化学工艺的结果,在肖特基势垒中的电子孔生产近来被观察到。 将化学能转化为电子能量可以作为化学和电子学之间的基本联系,并为生成用于化学反应的独特电子签名和创建一类新型的固态化学传感器提供了潜力。 建立了以下化学物质的检测:氢,氘,一氧化碳,分子氧。 检测器(1b)由Si层和超薄金属层之间的肖特基二极管组成,零电压接触。
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