NANOTUBE-BASED SWITCHING ELEMENT
First Claim
1. A switching element, comprising:
- an input node;
an output node comprising an output electrode;
a nanotube channel element, in electrical communication with the input node, the channel element comprising a ribbon of nanotube fabric;
a control electrode disposed in relation to the nanotube channel element to form and unform an electrically conductive pathway between the nanotube channel element and the output node; and
wherein the control electrode is constructed and arranged so that when the electrically conductive pathway is unformed, and electrical stimulus applied to the control electrode is relatively large compared to electrical stimulus applied to the output node, the electrically conductive pathway is substantially undisturbed by electrical stimulus applied to the output node.
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Accused Products
Abstract
Nanotube-based switching elements and logic circuits. Under one aspect, a switching element includes an input node; an output node; a nanotube channel element comprising a ribbon of nanotube fabric; and a control electrode disposed in relation to the nanotube channel element to form an electrically conductive channel between the input node and the output node, wherein the electrically conductive channel at least includes the nanotube channel element. Under another aspect, a switching element includes an input node; an output node; a nanotube channel element comprising at least one electrically conductive nanotube, the nanotube being clamped at both ends by a clamping structure; and a control electrode disposed in relation to the nanotube channel element to form an electrically conductive channel between the input node and the output node, wherein the electrically conductive channel at least includes the nanotube channel element.
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Citations
14 Claims
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1. A switching element, comprising:
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an input node; an output node comprising an output electrode; a nanotube channel element, in electrical communication with the input node, the channel element comprising a ribbon of nanotube fabric; a control electrode disposed in relation to the nanotube channel element to form and unform an electrically conductive pathway between the nanotube channel element and the output node; and wherein the control electrode is constructed and arranged so that when the electrically conductive pathway is unformed, and electrical stimulus applied to the control electrode is relatively large compared to electrical stimulus applied to the output node, the electrically conductive pathway is substantially undisturbed by electrical stimulus applied to the output node.
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2. A switching element, comprising:
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an input node; an output node; a nanotube channel element in electrical communication with the input node, the channel element comprising at least one electrically conductive nanotube and clamped at both ends by a clamping structure; a control electrode disposed in relation to the nanotube channel element to form and unform an electrically conductive pathway between the nanotube channel element and the output node; and wherein the control electrode is constructed and arranged so that when the electrically conductive pathway is unformed, and electrical stimulus applied to the control electrode is relatively large compared to electrical stimulus applied to the output node, the electrically conductive pathway is substantially undisturbed by electrical stimulus applied to the output node. - View Dependent Claims (3)
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4. A logic circuit comprising:
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first and second switches, each switch comprising an input node, an output node, a control node, and a nanotube element; a logical input in electrical communication with the control node of the first and second switches; a logical output in electrical communication with the output node of the first and second switches; and a reference voltage in electrical communication with the input node of the first and second switches, wherein, in response to a logical input signal on the logical input, the first and second switches perform a logical operation on the logical input signal and provide a corresponding logical output signal on the logical output. - View Dependent Claims (5, 6, 7, 8, 9)
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10. A logic circuit comprising:
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first and second switches, each switch comprising an input node, an output node, and a porous nanotube fabric; a logical input in electrical communication with the first and second switches; and a logical output in electrical communication with the first and second switches, wherein, in response to a logical input signal on the logical input, the first and second switches perform a logical operation on the logical input signal and provide a corresponding logical output signal on the logical output. - View Dependent Claims (11, 12, 13, 14)
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Specification