https://community.element14.com/learn/publications/w/documents/8129/first-graphene-integrated-circuiten-USTelligent Community 12https://community.element14.com/learn/publications/w/documents/8129/first-graphene-integrated-circuitThu, 07 Oct 2021 10:29:13 GMT93d5dcb4-84c2-446f-b2cb-99731719e767:f47e6400-66db-42ee-9ce4-9fc8776a4e1asquadMCUhttps://community.element14.com/learn/publications/w/documents/8129/first-graphene-integrated-circuit#commentsCurrent Revision posted to Documents by squadMCU on 10/7/2021 10:29:13 AM<br /> <div style="position:absolute;left:-10000px;top:0px;width:1px;height:1px;">BM researchers have built the first integrated circuit (IC) based on a graphene transistor—another step toward overcoming the limits of silicon and a potential path to flexible electronics.</div><div style="position:absolute;left:-10000px;top:0px;width:1px;height:1px;">The circuit, built on a wafer of silicon carbide, consists of field-effect transistors (FETs) made of graphene, a highly conductive chicken-wire-like arrangement of carbon that&#39;s a single atomic layer thick. The IC also includes metallic structures, such as on-chip inductors and the transistors&#39; sources and drains. The work is described in this week&#39;s issue of Science. Researchers say that graphene, which has the potential to make transistors that operate at terahertz speeds, could one day supplant silicon as the basis for computer chips.</div><div style="position:absolute;left:-10000px;top:0px;width:1px;height:1px;">Several groups have built transistors out of graphene; the IBM team, led by Phaedon Avouris at the Thomas J. Watson Research Center, demonstrated one last year that operated at 100 gigahertz—more than twice as fast as a silicon transistor of comparable dimensions. But as Keith Jenkins, one of the scientists involved in the new research, points out, &quot;a transistor by itself is no good unless you connect it to something.&quot;</div><p style="margin:0;"><a href="http://spectrum.ieee.org/image/1871417"><img alt="http://spectrum.ieee.org/image/1871417" class="jive-image" src="http://spectrum.ieee.org/image/1871417" /></a></p><p style="margin:0;padding:0px;">&nbsp;</p><p style="margin:0;">IBM researchers have built the first integrated circuit (IC) based on a graphene transistor—another step toward overcoming the limits of silicon and a potential path to flexible electronics.</p><p style="margin:0;padding:0px;">&nbsp;</p><p style="margin:0;">The circuit, built on a wafer of silicon carbide, consists of field-effect transistors (FETs) made of graphene, a highly conductive chicken-wire-like arrangement of carbon that&#39;s a single atomic layer thick. The IC also includes metallic structures, such as on-chip inductors and the transistors&#39; sources and drains. The work is described in this week&#39;s issue of Science. Researchers say that graphene, which has the potential to make transistors that operate at terahertz speeds, could one day supplant silicon as the basis for computer chips.</p><p style="margin:0;padding:0px;">&nbsp;</p><p style="margin:0;">Several groups have built transistors out of graphene; the IBM team, led by Phaedon Avouris at the Thomas J. Watson Research Center, demonstrated one last year that operated at 100 gigahertz—more than twice as fast as a silicon transistor of comparable dimensions. But as Keith Jenkins, one of the scientists involved in the new research, points out, &quot;a transistor by itself is no good unless you connect it to something.&quot;</p><div style="clear:both;"></div> <div style="font-size: 90%;">Tags: graphene, transistor, ic, integrated_circuit, electronics, fet</div>