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Analog graphene chips build simpler circuits

Posted: 19 Oct 2010 ?? ?Print Version ?Bookmark and Share

Keywords:analog? grapheme? transistors?

Analog graphene transistors that can amplify like p-type and n-type silicon transistors, and also exploit the ambipolar ability of graphene in a novel frequency-multiplication mode have been demonstrated by researchers from Rice University.

Post-silicon era transistors fabricated from sheets of pure carbongrapheneare pioneering a new paradigm for digital circuitry, but what about analog circuits? Now Rice University researchers have demonstrated analog graphene transistors that can not only amplify like p-type and n-type silicon transistors, but can also exploit the ambipolar ability of graphene in a novel frequency-multiplication mode.

The Rice researchers demonstrated how such triple-mode graphene transistors can be used to build simpler phase-shift keying and frequency-shift keying circuitry.

Silicon FETs are called unipolar, because they only use one charge carriereither electrons or holesdepending on whether they are n- or p-type. On the other hand, carbon ambipolar transistors, like those constructed from graphene, can conduct both electrons and holes, depending upon whether a positive or negative voltage is applied. As a result, novel analog circuits can be constructed that amplify using both types of carriers, depending on whether the input signal is above or below the gate's bias voltage, according to the researchers.

Three-mode transistors, according to Rice University, permit simpler circuits to be constructed, potentially shrinking the size and complexity of common analog functions when using graphene transistors. To prove the concept, the Rice University researchers constructed circuits in common-source, common-drain, and frequency-multiplication modes, including modulation schemes for phase-shift and frequency-shift keying.

The demonstrations were carried out by professor Kartik Mohanram in collaboration with professor Alexander Balandin at the University of California-Riverside, and doctoral candidates Xuebei Yang (Rice) and Guanxiong Liu (UC Riverside).

Funding for the project was provided by the National Science Foundation and the DARPA-Semiconductor Research Corporation's Focus Center Research Program.

- R. Colin Johnson
EE Times





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