Molecular Memories That Survive Silicon Device Processing and Real-World Operation

Author:

Liu Zhiming12,Yasseri Amir A.12,Lindsey Jonathan S.12,Bocian David F.12

Affiliation:

1. Department of Chemistry, University of California, Riverside, CA 92521–0403, USA.

2. Department of Chemistry, North Carolina State University, Raleigh, NC27695–8204, USA.

Abstract

If molecular components are to be used as functional elements in place of the semiconductor-based devices present in conventional microcircuitry, they must compete with semiconductors under the extreme conditions required for processing and operating a practical device. Herein, we demonstrate that porphyrin-based molecules bound to Si(100), which exhibit redox behavior useful for information storage, can meet this challenge. These molecular media in an inert atmosphere are stable under extremes of temperature (400°C) for extended periods (approaching 1 hour) and do not degrade under large numbers of read-write cycles (10 12 ).

Publisher

American Association for the Advancement of Science (AAAS)

Subject

Multidisciplinary

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5. The requirement for electronic components to be stable at elevated operating temperatures stems from the facts that (i) heat dissipation in current chips causes operating temperatures to reach as high as 85°Cand (ii) these components must function in harsh external environments with extremes in temperature. The latter requirement prevails regardless of whether components can be designed wherein the intrinsic heat dissipated is small during device operation.

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