A novel non-destructible readout molecular memory Academic Article uri icon

abstract

  • We describe briefly, the mechanism and characteristics of a versatile new photochromic molecule that is capable of performing as a medium for non-destructible high capacity readout molecular storage devices. This molecular memory consists of two different molecular components, chemically bonded together. It retains the photochromic and spectroscopic properties of each individual molecular component and the changes in the property of one component influence the fluorescence quantum yield of the other. The write form is a polar closed structure molecule that does not fluoresce. When transformed into the read form it exhibits an open structure, is non-polar and allows for intense fluorescence. The read form excited state is located at 660 nm, which is at lower energy than the excited state of the write form, therefore no erasing occurs while reading. Erasing is achieved by excitation at 400 nm, which is higher than 530 nm write energy. The write/read/erase spectra and mechanism have been measured in solution and in solid polymer, including PMMA matrices. 2003 Elsevier Science B.V. All rights reserved.

published proceedings

  • OPTICS COMMUNICATIONS

author list (cited authors)

  • Liang, Y. C., Dvornikov, A. S., & Rentzepis, P. M.

citation count

  • 32

publication date

  • July 2003