Albert F. Lawrence scite author profile

The promise of new architectures and more cost-effective miniaturization has prompted interest in molecular and biomolecular electronics. Bioelectronics offers valuable near-term potential, because evolution and natural selection have optimized many biological molecules to perform tasks that are required for device applications. The light-transducing protein bacteriorhodopsin provides not only an efficient photonic material, but also a versatile template for device creation and optimization via both chemical modification and genetic engineering. We examine here the use of this protein as the active component in holographic associative memories as well as branched-photocycle three-dimensional optical memories. The associative memory is based on a Fourier transform optical loop and utilizes the real-time holographic properties of the protein thin films. The three-dimensional memory utilizes an unusual branching reaction that creates a long-lived photoproduct. By using a sequential multiphoton process, parallel write, read, and erase processes can be carried out without disturbing data outside of the doubly irradiated volume elements. The methods and procedures of prototyping these bioelectronic devices are discussed. We also examine current efforts to optimize the protein memory medium by using chemical and genetic methods.

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Transform-based backprojection for volume reconstruction of large format electron microscope tilt series

Lawrence

Bouwer

Perkins

et al. 2006

Journal of Structural Biology

102

116

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High-performance electron tomography of complex biological specimens

Fernández¹,

Lawrence²,

Roca³

et al. 2002

Journal of Structural Biology

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A spectroscopic, photocalorimetric, and theoretical investigation of the quantum efficiency of the primary event in bacteriorhodopsin

Birge¹,

Cooper²,

Lawrence³

et al. 1989

J. Am. Chem. Soc.

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Revised assignment of energy storage in the primary photochemical event in bacteriorhodopsin

Birge¹,

Cooper²,

Lawrence³

et al. 1991

J. Am. Chem. Soc.

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