We consider a Brownian photomotor, namely, the directed motion of a nanoparticle in an asymmetric periodic potential under the action of periodic rectangular resonant laser pulses which cause charge redistribution in the particle. Based on the kinetics for the photoinduced electron redistribution between two or three energy levels of the particle, the time dependence of its potential energy is derived and the average directed velocity is calculated in the high-temperature approximation (when the spatial amplitude of potential energy fluctuations is small relative to the thermal energy). The thus developed theory of photoinduced molecular transport appears applicable not only to conventional dichotomous Brownian motors (with only two possible potential profiles) but also to a much wider variety of molecular nanomachines. The distinction between the realistic time dependence of the potential energy and that for a dichotomous process (a step function) is represented in terms of relaxation times (they can differ on the time intervals of the dichotomous process). As shown, a Brownian photomotor has the maximum average directed velocity at (i) large laser pulse intensities (resulting in short relaxation times on laser-on intervals) and (ii) excited state lifetimes long enough to permit efficient photoexcitation but still much shorter than laser-off intervals. A Brownian photomotor with optimized parameters is exemplified by a cylindrically shaped semiconductor nanocluster which moves directly along a polar substrate due to periodically photoinduced dipole moment (caused by the repetitive excited electron transitions to a non-resonant level of the nanocylinder surface impurity).
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14 August 2016
Research Article|
August 12 2016
Photoinduced diffusion molecular transport
Viktor M. Rozenbaum
;
Viktor M. Rozenbaum
a)
1Chuiko Institute of Surface Chemistry,
National Academy of Sciences of Ukraine
, Generala Naumova St. 17, Kiev 03164, Ukraine
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Marina L. Dekhtyar;
Marina L. Dekhtyar
2Institute of Organic Chemistry,
National Academy of Sciences of Ukraine
, Murmanskaya St. 5, Kiev 02094, Ukraine
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Sheng Hsien Lin;
Sheng Hsien Lin
3Department of Applied Chemistry,
National Chiao Tung University
, 1001 Ta Hsuen Road, Hsinchu 300, Taiwan
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Leonid I. Trakhtenberg
Leonid I. Trakhtenberg
a)
4Semenov Institute of Chemical Physics,
Russian Academy of Sciences
, Kosygin Street 4, Moscow 119991, Russia
and Moscow Institute of Physics and Technology (State University)
, Institutskii Per. 9, Dolgoprudnyi, Moscow Region 141700, Russia
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a)
Authors to whom correspondence should be addressed. Electronic addresses: vik-roz@mail.ru and litrakh@gmail.com.
J. Chem. Phys. 145, 064110 (2016)
Article history
Received:
April 25 2016
Accepted:
July 26 2016
Citation
Viktor M. Rozenbaum, Marina L. Dekhtyar, Sheng Hsien Lin, Leonid I. Trakhtenberg; Photoinduced diffusion molecular transport. J. Chem. Phys. 14 August 2016; 145 (6): 064110. https://doi.org/10.1063/1.4960622
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