Mechanical Transmission of Rotational Motion between Molecular-Scale Gears
H.-H. Lin, A. Croy, R. Gutierrez, C. Joachim, G. Cuniberti
Abstract
Even in 2020, there's still some room at the bottom: The miniaturization of machines remains an important goal that attracts interest in many fields. In particular, making ultrasmall gears to transmit mechanical motion is a challenge, with molecular gears being the ultimate target. Motivated by recent experimental studies on molecule gears, the authors employ atomistic molecular dynamics simulations and a nearly-rigid-body model to obtain insights into the dynamics of both single gears and trains of them. A train of such gears exhibits three qualitatively different regimes of motion, depending on the magnitude of the applied torque.
Topics & Concepts
MiniaturizationTransmission (telecommunications)PhysicsGear trainRotation around a fixed axisDynamics (music)Motion (physics)Mechanical transmissionTrainClassical mechanicsMolecular dynamicsComputer scienceVibrationMechanicsTranslational motionMechanical engineeringRotational dynamicsMolecular motorRotation (mathematics)Mechanical systemGround motionTorqueSupramolecular Chemistry and ComplexesForce Microscopy Techniques and ApplicationsMechanical and Optical Resonators