局部 pH 值的振荡可逆转 H2O2 中的银微电机

IF 3.1 Q2 CHEMISTRY, MULTIDISCIPLINARY ChemSystemsChem Pub Date : 2024-09-09 DOI:10.1002/syst.202400046
Xianghong Liu, Yixin Peng, Zuyao Yan, Dezhou Cao, Shifang Duan, Wei Wang
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引用次数: 0

摘要

众所周知,胶体粒子表面的不对称化学反应可推动粒子定向运动。这种化学微电机的动力学对其局部化学环境非常敏感,而局部化学环境也会随着电机表面的反应而不断变化。马达动力学与局部环境之间的这种双向耦合可能会导致复杂的非线性行为。举例来说,我们报告了 Janus Ag 微球在过氧化氢(H2O2)中自我推进时,会自发地两次或多次逆转运动方向。我们假设,Ag 和 H2O2 之间的两种截然不同的化学反应驱动微马达朝相反的方向运动,而哪种反应占主导地位取决于局部 pH 值。有趣的是,银微电机附近的局部 pH 值会在 H2O2 中自发摆动,这可能是由于银和 H2O2 之间的反应动力学与化学物种的扩散之间存在复杂的相互作用。因此,对 pH 值敏感的银微电机会根据这些 pH 值振荡而逆转运动方向。这项研究介绍了一种调节微电机速度和方向性的新机制,凸显了银微电机在化学传感方面的潜力,并为化学动力学与微电机动力学之间的相互作用提供了新的启示。
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Oscillations of the Local pH Reverses Silver Micromotors in H2O2

Asymmetric chemical reactions on the surfaces of colloidal particles are known to propel them into directional motion. The dynamics of such chemical micromotors are sensitive to their local chemical environments, which also continually evolve with the reactions on motor surfaces. This two-way coupling between the motor dynamics and the local environment may result in complex nonlinear behaviors. As an example, we report that Janus Ag microspheres, which self-propel in hydrogen peroxide (H2O2), spontaneously reverse their direction of motion two or more times. We hypothesize that two distinct chemical reactions between Ag and H2O2 drive the micromotor in opposite directions, and which reaction dominates depends on the local pH. Interestingly, the local pH near a Ag micromotor oscillates spontaneously in H2O2, likely due to a complex interplay between the kinetics of the reaction between Ag and H2O2 and the diffusion of chemical species. Consequently, the pH-sensitive Ag micromotor reverses its direction of motion in response to these pH oscillations. This study introduces a new mechanism for regulating the speed and directionality of micromotors, highlights the potential of Ag micromotors in chemical sensing, and sheds new light on the interplay between chemical kinetics and micromotor dynamics.

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