膜传输、分子机器和麦克斯韦恶魔

IF 3.1 Q2 CHEMISTRY, MULTIDISCIPLINARY
Dr. Stefan Borsley
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引用次数: 0

摘要

自发产生跨膜梯度是人工纳米技术的一个重要基础研究目标。产生这种梯度的主动传输过程直接反映了著名的麦克斯韦恶魔思想实验,即恶魔在两个腔室之间分隔粒子以产生非平衡态。尽管存在这些相似之处,但在有关人工膜传输的文献中却没有关于麦克斯韦恶魔的讨论。相比之下,非平衡人工分子马达的合理设计原则的出现可以直接追溯到这个著名的思想实验。这一观点强调了麦克斯韦妖与非平衡机器之间的联系,并认为理解这一 19 世纪思想实验的含义对于未来主动膜传输过程的发展至关重要。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Membrane Transport, Molecular Machines, and Maxwell's Demon

Membrane Transport, Molecular Machines, and Maxwell's Demon

The spontaneous generation of transmembrane gradients is an important fundamental research goal for artificial nanotechnology. The active transport processes that give rise to such gradients directly mirror the famous Maxwell's Demon thought experiment, where a Demon partitions particles between two chambers to generate a nonequilibrium state. Despite these similarities, discussion of Maxwell's Demon is absent in the literature on artificial membrane transport. By contrast, the emergence of rational design principles for nonequilibrium artificial molecular motors can trace its intellectual roots directly to this famous thought experiment. This perspective highlights the links between Maxwell's Demon and nonequilibrium machines, and argues that understanding the implications of this 19th century thought experiment is crucial to the future development of transmembrane active transport processes.

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