Garygangren: Created page with "== Citation == Facile hermetic TEM grid preparation for molecular imaging of hydrated biological samples at room temperature, Lingli Kong, Jianfang Liu, Meng Zhang, Zhuoyang Lu, Han Xue, Amy Ren, Jiankang Liu, Jinping Li, Wai Li Ling, Gang Ren, Nature Comm., (2023), 14, 5641. doi: 10.1038/s41467-023-41266-x == Abstract == The dynamics and structure of the liquid and vapor interface has remained elusive for decades due to the lack of an effective tool for directly visual..."

2024-11-12T08:45:09Z

Created page with "== Citation == Facile hermetic TEM grid preparation for molecular imaging of hydrated biological samples at room temperature, Lingli Kong, Jianfang Liu, Meng Zhang, Zhuoyang Lu, Han Xue, Amy Ren, Jiankang Liu, Jinping Li, Wai Li Ling, Gang Ren, Nature Comm., (2023), 14, 5641. doi: 10.1038/s41467-023-41266-x == Abstract == The dynamics and structure of the liquid and vapor interface has remained elusive for decades due to the lack of an effective tool for directly visual..."

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== Citation ==
Facile hermetic TEM grid preparation for molecular imaging of hydrated biological samples at room temperature, Lingli Kong, Jianfang Liu, Meng Zhang, Zhuoyang Lu, Han Xue, Amy Ren, Jiankang Liu, Jinping Li, Wai Li Ling, Gang Ren, Nature Comm., (2023), 14, 5641. doi: 10.1038/s41467-023-41266-x

== Abstract ==
The dynamics and structure of the liquid and vapor interface has remained elusive for decades due to the lack of an effective tool for directly visualization beyond micrometer resolution. Here, we designed a simple liquid-cell for encapsulating the liquid state of sodium for transmission electron microscopic (TEM) observation. The real-time dynamic structure of the liquid-vapor interface was imaged and videoed by TEM on the sample of electron irradiated sodium chloride (NaCl) crystals, a well-studied sample with low melting temperature and quantum super-shells of clusters. The nanometer resolution images exhibit the fine structures of the capillary waves, composed of first-time observed three zones of structures and features, i.e. flexible nanoscale fibers, nanoparticles/clusters, and a low-pressure area that sucks the nanoparticles from the liquid to the interface. Although the phenomenons were observed based on irradiated NaCl crystals, the similarities of the phenomenons to predictions suggest our real-time ovserved dynamic structure might be useful in validating long-debated theoretical models of the liquid-vapor interface, and enhancing our knowledge in understanding the non-equilibrium thermodynamics of the liquid-vapor interface to benefit future engineering designs in microfluidics.

== Keywords ==
liquid-cell TEM, environmental TEM, cell entry, virus-like particles, IPET

== Links ==
https://www.nature.com/articles/s41467-023-41266-x

== Related methods ==

== Comments ==

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