A close look at molecular self-assembly with the transmission electron microscope
Molecular self-assembly is pervasive in the formation of living and synthetic materials.
Knowledge gained from research into the principles of molecular self-assembly drives …
Knowledge gained from research into the principles of molecular self-assembly drives …
Research progress of metal–organic frameworks-molecularly imprinted polymers for specific recognition
W Guo, Z Jing, Q Du - Microchemical Journal, 2023 - Elsevier
Specific recognition is the most promising property of molecularly imprinted polymers (MIPs).
The development of high-performance specific sensors is a promising technology for …
The development of high-performance specific sensors is a promising technology for …
Characterization of metal-organic frameworks by transmission electron microscopy
J Zhang, N Cheng, B Ge - Advances in Physics: X, 2022 - Taylor & Francis
To address the increasing energy consumption and serious environmental problems, it is
critical to develop efficient and clean energy conversion and storage devices. Among …
critical to develop efficient and clean energy conversion and storage devices. Among …
Cryogenic electron microscopy for energy materials
Conspectus The development of clean energy generation, transmission, and distribution
technology, for example, high energy density batteries and high efficiency solar cells, is …
technology, for example, high energy density batteries and high efficiency solar cells, is …
Rapid generation of metal–organic framework phase diagrams by high-throughput transmission electron microscopy
Metal–organic frameworks (MOFs) constructed from Zr6 nodes and tetratopic carboxylate
linkers display high structural diversity and complexity in which various crystal topologies …
linkers display high structural diversity and complexity in which various crystal topologies …
Research progress on metal–organic frameworks by advanced transmission electron microscopy
Metal–organic frameworks (MOFs), composed of metal nodes and inorganic linkers, are
promising for a wide range of applications due to their unique periodic frameworks …
promising for a wide range of applications due to their unique periodic frameworks …
Recent developments toward integrated metabolomics technologies (UHPLC-MS-SPE-NMR and MicroED) for higher-throughput confident metabolite identifications
Metabolomics has emerged as a powerful discipline to study complex biological systems
from a small molecule perspective. The success of metabolomics hinges upon reliable …
from a small molecule perspective. The success of metabolomics hinges upon reliable …
Unravelling nonclassical beam damage mechanisms in metal-organic frameworks by low-dose electron microscopy
X Xu, L Xia, C Zheng, Y Liu, D Yu, J Li, S Zhong… - Nature …, 2025 - nature.com
Recent advances in direct electron detectors and low-dose imaging techniques have
opened up captivating possibilities for real-space visualization of radiation-induced …
opened up captivating possibilities for real-space visualization of radiation-induced …
Three-dimensional electron diffraction: A powerful structural characterization technique for crystal engineering
Understanding crystal structures and behaviors is crucial for constructing and engineering
crystalline materials with various properties and functions. Recent advancement in three …
crystalline materials with various properties and functions. Recent advancement in three …
Advances and applications of microcrystal electron diffraction (MicroED)
A Haymaker, BL Nannenga - Current Opinion in Structural Biology, 2024 - Elsevier
Microcrystal electron diffraction, commonly referred to as MicroED, has become a powerful
tool for high-resolution structure determination. The method makes use of cryogenic …
tool for high-resolution structure determination. The method makes use of cryogenic …