Zhaofei Chai scite author profile

Although the mechanism of mechanoluminescent (ML) luminogens has been gradually improved, its practical application is severely limited by the randomness of crystal collapse. Some additional groups are utilized to help the molecule build a new equilibrium of orderly molecular arrangement after the force stimuli. The relationship between pressure and ML intensity has been established based on devices fabricated by tPE-2-Th. Furthermore, the flexible and wearable ML device demonstrates potential applications in communications, information storage, and health care.

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Mechanoluminescence or Room‐Temperature Phosphorescence: Molecular Packing‐Dependent Emission Response

Wang

et al. 2019

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Mechanoluminescence (ML) and room‐temperature photophosphorescence (RTP) were achieved in polymorphisms of a triphenylamine derivative with ortho‐substitution. This molecular packing‐dependent emission afforded crucial information to deeply understand the intrinsic mechanism of different emission forms and the possible packing–function relationship. With the incorporation of solid‐state 13C NMR spectra of single crystals, as well as the analysis of crystal structures, the preferred packing modes for ML and/or RTP were investigated in detail, which can guide the reasonable design of organic molecules with special light‐emission properties.

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Visualizing Proteins in Human Cells at Near‐Physiological Concentrations with Sensitive ¹⁹F NMR Chemical Tags

Chai

Cheng

et al. 2023

Angew Chem Int Ed

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In‐cell NMR spectroscopy is an effective tool for observing proteins at atomic resolution in their native cellular environment. However, its utility is limited by its low sensitivity and the extensive line broadening caused by nonspecific interactions in the cells, which is even more pronounced in human cells due to the difficulty of overexpressing or delivering high concentrations of isotopically labeled proteins. Here, we present a high‐sensitivity tag (wPSP‐6F) containing two trifluoromethyl groups that can efficiently label globular proteins with molecular weights in the 6–40 kDa range under mild conditions. This tag allowed us to detect globular proteins in human cells at concentrations as low as 1.0 μM, which would not have been achievable with 15N or 3‐fluorotyrosine labeling. Moreover, we detected conformational changes and interactions of proteins in the cellular environment. The new sensitive 19F NMR tag may significantly expand the scope of protein NMR in human cells.

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Zhaofei Chai

Abnormal room temperature phosphorescence of purely organic boron-containing compounds: the relationship between the emissive behaviorand the molecular packing, and the potential related applications

Heartbeat-Sensing Mechanoluminescent Device Based on a Quantitative Relationship between Pressure and Emissive Intensity

Mechanoluminescence or Room‐Temperature Phosphorescence: Molecular Packing‐Dependent Emission Response

Visualizing Proteins in Human Cells at Near‐Physiological Concentrations with Sensitive ¹⁹F NMR Chemical Tags

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Zhaofei Chai

Abnormal room temperature phosphorescence of purely organic boron-containing compounds: the relationship between the emissive behaviorand the molecular packing, and the potential related applications

Heartbeat-Sensing Mechanoluminescent Device Based on a Quantitative Relationship between Pressure and Emissive Intensity

Mechanoluminescence or Room‐Temperature Phosphorescence: Molecular Packing‐Dependent Emission Response

Visualizing Proteins in Human Cells at Near‐Physiological Concentrations with Sensitive 19F NMR Chemical Tags

Contact Info

Product

Resources

About

Visualizing Proteins in Human Cells at Near‐Physiological Concentrations with Sensitive ¹⁹F NMR Chemical Tags