Pengfei Huang scite author profile

An environmentally friendly electrocatalytic protocol has been developed for dehydrogenative C-H/S-H cross-coupling. This method enabled C-S bond formation under catalyst- and oxidant-free conditions. Under undivided electrolysis conditions, various aryl/heteroaryl thiols and electron-rich arenes afforded the C-S bond-formation products in 24-99 % yield. A preliminary mechanistic study indicated that the generation of aryl radical cation intermediates is key to the success of this transformation.

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Huang

Dai

2003

Pattern Recognition

169

110

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Effective segmentation and classification for HCC biopsy images

Huang

Lai

2010

Pattern Recognition

129

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Electro‐Oxidative S−H/S−H Cross‐Coupling with Hydrogen Evolution: Facile Access to Unsymmetrical Disulfides

et al. 2018

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Sulfur is an essential element because it exists widely in proteins. The disulfide bond is an important moiety in many different types of significant organic molecules. A new approach for oxidant- and catalyst-free S-H/S-H cross-coupling, with hydrogen evolution, to construct unsymmetrical disulfides was developed. Under the conditions of an undivided cell at room temperature, a series of unsymmetrical disulfides were prepared with up to 87 % yield from the direct coupling of an aryl mercaptan and alkyl mercaptan. Gram-scale synthesis also highlights the synthetic utility of this electrochemical strategy.

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External oxidant-free electrooxidative [3 + 2] annulation between phenol and indole derivatives

et al. 2017

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Intermolecular [3 + 2] annulation is one of the most straightforward approaches to construct five membered heterocycles. However, it generally requires the use of functionalized substrates. An ideal reaction approach is to achieve dehydrogenative [3 + 2] annulation under oxidant-free conditions. Here we show an electrooxidative [3 + 2] annulation between phenols and N-acetylindoles under undivided electrolytic conditions. Neither external chemical oxidants nor metal catalysts are required to facilitate the dehydrogenation processes. This reaction protocol provides an environmentally friendly way for the selective synthesis of benzofuroindolines. Various N-acetylindoles bearing different C-3 and C-2 substituents are suitable in this electrochemical transformation, furnishing corresponding benzofuroindolines in up to 99% yield.

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Pengfei Huang

Electrocatalytic Oxidant‐Free Dehydrogenative C−H/S−H Cross‐Coupling

Image retrieval by texture similarity

Effective segmentation and classification for HCC biopsy images

Electro‐Oxidative S−H/S−H Cross‐Coupling with Hydrogen Evolution: Facile Access to Unsymmetrical Disulfides

External oxidant-free electrooxidative [3 + 2] annulation between phenol and indole derivatives

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