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Graphitic Carbon Nitride Catalyzes the Reduction of the Azo Bond by Hydrazine under Visible Light

Poster on Graphitic Carbon Nitride Catalyzes the Reduction of the Azo Bond by Hydrazine Under Visible Light
Publication Date
Authors
Author Name
Glory Ollordaa
Author Organization
Prairie View A&M University
Author Name
Yingchun Li
Author Organization
Prairie View A&M University
Author Name
Yufeng Quan
Author Organization
Texas A&M University
Author Name
Makobi Okolie
Author Organization
Prairie View A&M University
Author Name
Gopal Ramidi
Author Organization
Texas A&M University
Author Name
Xin Yan
Author Organization
Texas A&M University
Author Name
Qingsheng Wang
Author Organization
Texas A&M University

Graphitic carbon nitride is a semiconducting material of a graphite-like 2D layered structure. It is well known for its photocatalytic properties, which can be exploited for solar-light-driven water splitting and degradation of organic pollutants. Here, we report its capabilities of catalyzing the reduction of the azo bond by hydrazine to two amines under visible light. This photocatalytic reaction provides a novel, appealing way to reduce azo dye wastes as pollutants other than degradation. With this method, the azo dye wastes can be photochemically converted to amines, which can be used as precursors for new azo dyes

Field of Interest
Sustainable Chemistry
Catalysis
Materials Science
Link
https://www.mdpi.com/2079-4991/14/17/1402
Attachment
glory-ollordaa_poster-presentation_1.pdf
Source
Prairie View A&M University, Texas
Keywords
sustainability
Catalysis
Biodegradation
Additional Guidance
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