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Complete Defluorination of PFAS via An Accumulation-and-Destruction Approach
Xingaoyuan Xiong
Department of Biological and Chemical Engineering - Environmental Engineering - Ole Worms Allé 3
Research output
:
Book/anthology/dissertation/report
›
Ph.D. thesis
Overview
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Engineering
Input Power
100%
Pyrolysis
100%
Bubble Cavitation
100%
Energy Engineering
50%
Health Effect
50%
Effective Approach
50%
Bulk Solution
50%
Hot Spot
50%
Mild Condition
50%
Reduction Process
50%
Vaporization
50%
Advanced Oxidation Process
50%
Human Health
50%
Sulfonic Acid
50%
Fluorine Atom
50%
Electronegativity
50%
Functional Group
50%
Chemical Engineering
Pyrolysis
100%
Methanol
50%
Phenol
50%
Advanced Oxidation Process
50%
Scalability
50%
Carboxylic Acid
50%
Functional Group
50%
Chemistry
Defluorination
100%
Perfluorooctanoic Acid
71%
Cavitation
42%
Pyrolysis
28%
Methanol
14%
Carboxylic Acid
14%
Ultraviolet Irradiation
14%
Electronegativity
14%
Per- and Polyfluoroalkyl Substances
14%
Vaporization
14%
Advanced Oxidation Process
14%
Fluorine Atom
14%
Sulfonic Acid
14%
Phenol
14%
Material Science
Oxidation Reaction
100%