Journal
NANO ENERGY
Volume 74, Issue -, Pages -Publisher
ELSEVIER
DOI: 10.1016/j.nanoen.2020.104908
Keywords
3D printing; Triboelectric nanogenerator; Electro-Fenton process; Biomass-derived carbon material
Categories
Funding
- National Natural Science Foundation of China [51872076, U1804255]
- Project of Central Plains Science and Technology Innovation Leading Talents, Henan Province [194200510001]
- Program for Innovative Research Team of Henan Scientific Committee [CXTD2014033]
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By harvesting the ambient mechanical energy using a 3D printed elastic triboelectric nanogenerator (PE-TENG), a self-powered electro-Fenton (EF) system is integrated to sustainably remove methylene blue (MB) with the biomass-based carbon materials as cathode catalysts featuring distinct vesicle-like structure, high surface area, good superhydrophilicity and large defect degree. Here, the PE-TENG characteristic of resource efficiency, time saving, and design flexibility produces maximum power density of 1.95 W m(-2) and short-circuit current of 375 mu A, qualifying itself as a portable power to drive the EF system. With the continuous electricity generated by PETENG, the MB removal efficiency can reach up to 97.0% within 140 min. With a collection of compelling features, such as flexible design of PE-TENG, high removal efficiency for MB, wide availability of biomass-derived cathode catalyst, the present work provides various accesses to other 3D-printed self-powered EF system with flexible, shape-adaptive, energy-/cost-saving integration to restore green hills and blue waters.
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