Precious metal recovery from electronic waste by a porous porphyrin polymer | Zendy

Yeongran Hong | Zendy; Damien Thirion | Zendy; S. Saravanan | Zendy; M.H. Yoo | Zendy; Hyuk Choi | Zendy; Hyun You Kim | Zendy; J. Fraser Stoddart | Zendy; Cafer T. Yavuz | Zendy

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Precious metal recovery from electronic waste by a porous porphyrin polymer

Author(s) -

Yeongran Hong,

Damien Thirion,

S. Saravanan,

M.H. Yoo,

Hyuk Choi,

Hyun You Kim,

J. Fraser Stoddart,

Cafer T. Yavuz

Publication year - 2020

Publication title -

proceedings of the national academy of sciences

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 5.011

H-Index - 771

eISSN - 1091-6490

pISSN - 0027-8424

DOI - 10.1073/pnas.2000606117

Subject(s) - precious metal , porphyrin , selectivity , waste management , electronic waste , materials science , hazard , health hazard , porosity , polymer , metal , environmental science , metallurgy , chemistry , organic chemistry , engineering , catalysis , composite material , medicine , environmental health

Significance Electronic waste, also called e-waste, is rapidly becoming a major industrial hazard because of the increased use of circuits and screens. With the right technology, however, this waste could become a sustainable source for precious metals. Such a solution requires selectivity toward the precious metals, as this characteristic is even more important than capacity. A porphyrin-based porous polymer with selective binding shows remarkable selectivity and a reductive mechanism, a combination which makes for record-high recycling of precious metals––particularly gold––from e-waste.

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