From biodiversity to catalytic diversity: how to control the reaction mechanism by the nature of metallophytes

Phytoextraction is widely used for the reclamation of degraded sites, particularly to remove trace metals from contaminated soils. Whereas this technique demonstrates several advantages, the biomass resulting from phytoextraction processes is highly enriched in metallic elements and constitutes ther...

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Veröffentlicht in:	Environmental science and pollution research international 2015-04, Vol.22 (8), p.5653-5666
Hauptverfasser:	Escande, Vincent, Olszewski, Tomasz K, Grison, Claude
Format:	Artikel
Sprache:	eng
Schlagworte:	Acids Alkenes Aquatic Pollution Atmospheric Protection/Air Quality Control/Air Pollution Biodegradation, Environmental Biodiversity Biomass Brassicaceae - metabolism Catalysis Catalysts Chemical industry Chemical Sciences Chemistry Combining Phytoextraction and Ecological Catalysis: an Environmental Cosmetics Cosmetics industry Earth and Environmental Science Ecological Ecotoxicology Environment Environmental Chemistry Environmental Health Esters Ethic and Economic Opportunity Green chemistry industry Metals Mining industry Nickel Nickel - analysis Nickel - metabolism odors Other phytoremediation Plants - metabolism Pollutants polluted soils Reagents Reclamation recycling Soil contamination Soil Pollutants - analysis Soil Pollutants - metabolism Soil pollution Trace metals Waste Water Technology wastes Water Management Water Pollution Control Zinc Zinc - analysis Zinc - metabolism
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creator	Escande, Vincent Olszewski, Tomasz K Grison, Claude
description	Phytoextraction is widely used for the reclamation of degraded sites, particularly to remove trace metals from contaminated soils. Whereas this technique demonstrates several advantages, the biomass resulting from phytoextraction processes is highly enriched in metallic elements and constitutes therefore a problematic waste. We show here that this biomass can be used for the preparation of novel polymetallic extracts, with high potential as catalysts or reagents in organic synthesis. This new concept of ecocatalysis constitutes an innovative recycling of metallic elements whose current known reserves could be exhausted in the coming decades. The ecocatalysts Eco-Zn and Eco-Ni prepared respectively from Zn and Ni hyperaccumulating plants display two distinct chemical reactivities, starting from the same substrates. Eco-Zn led to the formation of esters of commercial interest for the fragrance industry, following a hydro-acyloxy-addition reaction pathway. In contrast, Eco-Ni afforded chlorinated products thank to the hydrochlorination of alkenes. Both ecocatalysts allowed the synthesis of valuable products in high yields through methodologies in line with the spirit of sustainable chemistry.
doi_str_mv	10.1007/s11356-014-3483-6
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Whereas this technique demonstrates several advantages, the biomass resulting from phytoextraction processes is highly enriched in metallic elements and constitutes therefore a problematic waste. We show here that this biomass can be used for the preparation of novel polymetallic extracts, with high potential as catalysts or reagents in organic synthesis. This new concept of ecocatalysis constitutes an innovative recycling of metallic elements whose current known reserves could be exhausted in the coming decades. The ecocatalysts Eco-Zn and Eco-Ni prepared respectively from Zn and Ni hyperaccumulating plants display two distinct chemical reactivities, starting from the same substrates. Eco-Zn led to the formation of esters of commercial interest for the fragrance industry, following a hydro-acyloxy-addition reaction pathway. In contrast, Eco-Ni afforded chlorinated products thank to the hydrochlorination of alkenes. Both ecocatalysts allowed the synthesis of valuable products in high yields through methodologies in line with the spirit of sustainable chemistry.</description><subject>Acids</subject><subject>Alkenes</subject><subject>Aquatic Pollution</subject><subject>Atmospheric Protection/Air Quality Control/Air Pollution</subject><subject>Biodegradation, Environmental</subject><subject>Biodiversity</subject><subject>Biomass</subject><subject>Brassicaceae - metabolism</subject><subject>Catalysis</subject><subject>Catalysts</subject><subject>Chemical industry</subject><subject>Chemical Sciences</subject><subject>Chemistry</subject><subject>Combining Phytoextraction and Ecological Catalysis: an Environmental</subject><subject>Cosmetics</subject><subject>Cosmetics industry</subject><subject>Earth and Environmental Science</subject><subject>Ecological</subject><subject>Ecotoxicology</subject><subject>Environment</subject><subject>Environmental Chemistry</subject><subject>Environmental 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subjects	Acids Alkenes Aquatic Pollution Atmospheric Protection/Air Quality Control/Air Pollution Biodegradation, Environmental Biodiversity Biomass Brassicaceae - metabolism Catalysis Catalysts Chemical industry Chemical Sciences Chemistry Combining Phytoextraction and Ecological Catalysis: an Environmental Cosmetics Cosmetics industry Earth and Environmental Science Ecological Ecotoxicology Environment Environmental Chemistry Environmental Health Esters Ethic and Economic Opportunity Green chemistry industry Metals Mining industry Nickel Nickel - analysis Nickel - metabolism odors Other phytoremediation Plants - metabolism Pollutants polluted soils Reagents Reclamation recycling Soil contamination Soil Pollutants - analysis Soil Pollutants - metabolism Soil pollution Trace metals Waste Water Technology wastes Water Management Water Pollution Control Zinc Zinc - analysis Zinc - metabolism
title	From biodiversity to catalytic diversity: how to control the reaction mechanism by the nature of metallophytes
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