Combined LCA and Green Metrics Approach for the Sustainability Assessment of an Organic Dye Synthesis on Lab Scale

Maria Laura Parisi; Maria Laura Parisi; Maria Laura Parisi; Alessio Dessì; Lorenzo Zani; Simone Maranghi; Simone Maranghi; Sanaz Mohammadpourasl; Sanaz Mohammadpourasl; Sanaz Mohammadpourasl; Massimo Calamante; Massimo Calamante; Alessandro Mordini; Alessandro Mordini; Riccardo Basosi; Riccardo Basosi; Riccardo Basosi; Gianna Reginato; Adalgisa Sinicropi; Adalgisa Sinicropi; Adalgisa Sinicropi

doi:10.3389/fchem.2020.00214

Frontiers in Chemistry (Mar 2020)

Combined LCA and Green Metrics Approach for the Sustainability Assessment of an Organic Dye Synthesis on Lab Scale

Maria Laura Parisi,
Maria Laura Parisi,
Maria Laura Parisi,
Alessio Dessì,
Lorenzo Zani,
Simone Maranghi,
Simone Maranghi,
Sanaz Mohammadpourasl,
Sanaz Mohammadpourasl,
Sanaz Mohammadpourasl,
Massimo Calamante,
Massimo Calamante,
Alessandro Mordini,
Alessandro Mordini,
Riccardo Basosi,
Riccardo Basosi,
Riccardo Basosi,
Gianna Reginato,
Adalgisa Sinicropi,
Adalgisa Sinicropi,
Adalgisa Sinicropi

Affiliations

Maria Laura Parisi: R2ES Lab, Department of Biotechnology, Chemistry and Pharmacy, University of Siena, Siena, Italy
Maria Laura Parisi: Center for Colloid and Surface Science-CSGI, Florence, Italy
Maria Laura Parisi: National Research Council, Institute for the Chemistry of OrganoMetallic Compounds (CNR-ICCOM), Florence, Italy
Alessio Dessì: National Research Council, Institute for the Chemistry of OrganoMetallic Compounds (CNR-ICCOM), Florence, Italy
Lorenzo Zani: National Research Council, Institute for the Chemistry of OrganoMetallic Compounds (CNR-ICCOM), Florence, Italy
Simone Maranghi: R2ES Lab, Department of Biotechnology, Chemistry and Pharmacy, University of Siena, Siena, Italy
Simone Maranghi: Center for Colloid and Surface Science-CSGI, Florence, Italy
Sanaz Mohammadpourasl: R2ES Lab, Department of Biotechnology, Chemistry and Pharmacy, University of Siena, Siena, Italy
Sanaz Mohammadpourasl: Center for Colloid and Surface Science-CSGI, Florence, Italy
Sanaz Mohammadpourasl: Department of Chemistry “U. Schiff”, University of Florence, Sesto Fiorentino, Italy
Massimo Calamante: National Research Council, Institute for the Chemistry of OrganoMetallic Compounds (CNR-ICCOM), Florence, Italy
Massimo Calamante: Department of Chemistry “U. Schiff”, University of Florence, Sesto Fiorentino, Italy
Alessandro Mordini: National Research Council, Institute for the Chemistry of OrganoMetallic Compounds (CNR-ICCOM), Florence, Italy
Alessandro Mordini: Department of Chemistry “U. Schiff”, University of Florence, Sesto Fiorentino, Italy
Riccardo Basosi: R2ES Lab, Department of Biotechnology, Chemistry and Pharmacy, University of Siena, Siena, Italy
Riccardo Basosi: Center for Colloid and Surface Science-CSGI, Florence, Italy
Riccardo Basosi: National Research Council, Institute for the Chemistry of OrganoMetallic Compounds (CNR-ICCOM), Florence, Italy
Gianna Reginato: National Research Council, Institute for the Chemistry of OrganoMetallic Compounds (CNR-ICCOM), Florence, Italy
Adalgisa Sinicropi: R2ES Lab, Department of Biotechnology, Chemistry and Pharmacy, University of Siena, Siena, Italy
Adalgisa Sinicropi: Center for Colloid and Surface Science-CSGI, Florence, Italy
Adalgisa Sinicropi: National Research Council, Institute for the Chemistry of OrganoMetallic Compounds (CNR-ICCOM), Florence, Italy

DOI: https://doi.org/10.3389/fchem.2020.00214
Journal volume & issue: Vol. 8

Abstract

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New generation photovoltaic devices have attracted much attention in the last decades since they can be efficiently manufactured employing abundant raw materials and with less-energy intensive processes. In this context, the use of powerful environmental assessment is pivotal to support the fine-tuning of solar cells fabrication and hit the target of manufacturing effective sustainable technological devices. In this work, a mass-based green metrics and life cycle assessment combined approach is applied to analyze the environmental performances of an innovative synthetic protocol for the preparation of organic dye TTZ5, which has been successfully proposed as sensitizer for manufacturing dye sensitized solar cells. The new synthetic strategy, which is based on the C-H activation process, has been compared with the previously reported synthesis employing classic Suzuki-Miyaura cross-coupling chemistry. Results highlight the contribution of direct energy consumption and purification operations in organic syntheses at lab scale. Furthermore, they demonstrate the usefulness of the environmental multifaceted analytic tool and the power of life cycle assessment to overcome the intrinsic less comprehensive nature of green metrics for the evaluation of organic synthetic protocols.

Published in Frontiers in Chemistry

ISSN: 2296-2646 (Online)
Publisher: Frontiers Media S.A.
Country of publisher: Switzerland
LCC subjects: Science: Chemistry
Website: http://journal.frontiersin.org/journal/chemistry

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