Elsevier,

Current Opinion in Green and Sustainable Chemistry, Volume 13, October 2018, Pages 130-136.

Advancing goals 9 and 12, this article proposes the tools required by sustainable green chemisty to bridge the gap between technical feasibility and efficiency, and social preferences and values.
Elsevier,

Current Opinion in Green and Sustainable Chemistry, Volume 13, October 2018, Pages 158-163.

This article contributes to goals 2 and 9 by detailing the importance of crop protection chemicals and the role of green and sustainable chemistry in their development.
Elsevier,

Current Opinion in Green and Sustainable Chemistry, Volume 13, October 2018, Pages 146-149.

Advancing goals 9 and 12, this article argues that, if chemistry is to contribute effectively to achieving the SDGs, we need to change the way that things are done at both ends of the chemical supply chain.
Addressing goals 9 and 12, this article explores the sustainabiity commitments and key performance indictors (KPIs) implemented by Roquette, a global leader in plant-based ingredients.
Elsevier,

Current Opinion in Green and Sustainable Chemistry, Volume 13, October 2018, Pages 154-157.

 

To advance goals 9 and 12, this article reviews Chilean policies on sustainability, as well as academic efforts related to green chemistry.
This article contributes to goals 9 and 12 by examining the role of sustainable chemistry in advancing enviornmental innvoation in the cosmetics industry.
Elsevier,

Current Opinion in Green and Sustainable Chemistry, Volume 13, October 2018, Pages 150-153.

This article advances goals 9 and 12 by arguing that it is difficult, if not impossible, to achieve sustainability without transforming the fundamental chemistry that comprises the material and energy basis of our society and economy.
Elsevier,

A Comprehensive Guide to Solar Energy Systems With Special Focus on Photovoltaic Systems, 2018, Pages 81-107.

This chapter advances goals 9 and 7 by discussing sustainable solar energy generation and storage for rural sub-Saharan Africa in the context of the ‘circular economy’.
This chapter contributes to goals 7 and 9 by looking in-depthly at the various structures of nanocomposaite proton exchange membranes (PEMs) using carbon nanotubes, graphene, and graphene oxide as fillers.
To advance goals 7 and 9, this chapter examines the properties of Polyaniline-Graphene Nanocomposite and considers its suitability as an energy storage material.

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