Investigation of the impacts of selected nanotechnology products with view to their demand for raw materials and energy

In the study presented here qualitative and quantitative life-cycle considerations were employed to assess the potential material and energy savings that might be achieved through nanoenabled applications. Ten nanotechnology application fields with broad market coverage and immediate impact to eithe...

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Published inIOP conference series. Materials Science and Engineering Vol. 64; no. 1; p. 12028
Main Authors Möller, M, Diesner, M, Manhart, A, Küppers, P, Spieth-Achtnich, A, Pistner, C
Format Journal Article
LanguageEnglish
Published Bristol IOP Publishing 01.01.2014
Subjects
Electrochromism
Life cycle analysis
Nanotechnology
Neodymium
Organic materials
Permanent magnets
Photovoltaic cells
Pollutants
Raw materials
Safety glass
Solar cells
Toxicology
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Summary:In the study presented here qualitative and quantitative life-cycle considerations were employed to assess the potential material and energy savings that might be achieved through nanoenabled applications. Ten nanotechnology application fields with broad market coverage and immediate impact to either the generation of renewable energies or the use of critical resources were analyzed. Organic photovoltaic modules (solar cells that essentially consist of organic materials) and electronically dimmable windows (electrochromic laminated glass, which can be adjusted to conform to the ambient light conditions) as two very promising nano-enabled applications were quantitatively analyzed. Eight further products including neodymium magnets were evaluated on a qualitative basis. All assessments contain classical indicators such as energy efficiency, product carbon footprint, and resource consumption. In addition, pollutant aspects (exposure and toxicology) as well as other sustainability aspects (such as user benefits) were taken into account in the framework of a so-called "hot spot analysis". Furthermore, drivers behind the innovation as well as associated rebound effects were identified. The results highlight the importance of product specific analyses based on a life-cycle thinking approach.
ISSN:1757-8981
1757-899X
DOI:10.1088/1757-899X/64/1/012028