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“One to Rule Them All”? – The Standardisation of Nanotechnologies
Published online by Cambridge University Press: 20 January 2017
Extract
Nanosciences and nanotechnologies are a field of blooming technological applications, developed or manufactured at the nanoscale (a billionth of a meter). At this scale, matter shows new and unexpected properties. These may significantly differ from one case to the other, which results in a great diversity of different industrial applications, and eventually in very heterogeneous end-user products. As a matter of fact, the generic dimension of nanotechnologies, understood as a platform or enabling technology, drives their diversity, and potentially affects almost every industrial sector.
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References
1 ISO uses the following working definition in the Business Plan of its technical committee TC229 (p. 3): “Nanotechnology is the application of scientific knowledge to control and utilize matter at the nanoscale, where size-related properties and phenomena can emerge. The nanoscale is the size range from approximately 1nm to 100 nm)”.
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10 ISO once defined what is a “technical norm”, see ISO/CEI 2/2004 on Standardisation and related activities.
11 Diana Bowman and Graeme Hodge, supra note 6, p. 26.
12 ISO/TC 229 Business Plan, p. 2, available on the Internet at<http://bit.ly/pennano> (last accessed on 8 July 2011).
13 Stefan Timmermans and Steven Epstein, supra note 8, p. 77.
14 Technical Reports – TR, Technical Specifications – TS, or Publicly Available Specifications – PAS.
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18 For example, in a directive from the EC.
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29 CEN/TC352, missions and business plan available on the Internet, <http://www.cen.eu/cen/Sectors/Sectors/Nanotechnologies/Pages/default.aspx> (last accessed on 8 July 2011).
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34 ISO/TC34 Business Plan, available on the Internet at <http://bit.ly/iso34> (last accessed on 8 July 2011), p. 27.
35 ISO/TC217 Business Plan, available on the Internet at <http://bit.ly/iso217> (last accessed on 8 July 2011).
36 Aurélie Delemarle, “Standards and market construction in nanotechnologies: TC 229”, Workshop Maastricht, op. cit., May 18th, 2010.
37 ISO, “ISO launches work on Nanotechnology Standards”, available on the Internet at <http://www.iso.org/iso/pressrelease.htm?refid=Ref980> (last accessed on 8 July 2011).
38 ISO/TC229 Business Plan current version is the 4th draft and was released on 12 January 2011.
39 IEC/TC113, “Nanotechnology Standardization for Electrical and Electronic Products and Systems in the Field of Nanotechnology”.
40 ISO/TC229 Business Plan, p. 7.
41 Except when there is clear demand and there is no existing committee with expertise in the area, see ISO/TC229 Business Plan, p. 1 and p. 6.
42 As ISO/TC229 Business Plan refers to the different generations of nanotechnologies as they are expected to occur, arguably, it might be that standards would adapt, possibly by making their scope more precise, to new situations (p. 4).
43 ISO/TC229 Business Plan, p. 5.
44 In extenso: “1. Support the sustainable and responsible development and global dissemination of these emerging technologies; 2. Facilitate global trade in nanotechnologies, nanotechnology products and nanotechnology enabled systems and products; 3. Support improvement in quality, safety, security, consumer and environmental protection, together with the rational use of natural resources in the context of nanotechnologies; 4. Promote good practice in the production, use and disposal of nanomaterials, nanotechnology products and nanotechnology enabled systems and products”. ISO/TC229 Business Plan, p. 7.
45 ISO/TC229 Business Plan, p. 1.
46 Released standards are available on the Internet at <http://bit.ly/tc229publ> (last accessed on 8 July 2011).
47 Most important is ISO/TS 27687:2008 on Terminology and definitions for nano-objects: Nanoparticle, nanofibre and nanoplate, see also ISO/TS 80004-1:2010 on Vocabulary (Part 1: Core terms).
48 Jaspers, Nico, “How to Avoid International Trade Conflicts”, 2 European Journal of Risk Regulation (2010), pp. 167–173.CrossRefGoogle Scholar
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51 However, it is unclear how ISO defines and applies democracy.
52 Ellen-Marie Forsberg, “Standardisation in the Field of Nanotechnology: Some Issues of Legitimacy”, Online First Science and Engineering Ethics, esp. p. 2.
53 A complete list of participants is available on the Internet at <http://bit.ly/tc229members> (last accessed on 8 July 2011).
54 Ellen-Marie Forsberg, “Standadisation in the Field of Nanotechnology”, supra note 52.
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56 These might be difficult to afford if one intends to gather all nanorelated standards. For instance, the most emblematic one (ISO/ TS 27687:2008, Terminology and definitions for nano-objects – Nanoparticle, nanofibre and nanoplate) costs about 45 €.
57 For example, see Friends of the Earth Australia report, FoEA, “Discussion paper on nanotechnology standardisation and nomenclature issues”, December 2008, available on the Internet at <http://bit.ly/foeanano> (last accessed on 8 July 2011). This paper expresses concerns about the firstly released standards of TC229.
58 ISO/TC229 Business Plan, p. 6.
59 With 15 P-members and 5 O-members.
60 With only 5 P-members total. See ISO/TC229 Business Plan, p. 6.
61 ISO/TC229 Business Plan, p. 4.
62 Such as those described by Rip and Von Amerom, who sometimes refer to “emerging irreversibilities”. See Rip, Arie and Von Amerom, Marloen (2009), “Emerging de facto Agendas Around Nanotechnology: Two Cases full of Contingencies, Lock-outs, and Lock-ins”, in Kaiser, Mario et al. (eds), Governing Future Technologies. Nanotechnology and the Rise of an Assessment Regime (Netherlands: Springer), Sociology of Science Yearbook, Vol. 27.Google Scholar
63 Stefan Timmermans and Steven Epstein, supra note 8, p. 85.
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