Evolutionary paths of change of emerging nanotechnological innovation systems: the case of ZnO nanostructures

This paper puts forward a quantitative approach aimed at the understanding of the evolutionary paths of change of emerging nanotechnological innovation systems. The empirical case of the newly emerging zinc oxide one-dimensional nanostructures is used. In line with other authors, ‘problems’ are visu...

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Veröffentlicht in:	Scientometrics 2013-06, Vol.95 (3), p.829-849
Hauptverfasser:	Ávila-Robinson, Alfonso, Miyazaki, Kumiko
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Sprache:	eng
Schlagworte:	Bibliometrics. Scientometrics Bibliometrics. Scientometrics. Evaluation Cocitation Computer Science Exact sciences and technology Information and communication sciences Information science. Documentation Information Storage and Retrieval Library and information science. General aspects Library Science Nanotechnology Scholarly communication Sciences and techniques of general use Visualization
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container_title	Scientometrics
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creator	Ávila-Robinson, Alfonso Miyazaki, Kumiko
description	This paper puts forward a quantitative approach aimed at the understanding of the evolutionary paths of change of emerging nanotechnological innovation systems. The empirical case of the newly emerging zinc oxide one-dimensional nanostructures is used. In line with other authors, ‘problems’ are visualized as those aspects guiding the dynamics of innovation systems. It is argued that the types of problems confronted by an innovation system, and in turn its dynamics of change, are imprinted on the nature of the underlying knowledge bases. The latter is operationalized through the construction of co-citation networks from scientific publications. We endow these co-citation networks with directionality through the allocation of a particular problem, drawn from a ‘problem space’ for nanomaterials, to each network node. By analyzing the longitudinal, structural and cognitive changes undergone by these problem-attached networks, we attempt to infer the nature of the paths of change of emerging nanotechnological innovation systems. Overall, our results stress the evolutionary mechanisms underlying change in a specific N&N subfield. It is observed that the latter may exert significant influence on the innovative potentials of nanomaterials.
doi_str_mv	10.1007/s11192-012-0939-7
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subjects	Bibliometrics. Scientometrics Bibliometrics. Scientometrics. Evaluation Cocitation Computer Science Exact sciences and technology Information and communication sciences Information science. Documentation Information Storage and Retrieval Library and information science. General aspects Library Science Nanotechnology Scholarly communication Sciences and techniques of general use Visualization
title	Evolutionary paths of change of emerging nanotechnological innovation systems: the case of ZnO nanostructures
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