Anticipating technological breakthroughs : Using bibliographic coupling to explore the nanotubes paradigm
Identifieur interne : 000098 ( PascalFrancis/Corpus ); précédent : 000097; suivant : 000099Anticipating technological breakthroughs : Using bibliographic coupling to explore the nanotubes paradigm
Auteurs : Osmo Kuusi ; Martin MeyerSource :
- Scientometrics : (Print) [ 0138-9130 ] ; 2007.
Descripteurs français
- Pascal (Inist)
English descriptors
- KwdEn :
Abstract
There is general consensus that the field of nanotechnology will be very important in the future. An open question is, however, which technological approaches or paradigms will be important in the field. The paper assumes that the carbon nanotube will be a key element of an emerging technological paradigm in nanotechnology. This study employs a bibliometric method -bibliographic coupling - to identify important nanotubes-related 'leitbilder' - a concept meaning 'guiding images' that provide a basis for different professions and disciplines to work in the same direction. Until recently, bibliographic coupling has been applied rarely for purposes of research evaluation, not to mention technology foresight. Our case study seems to suggest that bibliographic coupling is particularly suitable for anticipating technological breakthroughs. Bibliographic coupling analysis of recent nanotube-related patents focused our attention to recent patents owned by Nantero Inc. Nantero's main focus is the development of NRAM - a high-density nonvolatile random access memory. The NRAM leitbild seems to be an important emerging leitbild. It connects technical opportunities and promising applications relating to the memories in devices such as cell phones, MP3 players, digital cameras, as well as applications in networking arena.
Notice en format standard (ISO 2709)
Pour connaître la documentation sur le format Inist Standard.
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Format Inist (serveur)
NO : | FRANCIS 08-0036797 INIST |
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ET : | Anticipating technological breakthroughs : Using bibliographic coupling to explore the nanotubes paradigm |
AU : | KUUSI (Osmo); MEYER (Martin); BRAUN (Tibor); MEYER (Martin) |
AF : | VATT Government Institute for Economic Research/Helsinki/Finlande (1 aut.); SPRU, University of Sussex/Brighton (England)/Royaume-Uni (2 aut.); Steunpunt O&O Indicatoren van de Vlaamse Gemeenschap, K.U. Leuven/Leuven/Belgique (2 aut.); Helsinki University of Technology, Institute of Strategy and International Business/Espoo/Finlande (2 aut.); Institute of Chemistry, Eötvös Loránd University/Budapest/Hongrie (1 aut.); SPRU, University of Sussex/Brighton/Royaume-Uni (2 aut.); Steunpunt O&O Indicatoren van de Vlaamse Gemeenschap, K.U. Leuven/Leuven/Belgique (2 aut.); Helsinki University of Technology, Institute of Strategy and International Business/Espoo/Finlande (2 aut.) |
DT : | Publication en série; Niveau analytique |
SO : | Scientometrics : (Print); ISSN 0138-9130; Coden SCNTDX; Pays-Bas; Da. 2007; Vol. 70; No. 3; Pp. 759-777; Bibl. 1 p.1/4 |
LA : | Anglais |
EA : | There is general consensus that the field of nanotechnology will be very important in the future. An open question is, however, which technological approaches or paradigms will be important in the field. The paper assumes that the carbon nanotube will be a key element of an emerging technological paradigm in nanotechnology. This study employs a bibliometric method -bibliographic coupling - to identify important nanotubes-related 'leitbilder' - a concept meaning 'guiding images' that provide a basis for different professions and disciplines to work in the same direction. Until recently, bibliographic coupling has been applied rarely for purposes of research evaluation, not to mention technology foresight. Our case study seems to suggest that bibliographic coupling is particularly suitable for anticipating technological breakthroughs. Bibliographic coupling analysis of recent nanotube-related patents focused our attention to recent patents owned by Nantero Inc. Nantero's main focus is the development of NRAM - a high-density nonvolatile random access memory. The NRAM leitbild seems to be an important emerging leitbild. It connects technical opportunities and promising applications relating to the memories in devices such as cell phones, MP3 players, digital cameras, as well as applications in networking arena. |
CC : | 790B02 |
FD : | Evaluation; Couplage bibliographique; Analyse bibliométrique; Domaine recherche; Paradigme; Brevet; Recherche scientifique; Nanotechnologie; Nanotube; Analyse cocitation; Mémoire accès direct; Leitbild; NRAM (Nanoscale Random Access Memory) |
ED : | Evaluation; Bibliographic coupling; Bibliometric analysis; Research field; Paradigm; Patents; Scientific research; Nanotechnology; Nanotube; Cocitation analysis; Random access memory |
SD : | Evaluación; Apareo bibliográfico; Análisis bibliométrico; Campo investigación; Paradigma; Patente; Investigación científica; Nanotecnología; Nanotubo; Análisis cocitacion; Memoria acceso directo |
LO : | INIST-19049.354000147152480110 |
ID : | 08-0036797 |
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<ET>Anticipating technological breakthroughs : Using bibliographic coupling to explore the nanotubes paradigm</ET>
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<AF>VATT Government Institute for Economic Research/Helsinki/Finlande (1 aut.); SPRU, University of Sussex/Brighton (England)/Royaume-Uni (2 aut.); Steunpunt O&O Indicatoren van de Vlaamse Gemeenschap, K.U. Leuven/Leuven/Belgique (2 aut.); Helsinki University of Technology, Institute of Strategy and International Business/Espoo/Finlande (2 aut.); Institute of Chemistry, Eötvös Loránd University/Budapest/Hongrie (1 aut.); SPRU, University of Sussex/Brighton/Royaume-Uni (2 aut.); Steunpunt O&O Indicatoren van de Vlaamse Gemeenschap, K.U. Leuven/Leuven/Belgique (2 aut.); Helsinki University of Technology, Institute of Strategy and International Business/Espoo/Finlande (2 aut.)</AF>
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<EA>There is general consensus that the field of nanotechnology will be very important in the future. An open question is, however, which technological approaches or paradigms will be important in the field. The paper assumes that the carbon nanotube will be a key element of an emerging technological paradigm in nanotechnology. This study employs a bibliometric method -bibliographic coupling - to identify important nanotubes-related 'leitbilder' - a concept meaning 'guiding images' that provide a basis for different professions and disciplines to work in the same direction. Until recently, bibliographic coupling has been applied rarely for purposes of research evaluation, not to mention technology foresight. Our case study seems to suggest that bibliographic coupling is particularly suitable for anticipating technological breakthroughs. Bibliographic coupling analysis of recent nanotube-related patents focused our attention to recent patents owned by Nantero Inc. Nantero's main focus is the development of NRAM - a high-density nonvolatile random access memory. The NRAM leitbild seems to be an important emerging leitbild. It connects technical opportunities and promising applications relating to the memories in devices such as cell phones, MP3 players, digital cameras, as well as applications in networking arena.</EA>
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