The relation between scientific and technological knowledge in emerging fields: evidence from DNA Nanoscience and DNA Nanotechnology.

Onderzoeksoutput: Bijdrage aan congresPaperAcademic

Uittreksel

To better understand the relationship and interaction between scientific knowledge and technological knowledge, previous studies mainly focused on observing similarities between these two domains. This paper aims to extend our understanding of this relationship by first looking at the interaction between these domains based on the stylised views of science-push and technology-pull, and then detect their similarities, differences, and potential complementarities
based on the evolution of their knowledge content. We employed a novel method, called the concept approach for selecting publications and patents in an emerging knowledge field, namely DNA Nanoscience/Nanotechnology, then performed the co-occurrence of terms. Our results not only show that both elements of the stylised ‘science push’ and ‘technology pull’ view can be
recognised, but also suggest that co-evolution plays a much more prominent role.

Congres

Congres17th Congress of the International Joseph A. Schumpeter Society
Verkorte titelISS 2018
LandZuid-Korea
StadSeoul
Periode2/07/184/07/18
Internet adres

Vingerafdruk

Technological knowledge
Scientific knowledge
Interaction
Nanotechnology
Pull
Patents
Complementarity
Coevolution

Trefwoorden

    Citeer dit

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    title = "The relation between scientific and technological knowledge in emerging fields: evidence from DNA Nanoscience and DNA Nanotechnology.",
    abstract = "To better understand the relationship and interaction between scientific knowledge and technological knowledge, previous studies mainly focused on observing similarities between these two domains. This paper aims to extend our understanding of this relationship by first looking at the interaction between these domains based on the stylised views of science-push and technology-pull, and then detect their similarities, differences, and potential complementaritiesbased on the evolution of their knowledge content. We employed a novel method, called the concept approach for selecting publications and patents in an emerging knowledge field, namely DNA Nanoscience/Nanotechnology, then performed the co-occurrence of terms. Our results not only show that both elements of the stylised ‘science push’ and ‘technology pull’ view can berecognised, but also suggest that co-evolution plays a much more prominent role.",
    keywords = "Science and technology, knowledge complementarity, text-mining",
    author = "L.H. La and R.N.A. Bekkers and Z.O. Nomaler",
    year = "2018",
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    note = "17th Congress of the International Joseph A. Schumpeter Society, ISS 2018 ; Conference date: 02-07-2018 Through 04-07-2018",
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    The relation between scientific and technological knowledge in emerging fields : evidence from DNA Nanoscience and DNA Nanotechnology. / La, L.H.; Bekkers, R.N.A.; Nomaler, Z.O.

    2018. Paper gepresenteerd op 17th Congress of the International Joseph A. Schumpeter Society, Seoul, Zuid-Korea.

    Onderzoeksoutput: Bijdrage aan congresPaperAcademic

    TY - CONF

    T1 - The relation between scientific and technological knowledge in emerging fields

    T2 - evidence from DNA Nanoscience and DNA Nanotechnology.

    AU - La,L.H.

    AU - Bekkers,R.N.A.

    AU - Nomaler,Z.O.

    PY - 2018/7/2

    Y1 - 2018/7/2

    N2 - To better understand the relationship and interaction between scientific knowledge and technological knowledge, previous studies mainly focused on observing similarities between these two domains. This paper aims to extend our understanding of this relationship by first looking at the interaction between these domains based on the stylised views of science-push and technology-pull, and then detect their similarities, differences, and potential complementaritiesbased on the evolution of their knowledge content. We employed a novel method, called the concept approach for selecting publications and patents in an emerging knowledge field, namely DNA Nanoscience/Nanotechnology, then performed the co-occurrence of terms. Our results not only show that both elements of the stylised ‘science push’ and ‘technology pull’ view can berecognised, but also suggest that co-evolution plays a much more prominent role.

    AB - To better understand the relationship and interaction between scientific knowledge and technological knowledge, previous studies mainly focused on observing similarities between these two domains. This paper aims to extend our understanding of this relationship by first looking at the interaction between these domains based on the stylised views of science-push and technology-pull, and then detect their similarities, differences, and potential complementaritiesbased on the evolution of their knowledge content. We employed a novel method, called the concept approach for selecting publications and patents in an emerging knowledge field, namely DNA Nanoscience/Nanotechnology, then performed the co-occurrence of terms. Our results not only show that both elements of the stylised ‘science push’ and ‘technology pull’ view can berecognised, but also suggest that co-evolution plays a much more prominent role.

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    La LH, Bekkers RNA, Nomaler ZO. The relation between scientific and technological knowledge in emerging fields: evidence from DNA Nanoscience and DNA Nanotechnology.. 2018. Paper gepresenteerd op 17th Congress of the International Joseph A. Schumpeter Society, Seoul, Zuid-Korea.