CASI-F applied to critical issue analysis and assessment of Li-ion battery technology solutions

    Research output: Contribution to conferenceConference AbstractScientificpeer-review

    Abstract

    Due to climate change as well as the growing capacity of new storage media for electric power, electric mobility represents a future vision for individual mobility on an environmentally-friendly basis. We present a way to develop a future vision about this kind of an economy and the elements its progression requires: We assess critical issues for electric engine system development and prioritize those critical issues, such as barriers, drivers, opportunities and threats from a set of selected innovations and development trends.
    Original languageEnglish
    Publication statusPublished - 2017
    MoE publication typeNot Eligible
    Event5th International Conference on Nanotechnology and Materials Science - Dubai, United Arab Emirates
    Duration: 16 Oct 201718 Oct 2017

    Conference

    Conference5th International Conference on Nanotechnology and Materials Science
    CountryUnited Arab Emirates
    CityDubai
    Period16/10/1718/10/17

    Fingerprint

    Climate change
    Innovation
    Engines
    Lithium-ion batteries

    Cite this

    Naumanen, M., & Popper, R. (2017). CASI-F applied to critical issue analysis and assessment of Li-ion battery technology solutions. Abstract from 5th International Conference on Nanotechnology and Materials Science, Dubai, United Arab Emirates.
    Naumanen, Mika ; Popper, Rafael. / CASI-F applied to critical issue analysis and assessment of Li-ion battery technology solutions. Abstract from 5th International Conference on Nanotechnology and Materials Science, Dubai, United Arab Emirates.
    @conference{f270e09d158e4ad2a92aa22d13e936d1,
    title = "CASI-F applied to critical issue analysis and assessment of Li-ion battery technology solutions",
    abstract = "Due to climate change as well as the growing capacity of new storage media for electric power, electric mobility represents a future vision for individual mobility on an environmentally-friendly basis. We present a way to develop a future vision about this kind of an economy and the elements its progression requires: We assess critical issues for electric engine system development and prioritize those critical issues, such as barriers, drivers, opportunities and threats from a set of selected innovations and development trends.",
    author = "Mika Naumanen and Rafael Popper",
    year = "2017",
    language = "English",
    note = "5th International Conference on Nanotechnology and Materials Science ; Conference date: 16-10-2017 Through 18-10-2017",

    }

    Naumanen, M & Popper, R 2017, 'CASI-F applied to critical issue analysis and assessment of Li-ion battery technology solutions', 5th International Conference on Nanotechnology and Materials Science, Dubai, United Arab Emirates, 16/10/17 - 18/10/17.

    CASI-F applied to critical issue analysis and assessment of Li-ion battery technology solutions. / Naumanen, Mika; Popper, Rafael.

    2017. Abstract from 5th International Conference on Nanotechnology and Materials Science, Dubai, United Arab Emirates.

    Research output: Contribution to conferenceConference AbstractScientificpeer-review

    TY - CONF

    T1 - CASI-F applied to critical issue analysis and assessment of Li-ion battery technology solutions

    AU - Naumanen, Mika

    AU - Popper, Rafael

    PY - 2017

    Y1 - 2017

    N2 - Due to climate change as well as the growing capacity of new storage media for electric power, electric mobility represents a future vision for individual mobility on an environmentally-friendly basis. We present a way to develop a future vision about this kind of an economy and the elements its progression requires: We assess critical issues for electric engine system development and prioritize those critical issues, such as barriers, drivers, opportunities and threats from a set of selected innovations and development trends.

    AB - Due to climate change as well as the growing capacity of new storage media for electric power, electric mobility represents a future vision for individual mobility on an environmentally-friendly basis. We present a way to develop a future vision about this kind of an economy and the elements its progression requires: We assess critical issues for electric engine system development and prioritize those critical issues, such as barriers, drivers, opportunities and threats from a set of selected innovations and development trends.

    M3 - Conference Abstract

    ER -

    Naumanen M, Popper R. CASI-F applied to critical issue analysis and assessment of Li-ion battery technology solutions. 2017. Abstract from 5th International Conference on Nanotechnology and Materials Science, Dubai, United Arab Emirates.