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그래핀 에어로젤 기반 나노복합재료 제조 및 응용
Fabrication and Applications of Graphene Aerogel Based Nanocomposite Materials

  • 사업명

    한국과학기술원운영경비

  • 과제명

    그래핀 에어로젤 기반 나노복합재료 제조 및 응용

  • 주관연구기관

    한국과학기술원
    Korea Advanced Institute of Science and Technology

  • 보고서유형

    최종보고서

  • 발행국가

    대한민국

  • 언어

    대한민국

  • 발행년월

    2015-12

  • 과제시작년도

    2015

  • 주관부처

    미래창조과학부
    Ministry of Science, ICT and Future Planning

  • 등록번호

    TRKO201600002188

  • 과제고유번호

    1711032540

  • DB 구축일자

    2016-06-04

  • DOI

    https://doi.org/10.23000/TRKO201600002188

  • 초록 


    1. Research Purpose
    Over the past several years, remarkable progress in fabricating 3D graphene structure has been achieved th...

    1. Research Purpose
    Over the past several years, remarkable progress in fabricating 3D graphene structure has been achieved through various strategies, such as chemical vapor deposition (CVD). However, the expensive and complex equipment involved in these synthetic procedures dramatically hamper large-scale production of these carbon-based aerogels for industrial applications. Recently, several other groups have developed a hydrothermal-combined-freeze drying technologies to fabricate graphene aerogel. This technology to fabricate 3D graphene structure is a low-cost, energy-saving, and environmentally friendly method to produce graphene aerogel on a large scale. Pore size, density, and properties of 3D graphene structure can be fine tuned by pre-drying and molecular functionalization. The 3D graphene structures prepared is anticipated to have innovative applications in water treatment (as sorbent to remove metal ions, dyes, and organic solvent from water) or stretchable conductor.
    The aim of this research is to develop scaleup production method(s) for highperformance graphene aerogel-based materials with controllable nanostructures, targeting at immediate applications for water treatment and for potential electronic applications. It is in line with two of the five priority areas, water resources and waste management, under the Abu Dhabi Environment Vision 2030, and one of the main thrusts outlined in the Abu Dhabi Economic Vision 2030 for the growth in “Pharmaceuticals, Biotechnology, & Life Sciences”. At the writing of this proposal, our counterpart of KUSTAR, prof. Kin Liao group, is actively engaged with Abu Dhabi National Energy Company (TAQA) and Abu Dhabi Water and Energy Authority (ADWEA) Research Center to explore potential collaboration on industry level application of the new technology for water treatment. In addition, the technologies developed in this project will have potential applications in other key industrial/technological areas such as petroleum (for instance, oil absorbent) and aerospace (for example, light-weight composites). In addition to the technological aspects, the project will also provide education opportunities for undergraduate and graduate students who are interested in conducting cutting-edge research in advanced materials and nanotechnology.


    ...


  • 목차(Contents) 

    1. 표지 ... 1
    2. 2015 Seed Money Project Final Report ... 2
    3. 1. Research Purpose ... 3
    4. 2. Research Target Using Progress Chart ... 3
    5. 3. Research Method ... 4
    6. 4. Research...
    1. 표지 ... 1
    2. 2015 Seed Money Project Final Report ... 2
    3. 1. Research Purpose ... 3
    4. 2. Research Target Using Progress Chart ... 3
    5. 3. Research Method ... 4
    6. 4. Research Results ... 5
    7. (1)Research results ... 5
    8. (2)Research achievements ... 9
    9. (3)Further research required ... 10
    10. 끝페이지 ... 10
  • 참고문헌

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    2. 논문(0)
    3. 특허(0)
    4. 보고서(0)

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