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레이저 상호 작용 기반 초망막 입체디스플레이 핵심소재 개발
Development of core-materials based on laser-material interaction for multi-dimensional beyond retina display

  • 과제명

    레이저 상호작용 기반 초망막 입체 디스플레이 핵심소재 개발

  • 주관연구기관

    한국과학기술원
    Korea Advanced Institute of Science and Technology

  • 연구책임자

    최성율

  • 참여연구자

    전덕영   김상욱   이건재   정연식   유경식   유승화  

  • 보고서유형

    1단계보고서

  • 발행국가

    대한민국

  • 언어

    한국어

  • 발행년월

    2015-11

  • 과제시작년도

    2015

  • 주관부처

    미래창조과학부
    KA

  • 사업 관리 기관

    한국연구재단

  • 등록번호

    TRKO201600001216

  • 과제고유번호

    1711027165

  • 키워드

    레이저-물질 상호작용,멀티스케일 시뮬레이션,초망막 입체디스플레이,준안정 소재,국부적 열처리,초열역학소재,분자설계,극한물성소재,차원제어소재laser-material interaction,multi-scale simulation,beyond-retina display,metastable materials,locally confined heat treatment,materials beyond thermodynamics,molecular design,extreme properties,dimensionality engineering

  • DB 구축일자

    2016-05-14

  • 초록 


    Ⅳ. Results of Planning Research
    (1) Completion of source patent pending about display core-materials and synthesis technology ...

    Ⅳ. Results of Planning Research
    (1) Completion of source patent pending about display core-materials and synthesis technology based on laser.
    ∙ 8 core patent applications on core-materials for display and synthesis technology based on laser-material interactions (one in international patent, seven in domestic patents) are pending by project research step.
    ∙ Patent 1 : Patent application on the block-copolymer aligned conjugated quantum dot. (US-62/246,219)
    ∙ Patent 2 : Patent application on the quantum dot nanostructure manufacturing method via laser-induced annealing and quantum dot pattern manufacturing method. (KR-10-2015-0143605)
    ∙ Patent 3 : Patent application on the block copolymer conjugated quantum dot precursor materials. (KR-10-2015-0143604)
    ∙ Patent 4 : Patent application on the high mobility organic semiconductor materials and electron transfer layers manufactured via laser-induced molecular orientation. (KR-10-2015-0143606)
    ∙ Patent 5 : Patent application on the fabrication of nano-pattern by laser-induced self-assembly of block copolymer on light absorption layer. (KR-10-2015-0115131)
    ∙ Patent 6 : Patent application on the silicene material and synthesis method based on phase separation effect of binary compounds by laser. (KR-10-2015-0143603)
    ∙ Patent 7 : Patent application on the electrode materials via photo thermochemical reduction by laser irradiation of conductive nanowire. (in progress)
    ∙ Patent 8 : Patent application on the protection of 2D structure and insulative material synthesis by laser. (KR-10-2015-0143602)

    (2) Laser material interaction evaluation research based on multiscale simulation.
    ∙ Molecular kinetics is performed for the proof of molecule alignment in direction of electric field through heating and slow cooling of polymer substrate when DC electric field is applied. Solid phase pyrimidine becomes liquid phase with mobility, freedom and alignment in the direction of electric field after applying electric field and heating. This result suggests that the experiment of molecule alignment in specific direction only scanned area by laser be possible if the external electric field applied and melt it by laser locally.
    ∙ The research of free energy estimation of liquid and solid phase binary system about various temperature and composition and calculation of binary phase diagram are an essential part to investigate the phase change possibility via the binary phase diagram calculation of binary system which 2 elements are combined. In this research, gold-silicon binary force field model and application technologies have been developed and binary phase diagram calculation method involved with nanoscale effects is being developed to investigate the phase separation possibility of laser-absorbed few nanometer depth.
    ∙ A basic model is developed to estimate the various patterns theoretically for the block copolymer conjugated quantum dot patterning which is necessary to develop the light emitting materials.
    ∙ For the sintering via laser and the development of electrode, preliminary modeling about the laser absorbance of the various material structure and the estimation of the light intensity of the various space are performed. This modeling can be applied to the investigation of the optimized laser injection conditions later on.

    (3) Discovery of phase separation of binary compounds by laser
    ∙ Separation phenomenon of solid phase crystal binary compounds into a single element in vertical direction by laser is discovered. Phase separation phenomena of polymer or metal alloy are random direction separation with several hundred nanometer or micro scale. Our research group discovered the phase separation phenomenon of homogeneous atomic scale thickness (~2nm) and conducts researches about new channel material synthesis to surpass the existing material properties via this new synthesis method.


    ...


  • 목차(Contents) 

    1. 표지 ... 1
    2. 제출문 ... 2
    3. 보고서 요약서 ... 3
    4. 요약문 ... 4
    5. SUMMARY ... 9
    6. CONTENTS ... 15
    7. 목차 ... 16
    8. 제1장 先기획연구 개요 ... 17
    9. 1. 先기획연구의 목적, 필요성 및 범위 ... 17...
    1. 표지 ... 1
    2. 제출문 ... 2
    3. 보고서 요약서 ... 3
    4. 요약문 ... 4
    5. SUMMARY ... 9
    6. CONTENTS ... 15
    7. 목차 ... 16
    8. 제1장 先기획연구 개요 ... 17
    9. 1. 先기획연구의 목적, 필요성 및 범위 ... 17
    10. 2. 대상 소재기술의 정의 및 개념 ... 25
    11. 제2장 기술개발 현황 및 조사·분석 ... 34
    12. 1. 국내·외 기술개발 현황 ... 34
    13. 2. 선행 연구 조사·분석 및 시사점 ... 62
    14. 제3장 기술개발 목표 및 내용 ... 75
    15. 1. 원천특허 포트폴리오 ... 75
    16. 2. 연구개발내용 및 범위 ... 81
    17. 3. 기존 기술과의 차별성 및 원천성 ... 87
    18. 4. 국가 소재 R&D 전략과의 연계성 및 부합성 ... 89
    19. 5. 先연구내용 및 결과 ... 91
    20. 제4장 先기획연구 활동 추진 내용 ... 191
    21. 1. 先기획연구 추진 체계 ... 191
    22. 2. 先기획연구 방법론 ... 193
    23. 3. 先기획연구 활동 내용 ... 195
    24. 제5장 기대성과 및 활용 계획 ... 207
    25. 1. 기대성과 ... 207
    26. 2. 상용화 예상 분야 ... 212
    27. 3. 경제성 분석 ... 215
    28. 제6장 참고문헌 ... 227
    29. 끝페이지 ... 236
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