컴퓨터 스크리닝을 이용한 재료 설계 : 인버스 디자인 방법
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Im, Jin-O
(화학시뮬레이션연구센터 한국화학연구원)
Gong, Gi-Jeong (화학시뮬레이션연구센터 한국화학연구원) Jang, Hyeon-Ju (화학시뮬레이션연구센터 한국화학연구원) |
| 1 | G. Ceder and K. Persson, "How Supercomputers Will Yield a Golden Age of Materials Science," Sci. Am., 309 [6] 36-40 (2013). DOI |
| 2 | http://www.whitehouse.gov/mgi |
| 3 | http://www.whitehouse.gov/blog/2015/02/06/its-timeopen-materials-science-data |
| 4 | http://nomad-repository.eu/cms/ |
| 5 | C. E. Wilmer, M. Leaf, C. Y. Lee, O. K. Farha, B. G. Hauser, J. T. Hupp and R. Q. Snurr, "Large-scale Screening of Hypothetical Metal-Organic Frameworks," Nat. Chem., 4 83-89 (2012). DOI |
| 6 | S. Curtarolo, G. L. W. Hart, M. B. Nardelli, N. Mingo, S.. Sanvito and O. Levy, "The High-throughput Highway to Computational Materials Design," Nat. Mat., 12 191-201 (2013). DOI |
| 7 | http://www.fiz-karlsruhe.de/icsd_web.html |
| 8 | K. Rajan, "Materials Informatics," Mater. Today, 8 38-45 (2005). |
| 9 | P. Dey, J. Bible, S. Datta, S. Broderick, J. Jasinski, M. Sunkara, M. Menon, and K.Rajan, "Informatics-aided Bandgap Engineering for Solar Materials," Comp. Mate. Sci., 83 185-195 (2014). DOI |
| 10 | Center for Inverse Design http://www.centerforinversedesign.org/ |
| 11 | S. Kirkpatrick, C. D. Gelatt, and M. P. Vecchi, "Optimization by Simulated Annealing," Science, 13 671- 680 (1983). |
| 12 | V. Cerny, "Thermodynamical Approach to The Traveling Salesman Problem - An Efficient Simulation Algorithm," J. Optimiz. Theory App., 45 41-51 (1985). DOI |
| 13 | N. Barricelli, "Esempi Numerici di Processi di Evoluzione," Methodos, 45-68 (1954). |
| 14 | A. Frenceschetti and A. Zunger, "The Inverse Band-structure Problem of Finding an Atomic Configuration with Given Electronic Properties," Nature, 402 60 (1999). DOI |
| 15 | T. P. Pearsall, J. Bevk, L. C. Feldman, J. M. Bonar, J. P. Mannaerts, and A. Ourmazd, "Structurally Induced Optical Transitions in Ge-Si Superlattices," Phys .Rev. Lett., 58 729-32 (1987). DOI |
| 16 | R. Zachai, K. Eberl, G. Abstreiter, E. Kasper, and H. Kibbel, "Photoluminescence in Short-period Si/Ge Strained-layer Superlattices," Phys .Rev. Lett., 64 1055-59 (1990). DOI |
| 17 | U. Menczigar, G. Abstreiter, J. Olajos, H. Grimmeiss, H. Kibbel, H. Presting, and E. Kasper, "Enhanced Band-gap Luminescence in Strain-symmetrized (Si)m/(Ge)n Superlattices," Phys. Rev. B, 47 4099- 4102 (1993). |
| 18 | C. Freysoldt, B. Grabowski, T. Hickel, J. Neugebauer, G. Kresse, A. Janotti, and C. G. Van de Walle, "First-principles Calculations for Point Defects in Solids," Rev. Mod. Phys., 86 253-305 (2014) DOI |
| 19 | L. Zhang, M. d'Avezac, J.-W. Luo, and A. Zunger, "Genomic Design of Strong Direct-Gap Optical Transition in Si/Ge Core/Multishell Nanowires," Nano. Lett., 12 984-92 (2012). DOI |
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G. Trimarchi, H. Peng, J. Im, A. J. Freeman, V. Cloet, A. Raw, K. R. Poeppelmeier, K. Biswas, S. Lany, and A. Zunger, "Using Design Principles to Systematically Plan the Synthesis of Hole-conducting Transparent Oxides: |
| 21 | A. Zunger, "Practical Doping Principles," App. Phys. Lett., 83 57-59 (2003). DOI |
| 22 | G. Hautier, A. Miglio, G. Ceder, G.-M. Rignanese, and X. Gonze, "Identification and Design Principles of Low Hole Effective Mass p-type Transparent Conducting Oxides," Nat. Commun., 4 (2292) 1-7 (2013). |
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H. Kawazoe, M. Yasukawa, H. Hyodo, M. Kurita, H. Yanagi and H. Hosono, "P-type Electrical Conduction in Transparent Thin Tilms of |
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T. R. Paudel, A. Zakutayev, S. Lany, M. d' 'Avezac, and A. Zunger, "Doping Rules and Doping Prototypes in |
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H. Peng, A. Zakutayev, S. Lany, T. R. Paudel, M. d' 'Avezac, P. F. Ndione, J. D. Perkins, D. S. Ginley, A. R. Nagaraja, N. H. Perry, T. O. Mason, and A. Zunger, "Li-Doped |
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J. Im, G. Trimarchi, H. Peng, A.r J. Freeman, V. Cloet, A. Raw and K. R. Poeppelmeier, " |
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