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Journal of Information Display Volume 25, 2024 - Issue 1: Nano- and micro-LED technology for flexible device and display applications
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2024 Special Issue

Methods and optoelectronic device applications of semiconductor epitaxy assisted by two-dimensional van der Waals materials

Aziz Ahmeda Research Center for Novel Epitaxial Quantum Architectures, Seoul National University, Seoul, Republic of KoreaView further author information
,
Kunook Chungb Graduate School of Semiconductor Materials and Devices Engineering, Ulsan National Institute of Science and Technology (UNIST), Ulsan, Republic of Korea;c Department of Physics, Ulsan National Institute of Science and Technology (UNIST), Ulsan, Republic of KoreaCorrespondence[email protected]
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,
Won Il Parkd Division of Materials Science and Engineering, Hanyang University, Seoul, Republic of KoreaCorrespondence[email protected]
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&
Gyu-Chul Yie Department of Physics and Astronomy & Institute of Applied Physics, Seoul National University, Seoul, Republic of Korea;f Research Institute of Advanced Materials (RIAM), Seoul National University, Seoul, Republic of KoreaCorrespondence[email protected]
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Pages 75-95 | Received 27 Nov 2023, Accepted 21 Jan 2024, Published online: 19 Feb 2024

References

  • L. Baruah, J. Soc. Inf. Disp 38 (4), 13–18 (2022).
  • Y. Chen, Y. Zhang, Z. Liang, Y. Cao, Z. Han, and X. Feng, npj Flex. Electron 4 (1), 2 (2020).
  • R. Ghosh, M.S. Song, J. Park, Y. Tchoe, P. Guha, W. Lee, Y. Lim, B. Kim, S.-W. Kim, M. Kim, and G.-C. Yi, Nano Energy 80, 105537 (2021).
  • Y. Kim, J.M. Suh, J. Shin, Y. Liu, H. Yeon, K. Qiao, H.S. Kum, C. Kim, H.E. Lee, C. Choi, H. Kim, D. Lee, J. Lee, J.-H. Kang, B.-I. Park, S. Kang, J. Kim, S. Kim, J.A. Perozek, K. Wang, Y. Park, K. Kishen, L. Kong, T. Palacios, J. Park, M.-C. Park, H.-J. Kim, Y.S. Lee, K. Lee, S.-H. Bae, W. Kong, J. Han, and J. Kim, Science 377 (6608), 859–864 (2022).
  • J. Chen, H. Ding, and X. Sheng, J. Inf. Disp, 1–12 (2023).
  • S. Qiao, J. Liu, X. Niu, B. Liang, G. Fu, Z. Li, S. Wang, K. Ren, and C. Pan, Adv. Funct. Mater 28 (19), 1707311 (2018).
  • W. Ran, L. Wang, S. Zhao, D. Wang, R. Yin, Z. Lou, and G. Shen, Adv. Mater 32 (16), 1908419 (2020).
  • X. Hu, J. Wu, M. Wu, and J. Hu, Nano Res 15, 805–817 (2022).
  • S. Nakamura, T. Mukai, and M. Senoh, Appl. Phys. Lett 64 (13), 1687–1689 (1994).
  • F. Ponce, and D. Bour, Nature 386 (6623), 351–359 (1997).
  • M.M. Stylianakis, T. Maksudov, A. Panagiotopoulos, G. Kakavelakis, and K. Petridis, Mater 12 (6), 859 (2019).
  • H. Zhang, and J.A. Rogers, Adv. Opt. Mater 7 (2), 1800936 (2019).
  • H. Li, Y. Cao, . Wang, and X. Feng, Z, Opt. Mater. Express 9 (10), 4023–4049 (2019).
  • W.E. Howard, and O.F. Prache, IBM J. Res. Dev 45 (1), 115–127 (2001).
  • J. Day, J. Li, D. Lie, C. Bradford, J. Lin, and H. Jiang, Appl. Phys. Lett 99 (3), 031116 (2011).
  • J.-A. Jeong, H.-S. Shin, K.-H. Choi, and H.-K. Kim, J. Phys. D: Appl. Phys 43 (46), 465403 (2010).
  • J.-J. Kim, M.-K. Han, and Y.-Y. Noh, Semicond. Sci. Technol 26 (3), 030301 (2011).
  • T.-H. Han, Y. Lee, M.-R. Choi, S.-H. Woo, S.-H. Bae, B.H. Hong, J.-H. Ahn, and T.-W. Lee, Nat. Photon 6 (2), 105–110 (2012).
  • M. Vosgueritchian, J.B.-H. Tok, and Z. Bao, Nat. Photon 7 (10), 769–771 (2013).
  • T.-H. Han, S.-H. Jeong, Y. Lee, H.-K. Seo, S.-J. Kwon, M.-H. Park, and T.-W. Lee, J. Inf. Disp 16 (2), 71–84 (2015).
  • H. Kim, S. Kwon, S. Choi, and K.C. Choi, J. Inf. Disp 16 (4), 179–184 (2015).
  • S.-M. Lee, J.H. Kwon, S. Kwon, and K.C. Choi, IEEE Trans. Electron Devices 64 (5), 1922–1931 (2017).
  • O.E. Kwon, J.-W. Shin, H. Oh, C.-m. Kang, H. Cho, B.-H. Kwon, C.-W. Byun, J.-H. Yang, K. Me Lee, and J.-H. Han, J. Inf. Disp 21 (1), 49–56 (2020).
  • E.G. Jeong, J.H. Kwon, K.S. Kang, S.Y. Jeong, and K.C. Choi, J. Inf. Disp 21 (1), 19–32 (2020).
  • S. Calvi, M. Rapisarda, A. Valletta, M. Scagliotti, S. De Rosa, L. Tortora, P. Branchini, and L. Mariucci, Org. Electron 102, 106452 (2022).
  • Y.-S. Lee, A. Raji, E.-K. Noh, J.-H. Yoon, B. Sung, A. Gasonoo, J. Lee, M.-H. Kim, Y. Choi, and Y. Shibasaki, J. Inf. Disp 24, 263–271 (2023).
  • W. Wong, T. Sands, N. Cheung, M. Kneissl, D. Bour, P. Mei, L. Romano, and N. Johnson, Appl. Phys. Lett 75 (10), 1360–1362 (1999).
  • A. David, T. Fujii, B. Moran, S. Nakamura, S.P. DenBaars, C. Weisbuch, and H. Benisty, Appl. Phys. Lett 88 (13), 133514 (2006).
  • S.-I. Park, Y. Xiong, R.-H. Kim, P. Elvikis, M. Meitl, D.-H. Kim, J. Wu, J. Yoon, C.-J. Yu, Z. Liu, Y. Huang, K.-C. Hwang, P. Ferreira, X. Li, K. Choquette, and J.A. Rogers, Science 325 (5943), 977–981 (2009).
  • R. Delmdahl, M. Fricke, and B. Fechner, J. Inf. Disp 15 (1), 1–4 (2014).
  • L. Shen, L. Wu, Q. Sheng, C. Ma, Y. Zhang, L. Lu, J. Ma, J. Ma, J. Bian, and Y. Yang, Adv. Mater 29 (33), 1702411 (2017).
  • A.K. Geim, and K.S. Novoselov, Nat. Mater 6 (3), 183–191 (2007).
  • K.S. Kim, Y. Zhao, H. Jang, S.Y. Lee, J.M. Kim, K.S. Kim, J.-H. Ahn, P. Kim, J.-Y. Choi, and B.H. Hong, Nature 457 (7230), 706–710 (2009).
  • F. Bonaccorso, Z. Sun, T. Hasan, and A. Ferrari, Nat. Photon 4 (9), 611–622 (2010).
  • K.S. Novoselov, V.I. Fal′ ko, L. Colombo, P.R. Gellert, M.G. Schwab, and K. Kim, Nature 490 (7419), 192–200 (2012).
  • N. Kostoglou, K. Polychronopoulou, and C. Rebholz, Vacuum 112, 42–45 (2015).
  • K. Qian, R.Y. Tay, V.C. Nguyen, J. Wang, G. Cai, T. Chen, E.H.T. Teo, and P.S. Lee, Adv. Funct. Mater 26 (13), 2176–2184 (2016).
  • J.-H. Lee, E.K. Lee, W.-J. Joo, Y. Jang, B.-S. Kim, J.Y. Lim, S.-H. Choi, S.J. Ahn, J.R. Ahn, and M.-H. Park, Science 344 (6181), 286–289 (2014).
  • L. Wang, X. Xu, L. Zhang, R. Qiao, M. Wu, Z. Wang, S. Zhang, J. Liang, Z. Zhang, and Z. Zhang, Nature 570 (7759), 91–95 (2019).
  • S.H. Choi, S.J. Yun, Y.S. Won, C.S. Oh, S.M. Kim, K.K. Kim, and Y.H. Lee, Nat. Commun 13 (1), 1484 (2022).
  • S. Fukamachi, P. Solís-Fernández, K. Kawahara, D. Tanaka, T. Otake, Y.-C. Lin, K. Suenaga, and H. Ago, Nat. Electron 6 (2), 126–136 (2023).
  • K. Chung, C.-H. Lee, and G.-C. Yi, Science 330 (6004), 655–657 (2010).
  • W.I. Park, C.-H. Lee, J.M. Lee, N.-J. Kim, and G.-C. Yi, Nanoscale 3 (9), 3522–3533 (2011).
  • K. Chung, H. Oh, J. Jo, K. Lee, M. Kim, and G.-C. Yi, NPG Asia Mater 9 (7), e410–e410 (2017).
  • H. Kum, D. Lee, W. Kong, H. Kim, Y. Park, Y. Kim, Y. Baek, S.-H. Bae, K. Lee, and J. Kim, Nat. Electron 2 (10), 439–450 (2019).
  • C. Zhao, Z. Li, T. Tang, J. Sun, W. Zhan, B. Xu, H. Sun, H. Jiang, K. Liu, and S. Qu, Prog. Quantum. Electron 76, 100313 (2021).
  • Y.J. Hong, R.K. Saroj, W.I. Park, and G.-C. Yi, APL Mater 9 (6), 060907 (2021).
  • M. Park, B. Bae, T. Kim, H.S. Kum, and K. Lee, J. Appl. Phys 132 (19), 190902 (2022).
  • H. Kim, C.S. Chang, S. Lee, J. Jiang, J. Jeong, M. Park, Y. Meng, J. Ji, Y. Kwon, X. Sun, W. Kong, H.S. Kum, S.-H. Bae, K. Lee, and Y.J. Hong, J. Shi and J. Kim Nat. Rev. Methods Primers 2 (1), 40 (2022).
  • J. Ji, H.-M. Kwak, J. Yu, S. Park, J.-H. Park, H. Kim, S. Kim, S. Kim, D.-S. Lee, and H.S. Kum, Nano Converg 10 (1), 1–21 (2023).
  • I. Roh, S.H. Goh, Y. Meng, J.S. Kim, S. Han, Z. Xu, H.E. Lee, Y. Kim, and S.-H. Bae, Nano Converg 10 (1), 20 (2023).
  • Y.-J. Kim, J.-H. Lee, and G.-C. Yi, Appl. Phys. Lett 95 (21), 213101 (2009).
  • C.H. Lee, Y.J. Kim, Y.J. Hong, S.R. Jeon, S. Bae, B.H. Hong, and G.C. Yi, Adv. Mater 23 (40), 4614–4619 (2011).
  • H. Yoo, K. Chung, Y.S. Choi, C.S. Kang, K.H. Oh, M. Kim, and G.C. Yi, Adv. Mater 24 (4), 515–518 (2012).
  • K. Chung, S. In Park, H. Baek, J.-S. Chung, and G.-C. Yi, NPG Asia Mater 4 (9), e24 (2012).
  • Y.J. Kim, H. Yoo, C.H. Lee, J.B. Park, H. Baek, M. Kim, and G.C. Yi, Adv. Mater 24 (41), 5565–5569 (2012).
  • K. Chung, H. Beak, Y. Tchoe, H. Oh, H. Yoo, M. Kim, and G.-C. Yi, APL Mater 2 (9), 092512 (2014).
  • H. Oh, Y.J. Hong, K.-S. Kim, S. Yoon, H. Baek, S.-H. Kang, Y.-K. Kwon, M. Kim, and G.-C. Yi, NPG Asia Mater 6 (12), e145 (2014).
  • H. Oh, Y. Tchoe, H. Kim, J. Yun, M. Park, S. Kim, Y.-S. Lim, H. Kim, W. Jang, J. Hwang, Y. Song, J. Koh, and G.-C. Yi, J. Appl. Phys 130 (22), 223105 (2021).
  • A. Mazid Munshi, and H. Weman, Phys. Status Solidi - Rapid Res. Lett 7 (10), 713–726 (2013).
  • N. Gao, and X. Fang, Chem. Rev 115 (16), 8294–8343 (2015).
  • F. Xia, S. Kwon, W.W. Lee, Z. Liu, S. Kim, T. Song, K.J. Choi, U. Paik, and W.I. Park, Nano Lett 15 (10), 6658–6664 (2015).
  • E. Mataev, S.K. Rastogi, A. Madhusudan, J. Bone, N. Lamprinakos, Y. Picard, and T. Cohen-Karni, Nano Lett 16 (8), 5267–5272 (2016).
  • F.-X. Liang, Y. Gao, C. Xie, X.-W. Tong, Z.-J. Li, and L.-B. Luo, J. Mater. Chem. C 6 (15), 3815–3833 (2018).
  • Q. Chen, Y. Yin, F. Ren, M. Liang, X. Yi, and Z. Liu, Mater 13 (17), 3835 (2020).
  • P. Periwal, J.D. Thomsen, K. Reidy, G. Varnavides, D.N. Zakharov, L. Gignac, M.C. Reuter, T.J. Booth, S. Hofmann, and F.M. Ross, Appl. Phys. Rev 7 (3), 031402 (2020).
  • E.A. Anyebe, and M. Kesaria, Nano Select 2 (4), 688–711 (2021).
  • C.M. Lieber, Solid State Commun 107 (11), 607–616 (1998).
  • G. Shen, and D. Chen, Front. Optoelectron 3, 125–138 (2010).
  • B. Salhi, M. Hossain, A. Mukhaimer, and F. Al-Sulaiman, J. Electroceramics 37, 34–49 (2016).
  • H.Y. Lee, and S. Kim, Nanophotonics 11 (11), 2571–2582 (2022).
  • W.I. Park, D.H. Kim, S.-W. Jung, and G.-C. Yi, Appl. Phys. Lett 80 (22), 4232–4234 (2002).
  • W.I. Park, G.C. Yi, M. Kim, and S.J. Pennycook, Adv. Mater 14 (24), 1841–1843 (2002).
  • J.B. Park, H. Oh, J. Park, N.-J. Kim, H. Yoon, and G.-C. Yi, APL Mater 4 (10), 106104 (2016).
  • H. Baek, C.-H. Lee, K. Chung, and G.-C. Yi, Nano Lett 13 (6), 2782–2785 (2013).
  • M. Heilmann, G. Sarau, M. Göbelt, M. Latzel, S. Sadhujan, C. Tessarek, and S. Christiansen, Cryst. Growth Des 15 (5), 2079–2086 (2015).
  • V. Kumaresan, L. Largeau, A. Madouri, F. Glas, H. Zhang, F. Oehler, A. Cavanna, A. Babichev, L. Travers, and N. Gogneau, Nano Lett 16 (8), 4895–4902 (2016).
  • M. Heilmann, A.M. Munshi, G. Sarau, M. Göbelt, C. Tessarek, V.T. Fauske, A.T. van Helvoort, J. Yang, M. Latzel, and B.r. Hoffmann, Nano Lett 16 (6), 3524–3532 (2016).
  • K. Chung, K. Lee, Y. Tchoe, H. Oh, J. Park, J.K. Hyun, and G.-C. Yi, Nano Energy 60, 82–86 (2019).
  • S. Mukherjee, N. Nateghi, R.M. Jacobberger, E. Bouthillier, M. De La Mata, J. Arbiol, T. Coenen, D. Cardinal, P. Levesque, and P. Desjardins, Adv. Funct. Mater 28 (8), 1705592 (2018).
  • Y.J. Hong, W.H. Lee, Y. Wu, R.S. Ruoff, and T. Fukui, Nano Lett 12 (3), 1431–1436 (2012).
  • M.A. Baboli, M.A. Slocum, H. Kum, T.S. Wilhelm, S.J. Polly, S.M. Hubbard, and P.K. Mohseni, CrystEngComm 21 (4), 602–615 (2019).
  • S. Nalamati, M. Sharma, P. Deshmukh, J. Kronz, R. Lavelle, D. Snyder, C.L. Reynolds Jr, Y. Liu, and S. Iyer, ACS Appl. Nano Mater 2 (7), 4528–4537 (2019).
  • Y. Wang, D. Dheeraj, Z. Liu, M. Liang, Y. Li, X. Yi, J. Wang, J. Li, and H. Weman, Cryst. Growth Des 19 (10), 5516–5522 (2019).
  • P.K. Mohseni, A. Behnam, J.D. Wood, C.D. English, and J.W. Lyding, E. Pop and X. Li, Nano Lett 13 (3), 1153–1161 (2013).
  • D. Liang, T. Wei, J. Wang, and J. Li, Nano Energy 69, 104463 (2020).
  • J. Yu, L. Wang, Z. Hao, Y. Luo, C. Sun, J. Wang, Y. Han, B. Xiong, and H. Li, Adv. Mater 32 (15), 1903407 (2020).
  • Y. Kim, S.S. Cruz, K. Lee, B.O. Alawode, C. Choi, Y. Song, J.M. Johnson, C. Heidelberger, W. Kong, S. Choi, K. Qiao, I. Almansouri, E.A. Fitzgerald, J. Kong, A.M. Kolpak, J. Hwang, and J. Kim, Nature 544 (7650), 340–343 (2017).
  • S. Chae, S. Jang, W.J. Choi, Y.S. Kim, H. Chang, T.I. Lee, and J.-O. Lee, Nano Lett 17 (3), 1711–1718 (2017).
  • W. Kong, H. Li, K. Qiao, Y. Kim, K. Lee, Y. Nie, D. Lee, T. Osadchy, R.J. Molnar, and D.K. Gaskill, Nat. Mater 17 (11), 999–1004 (2018).
  • J. Jeong, K.-A. Min, D.H. Shin, W.S. Yang, J. Yoo, S.W. Lee, S. Hong, and Y.J. Hong, Nanoscale 10 (48), 22970–22980 (2018).
  • H. Kim, J.C. Kim, Y. Jeong, J. Yu, K. Lu, D. Lee, N. Kim, H.Y. Jeong, J. Kim, and S. Kim, J. Appl. Phys 130 (17), 174901 (2021).
  • K. Badokas, A. Kadys, J. Mickevičius, I. Ignatjev, M. Skapas, S. Stanionytė, E. Radiunas, G. Juška, and T. Malinauskas, J. Phys. D: Appl. Phys 54 (20), 205103 (2021).
  • J. Jeong, K.-A. Min, B.K. Kang, D.H. Shin, J. Yoo, W.S. Yang, S.W. Lee, S. Hong, and Y.J. Hong, Appl. Phys. Lett 113 (23), 233103 (2018).
  • Y. Qi, Y. Wang, Z. Pang, Z. Dou, T. Wei, P. Gao, S. Zhang, X. Xu, Z. Chang, and B. Deng, J. Am. Chem. Soc 140 (38), 11935–11941 (2018).
  • Z. Lu, X. Sun, W. Xie, A. Littlejohn, G.-C. Wang, S. Zhang, M.A. Washington, and T.-M. Lu, Nanotechnology 29 (44), 445702 (2018).
  • J. Jiang, X. Sun, X. Chen, B. Wang, Z. Chen, Y. Hu, Y. Guo, L. Zhang, Y. Ma, and L. Gao, Nat. Commun 10 (1), 4145 (2019).
  • J. Jeong, Q. Wang, J. Cha, D.K. Jin, D.H. Shin, S. Kwon, B.K. Kang, J.H. Jang, W.S. Yang, Y.S. Choi, J. Yoo, J.K. Kim, C.-H. Lee, S.W. Lee, A. Zakhidov, S. Hong, M.J. Kim, and Y.J. Hong, Sci. Adv 6 (23), eaaz5180 (2020).
  • J. Jeong, D.K. Jin, J. Choi, J. Jang, B.K. Kang, Q. Wang, W.I. Park, M.S. Jeong, B.-S. Bae, W.S. Yang, M.J. Kim, and Y.J. Hong, Nano Energy 86, 106075 (2021).
  • Y. Qu, Y. Xu, B. Cao, Y. Wang, J. Wang, L. Shi, and K. Xu, ACS Appl. Mater. Interfaces 14 (1), 2263–2274 (2022).
  • L. Dai, J. Zhao, J. Li, B. Chen, S. Zhai, Z. Xue, Z. Di, B. Feng, Y. Sun, and Y. Luo, Nat. Commun 13 (1), 2990 (2022).
  • H. Kim, S. Lee, J. Shin, M. Zhu, M. Akl, K. Lu, N.M. Han, Y. Baek, C.S. Chang, J.M. Suh, K.S. Kim, B.-I. Park, Y. Zhang, C. Choi, H. Shin, H. Yu, Y. Meng, S.-I. Kim, S. Seo, K. Lee, H.S. Kum , J.-H. Lee, J.-H. Ahn, S.-H. Bae, J. Hwang, Y. Shi, and J. Kim,  , Nat. Nanotechnol 17 (10), 1054–1059 (2022).
  • H. Lee, M. Kim, D. Jang, S. Jang, W.I. Park, and C. Kim, Cryst. Growth Des 22 (12), 6995–7007 (2022).
  • D. Jang, C. Ahn, Y. Lee, S. Lee, H. Lee, D. Kim, Y. Kim, J.Y. Park, Y.K. Kwon, J. Choi, and C. Kim, Adv. Mater. Interfaces 10 (4), 2201406 (2023).
  • Y.J. Hong, C.H. Lee, A. Yoon, M. Kim, H.K. Seong, H.J. Chung, C. Sone, Y.J. Park, and G.C. Yi, Adv. Mater 23 (29), 3284–3288 (2011).
  • J. Wallentin, N. Anttu, D. Asoli, M. Huffman, I. Åberg, M.H. Magnusson, G. Siefer, P. Fuss-Kailuweit, F. Dimroth, and B. Witzigmann, Science 339 (6123), 1057–1060 (2013).
  • K. Lee, J.-w. Park, Y. Tchoe, J. Yoon, K. Chung, H. Yoon, S. Lee, C. Yoon, B.H. Park, and G.-C. Yi, Nanotechnology 28 (20), 205202 (2017).
  • K. Lee, D. Yoo, H. Oh, and G.-C. Yi, Sci. Rep 10 (1), 19677 (2020).
  • D. Yoo, K. Lee, Y. Tchoe, P. Guha, A. Ali, R.K. Saroj, S. Lee, A.H. Islam, M. Kim, and G.-C. Yi, Sci. Rep 11 (1), 17524 (2021).
  • Y.J. Hong, and T. Fukui, ACS Nano 5 (9), 7576–7584 (2011).
  • A.M. Munshi, D.-C. Kim, C.P. Heimdal, M. Heilmann, S.H. Christiansen, P.E. Vullum, A.T. van Helvoort, and H. Weman, Appl. Phys. Lett 113 (26), 263102 (2018).
  • J.B. Park, M.S. Song, R. Ghosh, R.K. Saroj, Y. Hwang, Y. Tchoe, H. Oh, H. Baek, Y. Lim, B. Kim, S.-W. Kim, and G.-C. Yi, NPG Asia Mater 13 (1), 57 (2021).
  • K. Chung, H. Yoo, J.K. Hyun, H. Oh, Y. Tchoe, K. Lee, H. Baek, M. Kim, and G.C. Yi, Adv. Mater 28 (35), 7688–7694 (2016).
  • W.M. Choi, K.-S. Shin, H.S. Lee, D. Choi, K. Kim, H.-J. Shin, S.-M. Yoon, J.-Y. Choi, and S.-W. Kim, Nano Res 4, 440–447 (2011).
  • Y.-J. Kim, S.-S. Kim, J.B. Park, B.-H. Sohn, and G.-C. Yi, Nanotechnology 25 (13), 135609 (2014).
  • M. Morassi, N. Guan, V.G. Dubrovskii, Y. Berdnikov, C. Barbier, L. Mancini, L. Largeau, A.V. Babichev, V. Kumaresan, and F.H. Julien, Cryst. Growth Des 20 (2), 552–559 (2019).
  • J. Jeong, D.K. Jin, J. Cha, B.K. Kang, Q. Wang, J. Choi, S.W. Lee, V.Y. Mikhailovskii, V. Neplokh, N. Amador-Mendez, M. Tchernycheva, W.S. Yang, J. Yoo, M.J. Kim, S. Hong, and Y.J. Hong, ACS Appl. Nano Mater 3 (9), 8920–8930 (2020).
  • G. Jo, M. Choe, S. Lee, W. Park, Y.H. Kahng, and T. Lee, Nanotechnology 23 (11), 112001 (2012).
  • Y. Shao, J. Wang, H. Wu, J. Liu, I.A. Aksay, and Y. Lin, Electroynalysis (N.Y.N.Y.) 22 (10), 1027–1036 (2010).
  • Q. He, S. Wu, Z. Yin, and H. Zhang, Chem. Sci 3 (6), 1764–1772 (2012).
  • Y. Liu, X. Dong, and P. Chen, Chem. Soc. Rev 41 (6), 2283–2307 (2012).
  • M. He, J. Jung, F. Qiu, and Z. Lin, J. Mater. Chem 22 (46), 24254–24264 (2012).
  • T.-i. Kim, R.-H. Kim, and J.A. Rogers, IEEE Photonics J 4 (2), 607–612 (2012).
  • X. Wu, P. Fini, E. Tarsa, B. Heying, S. Keller, U. Mishra, S. DenBaars, and J. Speck, J. Cryst. Growth 189, 231–243 (1998).
  • U. Kaiser, D. Muller, J. Grazul, A. Chuvilin, and M. Kawasaki, Nat. Mater 1 (2), 102–105 (2002).
  • B. Kim, J. Tersoff, S. Kodambaka, M. Reuter, E. Stach, and F. Ross, Science 322 (5904), 1070–1073 (2008).
  • M. Horn-von Hoegen, F. LeGoues, M. Copel, M. Reuter, and R. Tromp, Phys. Rev. Lett 67 (9), 1130 (1991).
  • J.M. Zuo, and B. Li, Phys. Rev. Lett 88 (25), 255502 (2002).
  • J. McCaffrey, M. Phaneuf, and L. Madsen, Ultramicroscopy 87 (3), 97–104 (2001).
  • J. Jo, H. Yoo, S.I. Park, J.B. Park, S. Yoon, M. Kim, and G.C. Yi, Adv. Mater 26 (13), 2011–2015 (2014).
  • C.H. Bates, W.B. White, and R. Roy, Science 137 (3534), 993–993 (1962).
  • S.M. Bobade, Appl. Phys. Lett 100 (7), 072102 (2012).
  • Y. Tchoe, J. Jo, H. Kim, H. Kim, H. Baek, K. Lee, D. Yoo, W.J. Choi, M. Kim, and G.-C. Yi, NPG Asia Mater 13 (1), 33 (2021).
  • D.-M. Shin, E.L. Tsege, S.H. Kang, W. Seung, S.-W. Kim, H.K. Kim, S.W. Hong, and Y.-H. Hwang, Nano Energy 12, 268–277 (2015).
  • T. Naito, and K. Tanabe, Nanomaterials 8 (12), 1048 (2018).
  • Y. Kobayashi, K. Kumakura, T. Akasaka, and T. Makimoto, Nature 484 (7393), 223–227 (2012).
  • J. Kim, C. Bayram, H. Park, C.-W. Cheng, C. Dimitrakopoulos, J.A. Ott, K.B. Reuter, S.W. Bedell, and D.K. Sadana, Nat. Commun 5 (1), 4836 (2014).
  • X. Dai, A. Messanvi, H. Zhang, C. Durand, J. Eymery, C. Bougerol, F.H. Julien, and M. Tchernycheva, Nano Lett 15 (10), 6958–6964 (2015).
  • A.F. i Morral, S.A. Dayeh, and C. Jagadish (Eds.). Semiconductor Nanowires I: Growth and Theory (Academic Press, Cambridge, 2015).
  • N. Guan, X. Dai, A. Messanvi, H. Zhang, J. Yan, E. Gautier, C. Bougerol, and F.H. Julien, C. Durand and J. Eymery, ACS Photonics 3 (4), 597–603 (2016).
  • J.B. Park, N.-J. Kim, Y.-J. Kim, S.-H. Lee, and G.-C. Yi, Curr. Appl. Phys 14 (11), 1437–1442 (2014).
  • H. Oh, J. Park, W. Choi, H. Kim, Y. Tchoe, A. Agrawal, and G.C. Yi, Small 14 (17), 1800240 (2018).
  • J. Park, R. Ghosh, M.S. Song, Y. Hwang, Y. Tchoe, R.K. Saroj, A. Ali, P. Guha, B. Kim, S.-W. Kim, M. Kim, and G.-C. Yi, NPG Asia Mater 14 (1), 40 (2022).
  • D.K. Jin, J. Choi, J. Jeong, B.K. Kang, Q. Wang, W.S. Yang, M.J. Kim, and Y.J. Hong, APL Mater 9 (5), 051102 (2021).
  • H. Ryu, H. Park, J.-H. Kim, F. Ren, J. Kim, G.-H. Lee, and S.J. Pearton, Appl. Phys. Rev 9 (3), 031305 (2022).
  • A.K. Singh, K. Ahn, D. Yoo, S. Lee, A. Ali, G.-C. Yi, and K. Chung, NPG Asia Mater 14 (1), 57 (2022).
  • H. Baek, H. Kwak, M.S. Song, G.E. Ha, J. Park, Y. Tchoe, J.K. Hyun, H.Y. Park, E. Cheong, and G.-C. Yi, APL Mater 5 (4), 046106 (2017).
  • Y. Tchoe, K. Chung, K. Lee, J. Jo, K. Chung, J.K. Hyun, M. Kim, and G.-C. Yi, NPG Asia Mater 11 (1), 37 (2019).
  • J. Shin, H. Kim, S. Sundaram, J. Jeong, B.-I. Park, C.S. Chang, J. Choi, T. Kim, M. Saravanapavanantham, K. Lu, S. Kim, J.M. Suh, K.S. Kim, M.-K. Song, Y. Liu, K. Qiao, J.H. Kim, Y. Kim, J.-H. Kang, J. Kim, D. Lee, J. Lee, J.S. Kim, H.E. Lee, H. Yeon, H.S. Kum, S.-H. Bae, V. Bulovic, K.J. Yu, K. Lee, K. Chung, Y.J. Hong, A. Ougazzaden, and J. Kim, Nature 614 (7946), 81–87 (2023).
  • K. Kishino, K. Nagashima, and K. Yamano, Appl. Phys. Express 6 (1), 012101 (2012).
  • R. Wang, H.P. Nguyen, A.T. Connie, J. Lee, I. Shih, and Z. Mi, Opt. Express 22 (107), A1768–A1775 (2014).
  • Y.-H. Ra, R. Wang, S.Y. Woo, M. Djavid, S.M. Sadaf, J. Lee, G.A. Botton, and Z. Mi, Nano Lett 16 (7), 4608–4615 (2016).
  • H.P.T. Nguyen, K. Cui, S. Zhang, S. Fathololoumi, and Z. Mi, Nanotechnology 22 (44), 445202 (2011).
  • H.S. El-Ghoroury, M. Yeh, J. Chen, X. Li, and C.-L. Chuang, AIP Adv 6 (7), 075316 (2016).
  • Y.-J. Lu, H.-W. Lin, H.-Y. Chen, Y.-C. Yang, and S. Gwo, Appl. Phys. Lett 98 (23), 233101 (2011).
  • K. Chung, J. Sui, B. Demory, and P.-C. Ku, Appl. Phys. Lett 111 (4), 041101 (2017).

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