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    Journals >Opto-Electronic Advances >Volume 7 >Issue 6 >Page 240070 > Article
    • Opto-Electronic Advances
    • Vol. 7, Issue 6, 240070 (2024)
    Charge collection narrowing mechanism in electronic-grade-diamond photodetectors
    Xiaoping Ouyang*
    DOI: 10.29026/oea.2024.240070 Cite this Article
    Xiaoping Ouyang. Charge collection narrowing mechanism in electronic-grade-diamond photodetectors[J]. Opto-Electronic Advances, 2024, 7(6): 240070 Copy Citation Text show less
    References

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    [2] W Lee, Y Liu, Y Lee et al. Two-dimensional materials in functional three-dimensional architectures with applications in photodetection and imaging. Nat Commun, 9, 1417(2018).

    [3] A Armin, Vuuren RD Jansen-van, N Kopidakis et al. Narrowband light detection via internal quantum efficiency manipulation of organic photodiodes. Nat Commun, 6, 6343(2015).

    [4] A Elbanna, K Chaykun, Y Lekina et al. Perovskite-transition metal dichalcogenides heterostructures: recent advances and future perspectives. Opto-Electron Sci, 1, 220006(2022).

    [5] W Zheng, LM Jia, F Huang. Vacuum-ultraviolet photon detections. iScience, 23, 101145(2020).

    [6] YJ Lu, CN Lin, CX Shan. Optoelectronic diamond: growth, properties, and photodetection applications. Adv Opt Mater, 6, 1800359(2018).

    [7] LM Jia, W Zheng, F Huang. Vacuum-ultraviolet photodetectors. PhotoniX, 1, 22(2020).

    [8] LM Jia, L Cheng, W Zheng. 8-nm narrowband photodetection in diamonds. Opto-Electron Sci, 2, 230010(2023).

    [9] K Seeger. Semiconductor Physics(2013).

    [10] S Koizumi, C Nebel, M Nesladek. Physics and Applications of CVD Diamond(2008).

    [11] SQ Yan, Y Zuo, SS Xiao, LK Oxenløwe, YH Ding. Graphene photodetector employing double slot structure with enhanced responsivity and large bandwidth. Opto-Electron Adv, 5, 210159(2022).

    [12] BP Yalagala, AS Dahiya, R Dahiya. ZnO nanowires based degradable high-performance photodetectors for eco-friendly green electronics. Opto-Electron Adv, 6, 220020(2023).

    [13] H Kawarada, H Matsuyama, Y Yokota et al. Excitonic recombination radiation in undoped and boron-doped chemical-vapor-deposited diamonds. Phys Rev B, 47, 3633-3637(1993).

    [14] K Konishi, N Naka. Phonon-assisted excitonic absorption in diamond. Phys Rev B, 104, 125204(2021).

    [15] S Dhomkar, H Jayakumar, PR Zangara et al. Charge dynamics in near-surface, variable-density ensembles of nitrogen-vacancy centers in diamond. Nano Lett, 18, 4046-4052(2018).

    [16] De Arquer FP García, A Armin, P Meredith et al. Solution-processed semiconductors for next-generation photodetectors. Nat Rev Mater, 2, 16100(2017).

    [17] QQ Lin, A Armin, PL Burn et al. Filterless narrowband visible photodetectors. Nat Photonics, 9, 687-694(2015).

    [18] K Konishi, I Akimoto, J Isberg et al. Diffusion-related lifetime and quantum efficiency of excitons in diamond. Phys Rev B, 102, 195204(2020).

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    Xiaoping Ouyang. Charge collection narrowing mechanism in electronic-grade-diamond photodetectors[J]. Opto-Electronic Advances, 2024, 7(6): 240070
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