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Journal Abstract Search

228 related items for PubMed ID: 38068065

  • 1. Mercury Chalcogenide Colloidal Quantum Dots for Infrared Photodetectors.
    Hao Q, Ma H, Xing X, Tang X, Wei Z, Zhao X, Chen M.
    Materials (Basel); 2023 Nov 24; 16(23):. PubMed ID: 38068065
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  • 4. Dicarboxylic Acid-Assisted Surface Oxide Removal and Passivation of Indium Antimonide Colloidal Quantum Dots for Short-Wave Infrared Photodetectors.
    Zhang Y, Xia P, Rehl B, Parmar DH, Choi D, Imran M, Chen Y, Liu Y, Vafaie M, Li C, Atan O, Pina JM, Paritmongkol W, Levina L, Voznyy O, Hoogland S, Sargent EH.
    Angew Chem Int Ed Engl; 2024 Feb 19; 63(8):e202316733. PubMed ID: 38170453
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  • 7. In-Synthesis Se-Stabilization Enables Defect and Doping Engineering of HgTe Colloidal Quantum Dots.
    Yu M, Yang J, Zhang X, Yuan M, Zhang J, Gao L, Tang J, Lan X.
    Adv Mater; 2024 Jul 19; 36(27):e2311830. PubMed ID: 38501495
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  • 11. Fast and Sensitive Colloidal Quantum Dot Mid-Wave Infrared Photodetectors.
    Ackerman MM, Tang X, Guyot-Sionnest P.
    ACS Nano; 2018 Jul 24; 12(7):7264-7271. PubMed ID: 29975502
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  • 12. Stable Colloidal Quantum Dot Inks Enable Inkjet-Printed High-Sensitivity Infrared Photodetectors.
    Sliz R, Lejay M, Fan JZ, Choi MJ, Kinge S, Hoogland S, Fabritius T, García de Arquer FP, Sargent EH.
    ACS Nano; 2019 Oct 22; 13(10):11988-11995. PubMed ID: 31545597
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  • 14. Mid- and Long-Wave Infrared Optoelectronics via Intraband Transitions in PbS Colloidal Quantum Dots.
    Ramiro I, Özdemir O, Christodoulou S, Gupta S, Dalmases M, Torre I, Konstantatos G.
    Nano Lett; 2020 Feb 12; 20(2):1003-1008. PubMed ID: 31934762
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  • 15. InSb/InP Core-Shell Colloidal Quantum Dots for Sensitive and Fast Short-Wave Infrared Photodetectors.
    Peng L, Wang Y, Ren Y, Wang Z, Cao P, Konstantatos G.
    ACS Nano; 2024 Feb 13; 18(6):5113-5121. PubMed ID: 38305195
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  • 16. Colloidal Quantum Dot Light Emitting Diodes at Telecom Wavelength with 18% Quantum Efficiency and Over 1 MHz Bandwidth.
    Pradhan S, Dalmases M, Taghipour N, Kundu B, Konstantatos G.
    Adv Sci (Weinh); 2022 Jul 13; 9(20):e2200637. PubMed ID: 35508607
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  • 17. One-Pot Colloidal Synthesis Enables Highly Tunable InSb Short-Wave Infrared Quantum Dots Exhibiting Carrier Multiplication.
    Mir WJ, Sheikh T, Nematulloev S, Maity P, Yorov KE, Emwas AH, Hedhili MN, Khan MS, Abulikemu M, Mohammed OF, Bakr OM.
    Small; 2024 May 13; 20(19):e2306535. PubMed ID: 38063843
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  • 18. Ligand-Engineered HgTe Colloidal Quantum Dot Solids for Infrared Photodetectors.
    Yang J, Hu H, Lv Y, Yuan M, Wang B, He Z, Chen S, Wang Y, Hu Z, Yu M, Zhang X, He J, Zhang J, Liu H, Hsu HY, Tang J, Song H, Lan X.
    Nano Lett; 2022 Apr 27; 22(8):3465-3472. PubMed ID: 35435694
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  • 19. Halide-Driven Synthetic Control of InSb Colloidal Quantum Dots Enables Short-Wave Infrared Photodetectors.
    Muhammad, Choi D, Parmar DH, Rehl B, Zhang Y, Atan O, Kim G, Xia P, Pina JM, Li M, Liu Y, Voznyy O, Hoogland S, Sargent EH.
    Adv Mater; 2023 Nov 27; 35(46):e2306147. PubMed ID: 37734861
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  • 20. Synergism in Binary Nanocrystals Enables Top-Illuminated HgTe Colloidal Quantum Dot Short-Wave Infrared Imager.
    Wang B, Yuan M, Liu J, Zhang X, Liu J, Yang J, Gao L, Zhang J, Tang J, Lan X.
    Nano Lett; 2024 Aug 07; 24(31):9583-9590. PubMed ID: 39041791
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