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Journal Abstract Search

116 related items for PubMed ID: 39069675

  • 1. Room-Temperature Near-Infrared Lasing from GaAs/AlGaAs Core-Shell Nanowires Based on Random Cavity.
    Meng B, Kang Y, Zhang X, Yu X, Wang S, Wang P, Tang J, Hao Q, Wei Z, Chen R.
    ACS Appl Mater Interfaces; 2024 Aug 07; 16(31):41677-41683. PubMed ID: 39069675
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  • 6. Near-Infrared Lasing at 1 μm from a Dilute-Nitride-Based Multishell Nanowire.
    Chen S, Yukimune M, Fujiwara R, Ishikawa F, Chen WM, Buyanova IA.
    Nano Lett; 2019 Feb 13; 19(2):885-890. PubMed ID: 30608174
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  • 7. Wurtzite GaAs/AlGaAs core-shell nanowires grown by molecular beam epitaxy.
    Zhou HL, Hoang TB, Dheeraj DL, van Helvoort AT, Liu L, Harmand JC, Fimland BO, Weman H.
    Nanotechnology; 2009 Oct 14; 20(41):415701. PubMed ID: 19755725
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  • 8. Determination of the Optimal Shell Thickness for Self-Catalyzed GaAs/AlGaAs Core-Shell Nanowires on Silicon.
    Songmuang R, Giang le TT, Bleuse J, Den Hertog M, Niquet YM, Dang le S, Mariette H.
    Nano Lett; 2016 Jun 08; 16(6):3426-33. PubMed ID: 27081785
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  • 9. Self-Catalyzed AlGaAs Nanowires and AlGaAs/GaAs Nanowire-Quantum Dots on Si Substrates.
    Boras G, Yu X, Fonseka HA, Davis G, Velichko AV, Gott JA, Zeng H, Wu S, Parkinson P, Xu X, Mowbray D, Sanchez AM, Liu H.
    J Phys Chem C Nanomater Interfaces; 2021 Jul 08; 125(26):14338-14347. PubMed ID: 34276869
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  • 10. Design and Room-Temperature Operation of GaAs/AlGaAs Multiple Quantum Well Nanowire Lasers.
    Saxena D, Jiang N, Yuan X, Mokkapati S, Guo Y, Tan HH, Jagadish C.
    Nano Lett; 2016 Aug 10; 16(8):5080-6. PubMed ID: 27459233
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  • 12. Enhancement of radiation tolerance in GaAs/AlGaAs core-shell and InP nanowires.
    Li F, Xie X, Gao Q, Tan L, Zhou Y, Yang Q, Ma J, Fu L, Tan HH, Jagadish C.
    Nanotechnology; 2018 Jun 01; 29(22):225703. PubMed ID: 29451131
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  • 14. Monolithically Integrated High-β Nanowire Lasers on Silicon.
    Mayer B, Janker L, Loitsch B, Treu J, Kostenbader T, Lichtmannecker S, Reichert T, Morkötter S, Kaniber M, Abstreiter G, Gies C, Koblmüller G, Finley JJ.
    Nano Lett; 2016 Jan 13; 16(1):152-6. PubMed ID: 26618638
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  • 15. Position-controlled uniform GaAs nanowires on silicon using nanoimprint lithography.
    Munshi AM, Dheeraj DL, Fauske VT, Kim DC, Huh J, Reinertsen JF, Ahtapodov L, Lee KD, Heidari B, van Helvoort AT, Fimland BO, Weman H.
    Nano Lett; 2014 Feb 12; 14(2):960-6. PubMed ID: 24467394
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  • 16. Understanding the role of facets and twin defects in the optical performance of GaAs nanowires for laser applications.
    Azimi Z, Gagrani N, Qu J, Lem OLC, Mokkapati S, Cairney JM, Zheng R, Tan HH, Jagadish C, Wong-Leung J.
    Nanoscale Horiz; 2021 Jun 28; 6(7):559-567. PubMed ID: 33999985
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  • 17. GaAs/GaAsPBi core-shell nanowires grown by molecular beam epitaxy.
    Himwas C, Yordsri V, Thanachayanont C, Tchernycheva M, Panyakeow S, Kanjanachuchai S.
    Nanotechnology; 2021 Dec 06; 33(9):. PubMed ID: 34781278
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  • 18. Effect of a GaAsP shell on the optical properties of self-catalyzed GaAs nanowires grown on silicon.
    Couto OD, Sercombe D, Puebla J, Otubo L, Luxmoore IJ, Sich M, Elliott TJ, Chekhovich EA, Wilson LR, Skolnick MS, Liu HY, Tartakovskii AI.
    Nano Lett; 2012 Oct 10; 12(10):5269-74. PubMed ID: 22989367
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  • 19. Epitaxial GaAs/AlGaAs core-multishell nanowires with enhanced photoluminescence lifetime.
    Zhou C, Zhang XT, Zheng K, Chen PP, Matsumura S, Lu W, Zou J.
    Nanoscale; 2019 Apr 04; 11(14):6859-6865. PubMed ID: 30912781
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  • 20. Photocurrent properties of single GaAs/AlGaAs core-shell nanowires with Schottky contacts.
    Persano A, Taurino A, Prete P, Lovergine N, Nabet B, Cola A.
    Nanotechnology; 2012 Nov 23; 23(46):465701. PubMed ID: 23093063
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