ARANGO

LAB

addressing the energy crisis with research into new semiconducting materials

 
  1. 1.N. Katz, A. C. Arango, and J. Hudgings. Mapping Temperature in OLED Displays Using CCD
    Thermoreflectance. Photonics Technology Letters, IEEE, 26 (2):194-197, Jan. 2014.

  2. 2.T. P. Osedach, N. Zhao, S. M. Geyer, L.-Y. Chang, D. D. Wanger, A. C. Arango, M. C. Bawendi, and V. Bulovic. Interfacial recombination for fast operation of a planar organic/qd infrared photodetector. Advanced Materials, 22 (46):5250-5254, Dec. 2010.

  3. 3.Zhao, Ni; Osedach, Tim P; Chang, Liang-Yi; Geyer, Scott M.; Wanger, Darcy; Binda, Mad- dalena T.; Arango, Alexi C.; Bawendi, Moungi G.; Bulovic, Vladimir. Colloidal PbS Quantum Dot Solar Cells with High Fill Factor. ACS Nano, 4 (7), 3743-3752, 2010.

  4. 4.A. C. Arango, D. C. Oertel, Y. Xue, M. G. Bawendi, and V. Bulovic. Heterojunction photo- voltaics using printed colloidal quantum dots as a photosensitive layer. Nano Lett, 9 (2):860-863, 2009

  5. 5.T. P. Osedach, S. M. Geyer, J. C. Ho, A. C. Arango, M. G. Bawendi, and V. Bulovic. Lateral hetero-junction photodetector consisting of molecular organic and colloidal quantum dot thin films. Applied Physics Letters, 94 (4):043307, 2009.

  6. 6.J. C. Ho, A. Arango, and V. Bulovic. Lateral organic bilayer heterojunction photoconductors. Applied Physics Letters, 93 (6):063305, 2008

  7. 7.D. C. Oertel, M. G. Bawendi, A. C. Arango, and V. Bulovic. Photodetectors based on treated CdSe quantum-dot films. Applied Physics Letters, 87 (21):213505, 2005

  8. 8.A. C. Arango, L. R. Johnson, V. N. Bliznyuk, Z. Schlesinger, S. A. Carter, and H. H. Horhold. Efficient Titanium Oxide/Conjugated Polymer Photovoltaics for Solar Energy Conversion. Ad- vanced Materials 12 (22), 1689-1692, 2000

  9. 9.A. C. Arango, P. J. Brock, S. A. Carter. Charge Transfer in Photovoltaics Consisting of Interpenetrating Networks of Conjugatd Polymer and TiO2 Nanoparticles. Applied Physics Letters 74 (12), 1698-1700, 1999

publications