Publications

  1. Sumner, R.; Eidelt, S.; Kilburn, T. B.; Erickson, C.; Carlson, B.; Gamelin, D. R.; McDowall, S.; Patrick, D., "Analysis of Optical Losses in High-Efficiency CuInS2-Based Nanocrystal Luminescent Solar Concentrators: Balancing Absorption versus Scattering," J. Phys. Chem, 100 (121), (2017), 3252-3260
  2. Knowles, K. E.; Kilburn, T. B.; Alzate, D. G.; McDowall, S.; Gamelin, D. R., "Bright CuInS2/CdS Nanocrystal Phosphors for High-Gain Full-Spectrum Luminescent Solar Concentrators," Nano Letters, 15 (2015), 1315-1323
  3. Bradshaw, L. R.; Knowles, K. E.; McDowall, S.; Gamelin, D. R., "Nanocrystals for Luminescent Solar Concentrators," Nano Letters, 15 (2015), 1315-1323
  4. Erickson C. S.; Bradshaw, L. R.; McDowall, S.; Gilbertson, J. D.; Gamelin, D. R.; Patrick, D. L., "Zero-absorbtion doped nanocrystal luminescent solar concentrators," ACS Nano, 8 (2014), 3461-3467
  5. Benjamin, W. E.; Veit, D. R.; Perkins, M. J.; Bain, E.; Scharnhorst, K.; McDowall, S.; Patrick, D. L.; Gilbertson, J. D., "Sterically Engineered Peryleve Dyes for High Efficiency Luminescent Solar Concentrators," Chem. Mater., 26 (2014), 1291-1293. Article selected as Editor's Choice.
  6. McDowall, S.; Butler, T.; Bain, E.; Scharnhorst, K.; Patrick, D. L., "Comprehensive analysis of escape-cone losses from luminescent waveguides," Appl. Optics, 52 (2013), no. 6, 1230-1239.
  7. McDowall, S.; Stefanov, P.; Tamasan, A., "Stability of the gauge equivalent classes in inverse stationary transport in refractive media," Tomography and Inverse Transport Theory, Contemporary Mathematics, vol. 559, Amer. Math. Soc., Providence, RI, (2011), pp. 85-100.
  8. McDowall, S.; Johnson, B.; Patrick, D. L., "Simulations of luminescent solar concentrators: Effects of polarization and fluorophore alignment," Journal of Applied Physics, 108 (2010), 053508.
  9. McDowall, S.; Stefanov, P.; Tamasan, A., "Stability of the gauge equivalent classes in stationary inverse transport," Inverse Problems, 26 (2010), 025006 (19pp).
  10. McDowall, S.; Stefanov, P.; Tamasan, A., "Gauge equivalence in stationary radiative transport through media with varying index of refraction," Inverse Problems and Imaging, 4 (2010), no. 1, 151-168.
  11. McDowall, S., "Optical tomography for media with variable index of refraction," Cubo, 11 (2009), no. 5, 71-97.
  12. Langmore, I.; McDowall, S., "Optical tomography for variable refractive index with angularly averaged measurements," Comm. PDE, 33 (2008), 2180-2207.
  13. McDowall, S., "Optical tomography on simple Riemannian surfaces," Comm. PDE, 30 (2005), no. 7-9, 1379-1400.
  14. McDowall, S., "An inverse problem for the transport equation in the presence of a Riemannian metric," Pac. J. Math., 216 (2004), no. 1, 107-129.
  15. McDowall, S., "An electromagnetic inverse problem in chiral media," Trans. AMS., 352 (2000), no. 7, 2993-3013.
  16. Joshi, M.; McDowall, S., "Total determination of material parameters from electromagnetic boundary information," Pacific J. Math., 193 (2000), no. 1, 107-129.
  17. Wood, G. R.; McDowall, S., Kleinschmidt, P., "Constructing infinite dimensional polytopes using Gale transforms," SEAMS Bull. Math., 23 (1999), 291-307.
  18. McDowall, S., "Boundary determination of material parameters from electromagnetic boundary information," Inverse Problems, 13 (1997), 153-163.