Grann EB, Moharam MG, Pommet DA: Optimal design for antireflectiv

Grann EB, Moharam MG, Pommet DA: Optimal design for antireflective tapered two-dimensional subwavelength grating structures. J Opt Soc Am A 1995, 12:333.CrossRef 9. Xi J-Q, Schubert MF,

Kim JK, Schubert EF, Chen M, Lin S-Y, Liu W, Smart JA: Improved broadband and quasi-omnidirectional anti-reflection properties with biomimetic silicon nanostructures. Nat Photonics 2007, 1:176. 10. Leem JW, Joo DH, Yu JS: Biomimetic parabola-shaped AZO subwavelength grating structures for efficient antireflection of Si-based solar cells. Sol Energy Mater Sol Cells 2011, 95:2221.CrossRef 11. Sainiemi L, Jokinen V, Shah A, Shpak M, Aura S, Suvanto P, Franssila S: Non-reflecting silicon and polymer surfaces by plasma etching and replication. Adv Mater 2011, 23:122.CrossRef 12. Som T, Kanjilal D: Nanofabrication

by Selleckchem Palbociclib Ion-Beam Sputtering: Fundamentals and Applications. Singapore: Pan Stanford; 2012. 13. Basu T, Datta DP, Som T: Transition from ripples to faceted structures under low-energy argon ion bombardment of silicon: understanding the role of shadowing and sputtering. Nanoscale Res Lett 2013, 8:289.CrossRef 14. Nanotech: WSxM Program. [http://​www.​nanotec.​es/​products/​wsxm/​] 15. Czech Metrology Institute, Czech Republic: Gwyddion. [http://​gwyddion.​net/​] 16. Kumar M, Kanjilal A, Som T: Effect of grain-boundaries on electrical properties of n-ZnO:Al/p-Si heterojunction diodes. AIP Adv 2013, 3:092126.CrossRef 17. Mendelson MI: Average grain size in polycrystalline ceramics. J Am Ceram Soc 1969, see more 52:443.CrossRef 18. Tikhonravov

AV, Trubetskov MK, Amotchkina TV, Dobrowolski JA: Estimation of the average residual reflectance of broadband antireflection coatings. Appl Opt 2008, 47:C124.CrossRef 19. Boden SA, selleck chemicals Bagnall DM: Tunable reflection minima of nanostructured antireflective surfaces. Appl Phys Lett 2008, 93:133108.CrossRef 20. Pai Y-H, Meng F-S, Lin C-J, Kuo H-C, Hsu S-H, Chang Y-C, Lin G-R: Aspect-ratio-dependent ultra-low reflection and luminescence of dry-etched Si nanopillars on Si substrate. Nanotechnology 2009, 20:035303.CrossRef 21. Yu X, Yu X, Zhang J, Hu Z, Zhao G, Zhao Y: Effective light trapping enhanced DNA ligase near-UV/blue light absorption in inverted polymer solar cells via sol–gel textured Al-doped ZnO buffer layer. Sol Energy Mater Sol Cells 2014, 121:28.CrossRef 22. Shen L, Ma ZQ, Shen C, Li F, He B, Xu F: Studies on fabrication and characterization of a ZnO/p-Si-based solar cell. Superlattice Microst 2010, 48:426.CrossRef 23. Lee JY, Glunz SW: Investigation of various surface passivation schemes for silicon solar cells. Sol Energy Mater Sol Cells 2006, 90:82.CrossRef 24. Zhao J, Wang A, Altermatt PP, Wenham SR, Green MA: 24% efficient perl silicon solar cell: recent improvements in high efficiency silicon cell research. Sol Sol Energy Mater Sol Cells 1996, 41:87.CrossRef 25. Honsberg C, Bowden S: Anti-reflection coatings. [http://​pveducation.​org/​pvcdrom/​design/​anti-reflection-coatings] 26.

Comments are closed.