Photovoltaic Research Laboratory http://pv.mit.edu Tue, 21 May 2013 15:42:31 +0000 en-US hourly 1 http://wordpress.org/?v=3.4.2 Ultrathin amorphous zinc-tin-oxide buffer layer for enhancing heterojunction interface quality in metal-oxide solar cells http://pv.mit.edu/2013/04/ultrathin-amorphous-zinc-tin-oxide-buffer-layer-for-enhancing-heterojunction-interface-quality-in-metal-oxide-solar-cells/ http://pv.mit.edu/2013/04/ultrathin-amorphous-zinc-tin-oxide-buffer-layer-for-enhancing-heterojunction-interface-quality-in-metal-oxide-solar-cells/#comments Mon, 15 Apr 2013 15:42:14 +0000 Yun Seog Lee http://pv.mit.edu/?p=1612 http://pv.mit.edu/2013/04/ultrathin-amorphous-zinc-tin-oxide-buffer-layer-for-enhancing-heterojunction-interface-quality-in-metal-oxide-solar-cells/feed/ 0 Origins of Structural Hole Traps in Hydrogenated Amorphous Silicon http://pv.mit.edu/2013/04/origins-of-structural-hole-traps-in-hydrogenated-amorphous-silicon/ http://pv.mit.edu/2013/04/origins-of-structural-hole-traps-in-hydrogenated-amorphous-silicon/#comments Fri, 05 Apr 2013 23:33:50 +0000 Eric Johlin http://pv.mit.edu/?p=1604 http://pv.mit.edu/2013/04/origins-of-structural-hole-traps-in-hydrogenated-amorphous-silicon/feed/ 0 New room-temperature process could lead to less expensive solar cells and other electronic devices http://pv.mit.edu/2013/03/new-room-temperature-process-could-lead-to-less-expensive-solar-cells-and-other-electronic-devices/ http://pv.mit.edu/2013/03/new-room-temperature-process-could-lead-to-less-expensive-solar-cells-and-other-electronic-devices/#comments Thu, 14 Mar 2013 20:29:14 +0000 Allyna Nguyen http://pv.mit.edu/?p=1574 http://web.mit.edu/newsoffice/2013/a-cooler-way-to-protect-silicon-surfaces-0213.html

]]> http://pv.mit.edu/2013/03/new-room-temperature-process-could-lead-to-less-expensive-solar-cells-and-other-electronic-devices/feed/ 0 MIT researchers develop solar-to-fuel roadmap for crystalline silicon http://pv.mit.edu/2013/03/mit-researchers-develop-solar-to-fuel-roadmap-for-crystalline-silicon/ http://pv.mit.edu/2013/03/mit-researchers-develop-solar-to-fuel-roadmap-for-crystalline-silicon/#comments Thu, 14 Mar 2013 20:21:03 +0000 Allyna Nguyen http://pv.mit.edu/?p=1567  http://web.mit.edu/newsoffice/2013/artificial-leaf-efficiency-0304.html

]]> http://pv.mit.edu/2013/03/mit-researchers-develop-solar-to-fuel-roadmap-for-crystalline-silicon/feed/ 0 Residual stress and dislocations density in silicon ribbons grown via optical zone melting http://pv.mit.edu/2013/03/residual-stress-and-dislocations-density-in-silicon-ribbons-grown-via-optical-zone-melting/ http://pv.mit.edu/2013/03/residual-stress-and-dislocations-density-in-silicon-ribbons-grown-via-optical-zone-melting/#comments Thu, 14 Mar 2013 19:13:06 +0000 Tonio Buonassisi http://pv.mit.edu/?p=1563 http://pv.mit.edu/2013/03/residual-stress-and-dislocations-density-in-silicon-ribbons-grown-via-optical-zone-melting/feed/ 0 Interfaces between water splitting catalysts and buried silicon junctions http://pv.mit.edu/2013/03/interfaces-between-water-splitting-catalysts-and-buried-silicon-junctions/ http://pv.mit.edu/2013/03/interfaces-between-water-splitting-catalysts-and-buried-silicon-junctions/#comments Mon, 11 Mar 2013 23:59:23 +0000 Mark Winkler http://pv.mit.edu/?p=1531 http://pv.mit.edu/2013/03/interfaces-between-water-splitting-catalysts-and-buried-silicon-junctions/feed/ 0 Modeling integrated photovoltaic–electrochemical devices using steady-state equivalent circuits http://pv.mit.edu/2013/03/modeling-integrated-photovoltaic-electrochemical-devices-using-steady-state-equivalent-circuits/ http://pv.mit.edu/2013/03/modeling-integrated-photovoltaic-electrochemical-devices-using-steady-state-equivalent-circuits/#comments Mon, 11 Mar 2013 23:43:33 +0000 Mark Winkler http://pv.mit.edu/?p=1520 Featured in MIT News

]]> http://pv.mit.edu/2013/03/modeling-integrated-photovoltaic-electrochemical-devices-using-steady-state-equivalent-circuits/feed/ 0 Enhancing the efficiency of SnS solar cells via band-offset engineering with a zinc oxysulfide buffer layer http://pv.mit.edu/2013/02/enhancing-the-efficiency-of-sns-solar-cells-via-band-offset-engineering-with-a-zinc-oxysulfide-buffer-layer/ http://pv.mit.edu/2013/02/enhancing-the-efficiency-of-sns-solar-cells-via-band-offset-engineering-with-a-zinc-oxysulfide-buffer-layer/#comments Sat, 09 Feb 2013 23:15:14 +0000 Katy Hartman http://pv.mit.edu/?p=1499 http://pv.mit.edu/2013/02/enhancing-the-efficiency-of-sns-solar-cells-via-band-offset-engineering-with-a-zinc-oxysulfide-buffer-layer/feed/ 0 Co-Optimizing Crystalline Silicon Solar Cell Throughput and Efficiency Using Continuously Ramping Phosphorus Diffusion Profiles http://pv.mit.edu/2013/02/co-optimizing-crystalline-silicon-solar-cell-throughput-and-efficiency-using-continuously-ramping-phosphorus-diffusion-profiles/ http://pv.mit.edu/2013/02/co-optimizing-crystalline-silicon-solar-cell-throughput-and-efficiency-using-continuously-ramping-phosphorus-diffusion-profiles/#comments Mon, 04 Feb 2013 21:06:43 +0000 Ashley Morishige http://pv.mit.edu/?p=1489 http://pv.mit.edu/2013/02/co-optimizing-crystalline-silicon-solar-cell-throughput-and-efficiency-using-continuously-ramping-phosphorus-diffusion-profiles/feed/ 0 Co-optimizing the Phosphorous Diffusion Time-Temperature Profile for Gettering and Throughput http://pv.mit.edu/2013/02/co-optimizing-the-phosphorous-diffusion-time-temperature-profile-for-gettering-and-throughput/ http://pv.mit.edu/2013/02/co-optimizing-the-phosphorous-diffusion-time-temperature-profile-for-gettering-and-throughput/#comments Mon, 04 Feb 2013 20:06:03 +0000 Ashley Morishige http://pv.mit.edu/?p=1477 http://pv.mit.edu/2013/02/co-optimizing-the-phosphorous-diffusion-time-temperature-profile-for-gettering-and-throughput/feed/ 0