Materials interface engineering for solution-processed photovoltaics

  title={Materials interface engineering for solution-processed photovoltaics},
  author={Michael Graetzel and Ren{\'e} A J Janssen and David B. Mitzi and Edward H. Sargent},
Advances in solar photovoltaics are urgently needed to increase the performance and reduce the cost of harvesting solar power. Solution-processed photovoltaics are cost-effective to manufacture and offer the potential for physical flexibility. Rapid progress in their development has increased their solar-power conversion efficiencies. The nanometre (electron) and micrometre (photon) scale interfaces between the crystalline domains that make up solution-processed solar cells are crucial for… CONTINUE READING
Highly Cited
This paper has 228 citations. REVIEW CITATIONS


Publications citing this paper.
Showing 1-10 of 94 extracted citations

228 Citations

Citations per Year
Semantic Scholar estimates that this publication has 228 citations based on the available data.

See our FAQ for additional information.


Publications referenced by this paper.
Showing 1-10 of 104 references

Band alignments with ZnO, ZnS, and In2S3

  • Barkhouse, D.A.R. et al. Cd-free buffer layer materials on Cu2ZnSn4
  • Appl. Phys. Lett. 100, 193904–193905
  • 2012

Cd - free buffer layer materials on Cu 2 ZnSn ( SxSe 1x ) 4 : Band alignments with ZnO , ZnS , and In 2 S 3

  • D. A. R. Barkhouse
  • Appl . Phys . Lett .
  • 2012

Device characteristics of a 10.1% hydrazine-processed Cu2ZnSn(Se,S)4 solar cell

  • D.A.R. Barkhouse, O. Gunawan, T. Gokmen, T. K. Todorov, D. B. Mitzi
  • Prog. Photovolt. Res. Appl. 20,
  • 2012

Enhanced open-circuit voltage in high performance polymer/fullerene bulk-heterojunction solar cells by cathode modification with a C60 surfactant

  • K. M. O’Malley, Li, C.-Z, Yip, H.-L, A.K.Y. Jen
  • Adv. Energy Mater
  • 2012

High-efficiency dye-sensitized solar cell with a novel co-adsorbent

  • L Han
  • Energy Environ. Sci
  • 2012

Planar PbS quantum dot/C60 heterojunction photovoltaic devices with 5.2% power conversion efficiency

  • Klem, D E.J.
  • Appl. Phys. Lett. 100,
  • 2012

Solution-processed Cu(In,Ga)(S,Se)2 absorber yielding a 15.2% efficient solar cell

  • T. K. Todorov, O. Gunawan, T. Gokmen, D. B. Mitzi
  • Prog. Photovolt. Res. Appl
  • 2012

Similar Papers

Loading similar papers…