JESUS GUARDADO, LEAH NATION, HUY NGUYEN, TINA RO

1. JESUS GUARDADO, LEAH NATION, HUY NGUYEN, TINA RO Polymer Photovoltaic Cells: Prototype Presentation April 15, 2010

2. Understanding the Market of Solar Energy

3. Our Focus: Polymer Photovoltaic Cells Easily Fabricated Room T processing Printable More applications Light weight Flexible Current disadvantages Less stable Lower efficiency

4. SWCNT at 80,000x • Objective: • Improve the efficiency of PVC to increase competitiveness and allow for niche application use • Carbon Nanotubes • High e- affinity • Improve carrier transport • Improves performance • Cost: $8 per m2 Our Design & Objective: sw-CNTs

5. How It Works: • Layers are spin-coated • Cell: • Active layer • Charge acceptors • Electrodes

6. How It Works: • Photons => Exitons • Carbon Nanotubes: • Charge transport • Prevents recombination

7. How It Works: Electron => TiO2 Hole => PEDOT

8. How It Works: Electrodes accept charges

9. Procedure Description Assembly Prepare solutions and centrifuge Spin coat substrate samples Electrode deposition Testing Efficiency calculation via I-V curve Optical absorption range of PPCs via UV Vis spectroscopy Characterization Nanostructure via AFM, TEM, SEM

10. Samples Blends: • Control (0% CNT) • Sample 1 (6% CNT) •  Sample 2 (3.75% CNT) Layers (show picture): • FTO • PEDOT • P3HT/CNTs • TiO2 • Ag FTO - Fluoride Tin Oxide PEDOT - Poly(3,4-ethylenedioxythiophene) P3HT - poly(3-hexylthiophene)

11. Our Design: The Cell

12. Our Design: The Cell

13. Our Design: The Cell

14. Our Design: The Cell

15. Our Design: The Cell

16. Modifications Before: • Spin coat at 2000 rpm • 1 mg P3HT/mL chloroform • Probe testing in dark box • 0.0121cm2 area devices • 10 device/slide • After: • Spin coat at 1000 rpm • 4 mg P3HT/mL dichlorobenzene • Probe testing in air • 0.4cm2 area devices • 4 devices/ slide

17. FTO instead of ITO substrate availability  4 devices per glass slide need precise tape placement P3HT solvent -> dichlorobenzene: lower volatility Considerations behind our Modifications

18. UV-Vis Results: Round II

19. UV-Vis Results: Round II

20. Testing Results: Round II Sample 4 Concentration 1 Sample 6 Concentration 2

21. Next Steps • 40 mg P3HT/mL dichlorobenzene • ITO patterned slides • Pattern  no tape • ITO better light absorption range • Spin coat P3HT layer 2x • Thicker • Less likely to short-circuit • Won't trap electrons and holes • Spin coat solvent layer before P3HT/sw-CNT layer • Increase solubility

22. Current Progress & Future Schedule

23. Thank you. Questions?You may reach us at nanosol@mit.eduhttp://web.mit.edu/course/3/3.042/team1_10

24. Appendix

25. Renewable Energy Comparison

26. Cost Estimation $/gram mg/mL L/slide slides/meter $/meter 100 0.1875 0.0001 4444.44 8.33 PRODUCTION COSTS, to be added to other company's approximation of $/meter CNT $ 15-20% cnts

27. Team's Resources Expertise: Helen Zeng; MIT Research Laboratory of Electronics Research Scientist  Yin-lin Xie; MIT Materials Science and Engineering Technical Instructor   Jill Rowehl; MIT Materials Science and Engineering Doctoral Candidate Laboratories: Institute of Soldier Nanotechnologies (ISN) Organic Nanostructure Electronics (ONE) Lab