Perovskite quantum dots: a new absorber technology with unique phase stability for high voltage solar cells

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1 Perovskite quantum dots: a new absorber technology with unique phase stability for high voltage solar cells Joseph M. Luther National Renewable Energy Laboratory, Golden, CO

2 NREL PV Systems: South Table Mesa Campus 720 kw 1,156 kw 94 kw 857 kw 524 kw 2

3 3

4 What does PV efficiency mean? Solar Irradiance = 1000 W/m 2 20% module = 200 W/m 2 4

5 Silicon industry leader for utility/residential PV 5

6 6

7 III-V semiconductors highest efficiency & cost Typically used in space applications where fabrication cost is less critical than deployment $25,000 to lift a pound into space 7

8 Emerging PV offers potential but still emerging Organic semiconductors, organic dyes, nanomaterials & Perovskites 8

9 Solar Energy Conversion Challenge Quantum Dots for Next Generation Photovoltaics. O.E Semonin, J.M. Luther, M.C. Beard. Materials Today,

10 Approaches to breaking theoretical limit Nanotechnology helps enable many of these concepts Quantum Dots for Next Generation Photovoltaics. O.E Semonin, J.M. Luther, M.C. Beard. Materials Today,

11 Multiple Exciton Generation (MEG) compared to Si Quantum Efficiency = # of electrons out / # of photons absorbed Certain high-energy photons can be split into multiple electrons. Quantum Dots are one of the only materials that do this. Peak External Photocurrent Quantum Efficiency Exceeding 100% via MEG in a Quantum Dot Solar Cell, O.E. Semonin, J.M. Luther, S. Choi, H.Y. Chen, J. Gao, A.J. Nozik, M.C. Beard, Science,

12 Multijunction Sunlight colors can be divided up and converted independently The more junctions, the more efficient it can be InGaP - Blue/UV light, 1.45 V GaAs - Green light, 1.1 V Ge Red/IR light, 0.35V Aim to find cheap way to do this 12

13 Pb-halide Perovskite semiconductors Perovskites: Efficient, inexpensive, flexible, radiation hard, tunable (composition, size) 13

14 How did Pb-halide Perovskite PVs get to where they are? Incredible rise in efficiency (<4 to 23% short time) More tolerant to defects than any other electronic material. Solution or vapor-deposited material New Semiconductor system poised to greatly reform optoelectronics: o Solar Cells o LED / Solid State Lighting o TV / Display technology o Lasers, photodetectors, sensors, Gamma detectors Stability and Phase Transitions are critical to understand before deployment! 14

15 Flexible high power-per-weight perovskite solar cells Nat. Mater. 14, (2015) 15

16 Question: So how has this semiconductor escaped us for so long??? A-site cation 16

17 Geometric Factor for Happy Perovskites Hexagonal (face sharing) Cubic (corner sharing) Orthorhombic (edge sharing) In the PbI 3 - system, the cubic phase requires an irregularly large cation Unique combination of organic cation and inorganic anion Li, Z., Zhu, K. et al. Chemistry of Materials (2015). 17

18 Overcoming Phase Challenge in CsPbX 3 Perovskites Desired Cubic Phase Nanocrystals with bright light emission Undesired Orthorhombic phase Protesescu, L. et al. Nano Lett. 15, (2015). S. Sharma et al. zpch 175, (1992). 18

19 Quantum Dots stable in the cubic phase at RT Quantum dot induced phase stabilization of α-cspbi 3 perovskite for high-efficiency photovoltaics. Swarnkar, Marshall, Sanehira, Chernomordik, Moore, Christians, Chakrabarti, and Luther. Science,

20 Thin film (bulk) perovskites vs Nanocrystals Solvated Perovskite precursor molecules which crystalize as the solvent dries Perovskite nanocrystals in solution 20

21 Method to fabricate conductive CsPbI 3 QD films Quantum dot induced phase stabilization of α-cspbi 3 perovskite for high-efficiency photovoltaics. Swarnkar, Marshall, Sanehira, Chernomordik, Moore, Christians, Chakrabarti, and Luther. Science,

22 CsPbI 3 QD films with world record QD-cell efficiency Enhanced mobility CsPbI 3 quantum dot arrays for record-efficiency, high-voltage photovoltaic cells. Sanehira, Marshall, Christians, Harvey, Ciesielski, Wheeler, Schulz, Lin, Beard, and Luther. Science Advances,

23 New Material Yields record QD solar cell 23

24 Wolfgang Pauli 24

25 Conclusions / Vision Newspaper Solar cell If we can print solar cells like we print newspaper, we could cheaply produce all the electricity we need very rapidly 1 newspaper plant could produce a TW yr Free electrons on the grid: storage options, power beaming, etc. Lightweight radiation hard PV could enable balloon-like modules PV could be manufactured where it s needed low CapEx 25

26 Acknowledgments Students: Erin Sanehira Abhishek Swarnkar Ashley Marshall Greg Pach Postdocs: Jeff Christians Ashley Gaulding David Moore Philip Schulz Special Thanks To: Arthur Nozik Matthew Beard Joe Berry Kai Zhu Jao van de 26

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