Presentation is loading. Please wait.

Presentation is loading. Please wait.

Fullerene Derivatives Kirsten Parratt, Loo Lab, 11/9/2010

Published byAlice Reed Modified over 8 years ago

Similar presentations

Presentation on theme: "Fullerene Derivatives Kirsten Parratt, Loo Lab, 11/9/2010"— Presentation transcript:

1 Fullerene Derivatives Kirsten Parratt, Loo Lab, 11/9/2010
How Molecular Structure Influences Device Performance in Organic Solar Cells Fullerene Derivatives Kirsten Parratt, Loo Lab, 11/9/2010

2 How it works Photons absorbed by the organic compounds in the active layer create an exciton which diffuses randomly Upon reaching the acceptor and donor interface, the electron dissociates from the hole Both electron and hole are transported to their respective electrode Al Al Al ITO ITO ITO

3 Why Organic Solar Cells?
An alternative to silicon solar cells: Easier manufacturing Low temperature processing Solution processing Lower costs Flexible substrates

4 Electron Acceptor and Donor
P3HT/PCBM cells currently have one of the highest efficiencies (~5-6%) PCBM: [6,6]phenyl-C61-butyric acid methyl ester, acceptor small molecule P3HT: Poly(3-hexylthiophene), donor polymer LUMO 3.7 eV 5.1 eV Al P3HT P3HT ITO PCBM PCBM Al HOMO ITO Light

5 Electron Acceptor and Donor
P3HT/PCBM cells currently have one of the highest efficiencies (~5-6%) PCBM: [6,6]phenyl-C61-butyric acid methyl ester, acceptor small molecule P3HT: Poly(3-hexylthiophene), donor polymer Charge transport through pi orbitals Light 3.7 eV 5.1 eV Al P3HT ITO PCBM PCBM P3HT

6 Electron Acceptor and Donor
P3HT/PCBM cells currently have one of the highest efficiencies (~5-6%) PCBM: [6,6]phenyl-C61-butyric acid methyl ester, acceptor small molecule P3HT: Poly(3-hexylthiophene), donor polymer 3.7 eV 5.1 eV Al P3HT ITO PCBM PCBM P3HT

7 Electron Acceptor and Donor
P3HT/PCBM cells currently have one of the highest efficiencies (~5-6%) PCBM: [6,6]phenyl-C61-butyric acid methyl ester, acceptor small molecule P3HT: Poly(3-hexylthiophene), donor polymer 3.7 eV 5.1 eV P3HT Al ITO PCBM PCBM P3HT

8 Overview of Morphology-Length Scales
Molecular ordering Crystal size Phase separation

9 Structure/Function Relationship
Systematically altered fullerene for better packing How the molecules pack effects device performance CF3-TNPS-Tet-Fu TNPS-Tet-Fu TES-Tet-Fu Large Side group Small Side group J. Anthony

10 Desired Stacking Bad transfer Good transfer Contact between fullerenes should have better charge transfer Fullerene-acene contact will be worse Best packing comes from the closest fullerenes J. Anthony

11 Stacking J. Anthony Bad transfer Good transfer CF3-TNPS-Tet-Fu
TES-Tet-Fu Good Transport Bad Transport J. Anthony

12 Single Carrier Diodes Composed of only a fullerene
No photocurrent generation Measure the transport of charge through the active layer ITO Fullerene Pedot Al

13 Mobility ue= (J0.5/V)2* L3*e0*er*8/9
e0-permitivity of free space = × m-3 kg-1 s4 A2 er-dielectric constant = 3.9 - Measure of how fast charges can transport through the layer

14 Efficiency Jsc Efficiency = max power 100 mW/cm2 Maximum power Voc

15 Bilayer Comparison Jsc shows same trend as mobilities in SCD
CF3-TNPS-Tet-Fu shows worst Jsc and device performance Efficiency (%) 3.3E-2 1.6E-3 4.77E-5

16 Conclusion The observed mobilities and efficiencies show the same trends Most likely this trends correlates to the size of the side group CF3-TNPS-Tet-Fu TNPS-Tet-Fu TES-Tet-Fu Large Side group Low efficiency Small Side group High efficiency

17 Future Work Crystallized derivatives would allow us to determine if the molecules are packing as planned More through testing of solvent vapor and thermal annealling Thermal evaporation of the fullerene layer

18 Acknowledgements Professor Loo Stephanie Lee Loo lab PEI

Download ppt "Fullerene Derivatives Kirsten Parratt, Loo Lab, 11/9/2010"

Similar presentations

Jason D. Myers, Sang-Hyun Eom, Vincent Cassidy, and Jiangeng Xue

Jason D. Myers, Sang-Hyun Eom, Vincent Cassidy, and Jiangeng Xue
Chapter 9. PN-junction diodes: Applications

Chapter 9. PN-junction diodes: Applications
What is graphene? In late 2004, graphene was discovered by Andre Geim and Kostya Novoselov (Univ. of Manchester). - 2010 Nobel Prize in Physics Q1. How.

What is graphene? In late 2004, graphene was discovered by Andre Geim and Kostya Novoselov (Univ. of Manchester) Nobel Prize in Physics Q1. How.
Nanowire dye-sensitized solar cells

Nanowire dye-sensitized solar cells
P3HT:PCBM Possible way to home-use solar cell “foliage” Ge, Weihao.

P3HT:PCBM Possible way to home-use solar cell “foliage” Ge, Weihao.
Juan Bisquert Nanostructured Energy Devices: Equilibrium Concepts and Kinetics CRC Press 1 1Introduction 2Electrostatic and thermodynamic potentials of.

Juan Bisquert Nanostructured Energy Devices: Equilibrium Concepts and Kinetics CRC Press 1 1Introduction 2Electrostatic and thermodynamic potentials of.
Generation and Recombination in Organic Solar Cells

Generation and Recombination in Organic Solar Cells
CH. 3 Solar Cell Basic III: Principle Organic Materials for Electronics and Photonics II.

CH. 3 Solar Cell Basic III: Principle Organic Materials for Electronics and Photonics II.
Nano organic solar cells Nagwa I. Ibrahim Zulfi College of education Majmaah University Abstract Organic solar cells are usually manufactured from conjugated.

Nano organic solar cells Nagwa I. Ibrahim Zulfi College of education Majmaah University Abstract Organic solar cells are usually manufactured from conjugated.
Influence of Acceptor Structure on Barriers to Charge Separation in Organic Photovoltaic Materials Ryan D. Pensack†, Changhe Guo‡, Kiarash Vakhshouri‡,

Influence of Acceptor Structure on Barriers to Charge Separation in Organic Photovoltaic Materials Ryan D. Pensack†, Changhe Guo‡, Kiarash Vakhshouri‡,
Report Speaker: C.A. Chen Teacher: G.S Liou 2013.11.15 Class: Special Topics on Polymers Synthesis.

Report Speaker: C.A. Chen Teacher: G.S Liou Class: Special Topics on Polymers Synthesis.
Substantially Conductive Polymers Part 02. Usually, soliton is served as the charge carrier for a degenerated conducting polymer (e.g. PA) whereas.

Substantially Conductive Polymers Part 02. Usually, soliton is served as the charge carrier for a degenerated conducting polymer (e.g. PA) whereas.
Utilizing Carbon Nanotubes to Improve Efficiency of Organic Solar Cells ENMA 490 Spring 2006.

Utilizing Carbon Nanotubes to Improve Efficiency of Organic Solar Cells ENMA 490 Spring 2006.
Integrated Circuit Devices

Integrated Circuit Devices
Structure-Function Relationships in Organic Field Effect Transistors Kirsten Parratt Summer 2011 Loo Group.

Structure-Function Relationships in Organic Field Effect Transistors Kirsten Parratt Summer 2011 Loo Group.
Coupled optoelectronic simulation of organic bulk-heterojunction solar cells: Parameter extraction and sensitivity analysis R. Häusermann,1,a E. Knapp,1.

Coupled optoelectronic simulation of organic bulk-heterojunction solar cells: Parameter extraction and sensitivity analysis R. Häusermann,1,a E. Knapp,1.
| 1 Plastic solar cells M. A. Loi Zernike Institute for Advanced Materials University of Groningen, The Netherlands

| 1 Plastic solar cells M. A. Loi Zernike Institute for Advanced Materials University of Groningen, The Netherlands
1 Air Force Research Laboratory Dr. Michael F. Durstock, 937-255-9208, Device Architectures.. Aluminum ITO Glass V Electron.

1 Air Force Research Laboratory Dr. Michael F. Durstock, , Device Architectures.. Aluminum ITO Glass V Electron.
Increasing life span of polymer solar cell. Nagilthes Muthu Chem 4101 Fall 2011.

Increasing life span of polymer solar cell. Nagilthes Muthu Chem 4101 Fall 2011.
Technology Trends of Organic Devices

Technology Trends of Organic Devices

Similar presentations

Ads by Google