Les Matériaux Accepteurs pour les Cellules Solaires Organiques

Similar documents

POLYMER BASED PHOTOVOLTAICS

Magneto-Optical Studies on Internal Photovoltaic Processes in Organic Solar Cells

High and Low Bandgap Polyfluorene Copolymers for Organic Solar Cells Xiwen Chen

Chapter 8. Exciton solar cells ORGANIC SOLAR CELLS

Conjugated Polymers for Optoelectronic Applications

Exciton dissociation in solar cells:

Organic semiconductors

High Efficiency Black Polymer Solar Cells November 2012 Annual Report

Understanding Organic Photovoltaic Cells: Electrode, Nanostructure, Reliability, and Performance. Myung-Su Kim

Introduction OLEDs OTFTs OPVC Summary. Organic Electronics. Felix Buth. Walter Schottky Institut, TU München. Joint Advanced Student School 2008

Lecture 15 - application of solid state materials solar cells and photovoltaics. Copying Nature... Anoxygenic photosynthesis in purple bacteria

Competition between the charge transfer state and the singlet states of donor or acceptor limiting the efficiency in polymer:fullerene solar cells

Materials and Technologies for Renewable Energy. ENEA R&D activities on PV. Anna De Lillo

Effect of 2D delocalization on charge. R. Österbacka

SPFraphene Determination Analysis and Its Structure

Dependence of the characteristics of organic solar cells on cathode polymer interface

Ricerca su celle fotovoltaiche innovative

Merocyanine Dyes as Donor Materials in Vacuum-Deposited Organic Solar Cells: Insights into Structure-Property-Performance Relationships

Chapter 2 Solution-Processed Organic Photovoltaics

Bulk-heterojunction Hybrid Solar Cells Based on Colloidal CdSe Quantum Dots and Conjugated Polymers

Lecture 22: Spinodal Decomposition: Part 1: general description and

Esnek Güneş Pilleri ve Fotovoltaik Tekstiller

New materials for PV Mirjam Theelen

GEOMETRIC CHARACTERIZATION AND OPTIMIZATION OF 3D ORGANIC FLEXIBLE SOLAR CELLS. A Thesis. Presented to the. Faculty of. San Diego State University

Arizona Institute for Renewable Energy & the Solar Power Laboratories

Celle solari di terza generazione (a fotosintesi )

Solar Hydrogen Generation For Energy Storage. Laura Meda Istituto eni-donegani Via Fauser 4, Novara

Controlling Gold Nanoparticles with Atomic Precision: Synthesis and Structure Determination

Solid State Detectors = Semi-Conductor based Detectors

A metal-free polymeric photocatalyst for hydrogen production from water under visible light

Sn-Cu Intermetallic Grain Morphology Related to Sn Layer Thickness

Organic Semiconductors W. Brütting

Prentice Hall. Chemistry (Wilbraham) 2008, National Student Edition - South Carolina Teacher s Edition. High School. High School

Basic principles and mechanisms of NSOM; Different scanning modes and systems of NSOM; General applications and advantages of NSOM.

EE 332 Photovoltaic Cell Design Iowa State University Electrical and Computer Engineering Dept

Advanced Energy Storage Materials for Battery Applications. Advanced Materials December 12 th, Peter H.L. Notten

The Current status of Korean silicon photovoltaic industry and market Sangwook Park LG Electronics Inc.

Cu Nanoparticles Enables Plasmonic-Improved Silicon Photovoltaic Devices

Deposition of Conducting Oxide Thin Films as Anode for Solar Cell Device

Solar Cell Parameters and Equivalent Circuit

OLED display. Ying Cao

Survival Organic Chemistry Part I: Molecular Models

ac Impedance Characteristics and Modeling of Polymer Solution Light-Emitting Devices

Influence of Solder Reaction Across Solder Joints

Materials for Organic Electronic. Jeremy Burroughes FRS FREng

Applied Physics of solar energy conversion

Wafer-based silicon PV technology Status, innovations and outlook

Ultrahigh-efficiency solar cells based on nanophotonic design

Role of Hydrogen Bonding on Protein Secondary Structure Introduction

1. Final report. 1.1 Project details. 1.2 Executive summary

A VERSATILE COUNTER FOR CONVERSION MÖSSBAUER SPECTROSCOPY

Solvent Effects on the UV/ Visible Absorption Spectra of Some Aminoazobenzene Dyes

OLED - Technologie der Zukunft

Preparation of ZnS and SnS Nanopowders by Modified SILAR Technique

Durability and Scale-Up of PerovskiteBased Mesoscopic Solar Cells

Correlation of Nelson Chemistry Alberta to the Alberta Chemistry Curriculum

EFFECT OF PARTICLE SIZE DISTRIBUTION ON THE MICROSTRUCTURE AND MAGNETIC PROPERTIES OF SINTERED NdFeB MAGNETS

Molecular Engineering for Solar Energy Conversion and Lighting Materials

Spectral Characterisation of Photovoltaic Devices Technical Note

Put the human back in Human Resources.

IR Applied to Isomer Analysis

Chemistry B11 Chapter 4 Chemical reactions

Hard Condensed Matter WZI

Workshop on Nanoscience for Solar Energy Conversion October 2008

Future Trends in Airline Pricing, Yield. March 13, 2013

The study of deep-level emission center in ZnO films grown on c-al 2 O 3 substrates

Exciton Fission & Solar energy conversion beyond the limit. Xiaoyang Zhu, Columbia University 1

What is a weak hydrogen bond?

MISCIBILITY AND INTERACTIONS IN CHITOSAN AND POLYACRYLAMIDE MIXTURES

The effect of film thickness on physical properties of fluorine-doped indium oxide thin films

Instructions Answer all questions in the spaces provided. Do all rough work in this book. Cross through any work you do not want to be marked.

Wittig Reaction - Phosphorous Ylides

Electrochemistry Worksheet

Rosalinda Inguantaa*, Emanuele Scadutoa, Patrizia Livrerib, Salvatore Piazzaa, Carmelo Sunseria

Ch 20 Electrochemistry: the study of the relationships between electricity and chemical reactions.

Excited state interaction in P-OLEDS implications for efficiency and lifetime

A. Essentially the order of Pt II affinity for these ligands (their Lewis basicity or nucleophilicity)

Photovoltaic and Photoelectrochemical Solar Cells

High Open Circuit Voltage of MQW Amorphous Silicon Photovoltaic Structures

Exciton Diffusion. Exciton Diffusion

Transcription:

Les Matériaux Accepteurs pour les Cellules olaires rganiques Piétrick HUDHMME JPV 2012 Chantilly - Gouvieux, 13 décembre 2012 1

Planar - and Bulk - Heterojunctions Planar Heterojunction Bulk Heterojunction... e - Al (cathode) A D IT (anode) light glass Al Li Photoactive layer PEDT/P light IT glass... e - e -...... Acceptor Larger p / n interfaces and higher chance of exciton formation and separation 2 Donor

Planar - and Bulk - Heterojunctions IT - 4.7 ev Voc Al - 4.2 ev A. Mishra, P. Bäuerle, Angew. Chem. Int. Ed., 2012, 51, 2020 3

rganic non-ullerene and ullerene based acceptors on ullerene Acceptors P. onar, J. P.. Lim, K. L. Chan, Energy Environ. ci., 2011, 4, 1558 ullerene-based Acceptors P. Hudhomme, J. Cousseau, ullerenes, principles and applications 2nde ed., C Publishing. Langa and J.-. ierengarten eds 2011, Chapter 12, 416 C. Li, H. Yip, A. Jen, J. Mater. Chem., 2012, 22, 4161 4

rganic non-ullerene acceptors on ullerene Acceptors P. onar, J. P.. Lim, K. L. Chan, Energy Environ. ci., 2011, 4, 1558 ullerene-based Acceptors P. Hudhomme, J. Cousseau, ullerenes, principles and applications 2nde ed., C Publishing. Langa and J.-. ierengarten eds 2011, Chapter 12, 416 C. Li, H. Yip, A. Jen, J. Mater. Chem., 2012, 22, 4161 5

C. W. Tang, Appl. Phys. Lett., 1986, 48, 183 CuPc PTCBI = Tang s solar cell Bilayer Planar - Heterojunction : C.W. Tang (1986) 1% Cu Cu-Pc PTCBI anti ACCEPT = PTCBI 3,4,9,10-Perylene TetraCarboxylic bisbenzimidazole (mixture of syn and anti isomers) PTCBI syn yn = 0.93% Anti = 1.1 %.B. im et al.,, Appl. Phys. Lett., 2007, 91, 173504 PTCBI anti CuPc = 30 nm PTCBI = 50 nm = 0.65 PCE 6 = 0.95%

ylene diimide - based acceptors oluble processable perylenediimide (PDI) acceptors : ' ' ' ' ' ' planar b a c 3.49 Å twisted. Würthner, Chem. Commun., 2004, 1564 7

ylene diimide - based acceptors Coronenes for Discotic Liquid Crystals : Blend HCB / PDI K. Müllen and coll, ol. Energy Mater. ol. Cells, 2010, 94, 560 Peri-hexabenzocoronene(HCB) Perylene azodicarboxyldiimide 8 Coronene monoimide

ylene diimide - based acceptors C C 2 e 2 C C C C Bulk Heterojunction : IT / PEDT:P / Donor : Acceptor / Al Voc = 0.9 V; Jsc = 8.30 ma/cm2; = 0.52; PCE = 3.88% The highest efficiency reported for a bulk-heteojunction solar cell that does not contain fullerene. J.A. Mikroyannidis and coll., ol. Energy Mater. ol. Cells, 2009, 93, 2025 9

Diketopyrrolopyrrole - based acceptors - Excellent performance as donor materials in bulk heterojunction solar cells Y. Zhu and coll., Beilstein J. rg. Chem., 2010, 6, 830 - Enhanced electron affinity by introducing electron withdrawing groups C 12 H 25 EW G C 3 C 12 H 25 EWG C 3 C 3 Bulk Heterojunction : IT / P3HT : DPP / Al Voc = 0.81 V; Jsc = 2.36 ma/cm2; = 0.52; PCE = 1.0 % Z.K. Chen and coll., J. Mater. Chem., 2010, 20, 3626 10

verview of small molecular acceptors Cyano PPV : ubphthalocyanines : C C 8 H 17 C 8 H 17 C Voc = 1.36 V; PCE = 1.7 % D. eher and coll., Chem. Mater., 2005, 17, 6532 n PCE = 0.96 % B Cl T. Torres and coll., Adv. unct. Mater., 2009, 19, 3435 Vinazene based oligomers : C C PCE = 1.4 % C C J. M. J. rechet and coll., Chem. Mater., 2010, 22, 1673 9,9 -Bifluorenylidenes : Me Me Voc = 1.10 PCE = 1.7% IT / PEDT:P / P3HT 11 : Acceptor / Ba/ Al. Wudl and coll., Ang. Chem. Int. Ed., 2010, 49, 532

rganic non-ullerene acceptors on ullerene Acceptors P. onar, J. P.. Lim, K. L. Chan, Energy Environ. ci., 2011, 4, 1558 or a new generation of PV acceptors : - arrow bandgap and high extinction coefficient - High LUM energy level to increase Voc - High electron mobility - Morphological compatibility with polymers Towards ullerene-based Acceptors : rom one- to three- dimensional acceptors 12

rganic ullerene based acceptors on ullerene Acceptors P. onar, J. P.. Lim, K. L. Chan, Energy Environ. ci., 2011, 4, 1558 ullerene-based Acceptors P. Hudhomme, J. Cousseau, ullerenes, principles and applications 2nde ed., C Publishing. Langa and J.-. ierengarten eds 2011, Chapter 12, 416 C. Li, H. Yip, A. Jen, J. Mater. Chem., 2012, 22, 4161 13

ullerenes C60 and C70 1985 : Discovery of C60 1990 : ynthesis of C60 and X-ray crystal structure 1992 : Evidence of photoinduced electron tranfer with polymer donors 1996 : obel Prize for H. Kroto,,. malley,,. Curl C60 : C60 : 80-85% C70 : 10-15% - 5000 $ / g in 1990-20 $ / g in 2012 C70 : - 300 $ / g in 2012 - trong electron mobility : 6 cm2 V-1 s-1 - High electron affinity 14

C60 et C70 PCBM Increasing of solubility CH 3. Wudl and coll., J. rg. Chem., 1995, 60, 532 C60 [60]PCBM Increasing of absorption CH 3 H 3 C CH 3 [70]PCBM α isomer (85%) β isomer (15%). A. J. Janssen and coll., Angew. Chem. Int. Ed., 152003, 42, 3371

C60 and C70 PCBM ptimization of the p-type polymer structure but much less work on p-type fullerenes CH 3 H 17C 8 C 8 H 17 C 12 H 25 2 m PVT C 6 H 13 n Br C 12 H 25 PTPTB n Br AP-Green 5 = -CH 2 CH(C 2 H 5 )C 4 H 9 n 12 10 8 [70]PCBM H 17 C 8 C 8H 17 AP 3 n H 21 C 10 C 10H 21 P10TBT n PCPDTBT n yield 6 (%) 4 2 0 0 2 4 6 year 8 10 12 H 17 C 8 C 8 H 17 H 17C 8 i C 8H 17 1 C 2 2 n CH 3 PCDTBT n Pi-DBT n PTB1 = H 1 = C 12 H 25 2 = C 8 H 17 PTB4 = 1 =C 8 H 17 2 = -CH 2 CH(C 2 H 5 )C 4 H 9 16 [60]PCBM

C60 and C70 PCBM CH 3 CH 3 E LUM(D) [60]PCBM [70]PCBM Eg E LUM = 0.3 ev LUM[60]PCBM LUM[70]PCBM VC HM(D ) E HM HM[60]PCBM HM[70]PCBM D ACCEPT Limitation : A relative low LUM level of PCBM limits the Voc. Wudl and coll. J. Mater. Chem. 2010, 20, 2934 17

Modifications of C60 PCBM Modification of the Aromatic Group Modification fo the chain length (CH 2 ) n CH 3 CH 3 n = 2 à 6 [60]PCBM Modification of the terminal function C n H 2n+1 CH2 (C 2 ) 6 C 3 H C 4 H 9 18

Modifications du C60 PCBM Modification of the attachment Me CH 2 Ph C 3 2 C 3 CH 2 Ph C 3 C 3 2 CH 3 PY [60]BTP [70]BTP [60]PCBM CH 3 [60]CMA Comparable results with P3HT:[60]PCBM J. M. J. rechet and coll., Chem. Mater., 2007, 19, 2927 [60]APCBM 19

Modifications of C60 PCBM ynthesis of Bis-adducts CH 3 i. C60 ii. Monoadduit iii. Bisadduit iv. Multiadduit CH 3 [60]PCBM bisadduct - LUM : 0.1 ev higher - Enhanced Voc 0.73 V which is 0.15 V higher than P3HT : PCBM - Higher PCE : 4.5% compared to 3.8 % with P3HT J. C. Hummelen and coll., Adv. Mater., 2008, 20, 2116 20

Indene C60 Bis-adduct : IC60BA Diels-Alder reaction ICMA + ICBA - ICBA = Mixture of 16 isomers + ICTA Y. Li and coll., J. Am. Chem. oc., 2010, 132, 1377 B. J. Kim and coll., Appl. Mater. Interfaces, 2012, 4, 110 PCBM ICMA ICBA ICTA 21

Indene C60 Bis-adduct : IC60BA Y. Li and coll., Adv. Mater., 2010, 22, 4355 ICBA E1 (V, vs Ag/Ag+) ICMA - 0.93 ICBA - 1.07 PCBM - 0.88 ICMA PCBM 22

Indene C70 Bis-adduct : IC70BA Y. Li and coll., Adv. unct. Mater., 2010, 20, 3383 [70]ICBA - LUM : 0.19 ev higher than this of PCBM 23

Conclusion and current Trends - Increasing the fullerene derivatives absorption : Concept of «super-absorbing fullerenes»: C 5 H 11 C 60 -PDI dyad P. Hudhomme,. M. Williams and coll., J. Phys. Chem. A, 2006, 110, 13123 C 2 C-PC 70 BM - LUM : 0.15 ev higher than this of PC70BM - P3HT : PC70BM : Voc = 0.66 V; Jsc = 9.40 ma/cm2; = 0.52; PCE = 3.23 % - P3HT : C-PC70BM : Voc = 0.82 V; Jsc = 10.64 ma/cm2; = 0.56; PCE = 4.88 %. P. ingh and coll., Adv. unct. Mater., 2012, 22, 4087 24

Conclusion and current Trends Blend P3HT / PCBM Blend P3HT / Cross linkable fullerene G. Wantz, L. Derue,. Dautel, B. Pavageau, A. Diacon, P. Hudhomme, A Cephorcas, Programme Habisol 2010-003 : Patent deposited in April 2012 25

EMECIEMET : A Cephorcas (HABIL 2010-003) : - IM Bordeaux (G. Wantz, L. Derue, L. Hirsch) - EC Montpellier AM2 (. Dautel) - IPEM Pau (C. Dagron-Lartigau,. Hiorns) - Institut Chimie Clermont-errand (A. ivaton, J.-L. Gardette) - hodia Bordeaux (B. Pavageau) University of Amsterdam :. M. Williams MLTECH-Anjou (Université d Angers) : - A. Diacon - J. Baffreau -. Leroy-Lhez Thank you very much for your attention 26