perovskites: crystal structure, important compounds · pdf filestructure, important compounds...
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Perovskites: crystal
structure, important
compounds and properties
Peng Gao
GMF Group Meeting
12,04,2016
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Solar energy resource
Terrestrial sun light
Global Power Demand
PV instillations
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To start
• We have to solve the energy problem.
• Any technology that has good potential to cut carbon
emissions by > 10 % needs to be explored
aggressively.
• Researchers should not be deterred by the struggles
some companies are having.
• Someone needs to invest in scaling up promising
solar cell technologies.
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Origin And History of Perovskite compounds
Perovskite is calcium titanium oxide or calcium titanate, with the chemical formula CaTiO3. The
mineral was discovered by Gustav Rose in 1839 and is named after Russian mineralogist Count Lev
Alekseevich Perovski (1792–1856).”
All materials with the same crystal structure as
CaTiO3, namely ABX3, are termed perovskites:
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Very stable structure, large number of compounds, variety of properties, many
practical applications.
Key role of the BO6 octahedra in ferromagnetism and ferroelectricity.
Extensive formation of solid solutions material optimization by composition
control and phase transition engineering.
A2+
B4+
O2-
Ideal cubic perovskite structure (ABO3)
Origin And History of Perovskite compounds
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PerovskiteSystems
Inorganic Oxide
Perovskites
Intrinsic Perovskites
Doped Perovskites
Halide Perovskites
Alkali-halide Perovskites
A2Cl(LaNb2)O7
Organo-Metal Halide
Perovskites
Classification of Perovskite System
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Structure deduced
1959:
Kongelige Danske Videnskabernes Selskab, Matematisk-Fysike
Meddelelser (1959) 32,
p1-p17
Author:
Moller, C.K.
Title: The structure of cesium plumbo iodide CsPbI3
1892: 1st paper
on lead halide
perovskites
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Reference
compound
Properties Existing and potential
applications
Notes
BaTiO3Ferroelectricity, piezoelectricity, high dielectric constant Multilayer ceramic capacitors (MLCCs),
PTCR resistors, embedded capacitance
Most widely used dielectric ceramic
TC = 125°C
(Ba,Sr)TiO3Non-linear dielectric properties Tunable microwave devices Used in the paraelectric state
Pb(Zr,Ti)O3Ferroelectricity, piezoelectricity Piezoelectric transducers and actuators,
ferroelectric memories (FERAMs)
PZT: most successful piezoelectric
material
Bi4Ti3O12Ferroelectric with high Curie temperature High-temperature actuators, FeRAMs Aurivillius compound
TC = 675°C
(K0.5Na0.5)NbO3,
Na0.5Bi0.5TiO3
Ferroelectricity, piezoelectricity Lead-free piezoceramics Performances not yet comparable to
PZT but rapid progress
(Pb,La)(Ti,Zr)O3Transparent ferroelectric Optoelectronic devices First transparent ferroelectric ceramic
BiFeO3Magnetoelectric coupling, high Curie temperature Magnetic field detectors,
memories
Most investigated multiferroic
compound. TC = 850°C
PbMg1/3Nb2/3O3Relaxor ferroelectric Capacitors, actuators High permittivity, large electrostrictive
coefficients, frequency-dependent
properties
SrRuO3Ferromagnetism Electrode material for epitaxial ferroelectric
thin films
(La, A)MnO3
A = Ca, Sr, Ba
Ferromagnetism, giant magnetoresistance, spin-
polarized electrons
Magnetic field sensors, spin electronic
devices
SrTiO3Incipient ferroelectricity, thermoelectric power, metallic
electronic conduction when n-doped, mixed
conduction when p-doped, photocatalyst
Alternative gate dielectric material, barrier
layer capacitors, substrate for epitaxial
growth, photoassisted water splitting
Multifunctional material
LaGaO3
BaIn2O5
Oxyde-ion conduction Electrolyte in solid oxide fuel cells (SOFCs) BaIn2O5 is an oxygen deficient
perovskite with brownmillerite structure.
BaCeO3, BaZrO3Proton conduction Electrolyte in protonic solid oxide fuel cells (P-
SOFCs)
High protonic conduction at 500-
700°C
(La,Sr)BO3
(B = Mn, Fe, Co)
Mixed conduction, catalyst Cathode material in SOFCs, oxygen
separation membranes, membrane reactors,
controlled oxidation of hydrocarbons,
Used for SOFC cathodes
LaAlO3
YAlO3
Host materials for rare-earth luminescent ions, Lasers
Substrates for epitaxial film deposition
Useful salts with perovskite structure
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Early publications on lead halide perovskites
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1st Solar Cell Reports
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Solid-State DSC
Solid hole conductor PCERedox electrolyte
PCEdye
DSSC using hole transport material DSSC using redox electrolyte
TiO2
TiO2
light harvester
dye or pigment film
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Evolution of device structures
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Various device fabrication methods
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a) N. J. Jeon, J. H. Noh, Y. C. Kim, W. S. Yang, S. Ryu, S. I. Seok, Nat Mater 2014, 13, 897-903.
b) M. Xiao, F. Huang, W. Huang, Y. Dkhissi, Y. Zhu, J. Etheridge, A. Gray-Weale, U. Bach, Y.-B. Cheng, L. Spiccia, Angew. Chemie
Int. Ed. 2014, 53, 9898–9903.
‘Anti-solvent’ the key to optimum morphology
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Perovskite vs silicon technology
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Production of silicon and silicon wafers
Expensive, high-energy process, generating high levels of waste material
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Production of perovskite cell
Simpler, lower cost, lower embodied energy, massively reduced environmental
impact
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Toxicity
Abundance
Medium Medium Low High
Low Low High High
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Low Bandgap – q·Voc Loss in Perovskite Solar Cells
Material Bandgap (eV) q·Voc (eV) Energy loss (eV)
GaAs 1.43 1.12 0.31
Silicon 1.12 0.75 0.37
CIGS ~1.15 0.74 0.41
Perovskite
(CH3NH3PbI3)1.55 1.07 0.48
CdTe 1.49 0.90 0.59
a-Silicon 1.55 0.89 0.66
M. Green et al. Solar cell efficiency tables (version 42) July 2013
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The hybride Perovskite is a Strongly-Absorbing Direct
Band Gap Semiconductor
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The Perovskite Bandgap can be tuned by Chemical
Substitution
The band gap can be tuned from 1.57 eV to 2.23 eV by
substituting bromine for iodine in CH3NH3Pb(BrxI1-x)3
Noh et al., Nano Lett. 2013
For hybrid
tandem
with CIGS
eV
But the morphology is not stable!
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Lead-free: CH3NH3SnI3 Perovskite
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Tuning the structure of perovskites from 3D to 2D
• When will a 3D perovskite form?
• When the A, B and X components fit together neatly in the crystal lattice.
• Assuming ionic radii of RA etc, For a close packed cubic perovskite the structure is possible,
provided:
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Low dimensional perovskite with more possibilities
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The basic structures of 2D organic–inorganic perovskite
with bilayer and single layer intercalated organic
molecules
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Schematic representations of hydrogen-bond styles between
NH3+ heads with an inorganic framework
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<110>-oriented (C6H13N3)PbBr4 (API-PbBr4)
that is prepared by reacting N-(3-amino-
propyl)imidazole (API) with PbBr2 in
hydrobromic acid.
<110> oriented 2D organic-inorganic hybrid perovskite
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5,5’-bis(2-aminoethyl)-2,2’:5’,2’:5’,2’-quaterthiophene (AEQT)
based 2D organic-inorganic hybrid perovskite
Room temperature photoluminescence
excitation (λem = 540 nm) and emission (λex =
370 nm) spectra for thermally ablated thin
films of (AEQT)PbX4 with (a) X = Cl and (b) X
= I.10.1021/ic991048k
Cl
Br
l
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Polymerization within the organic layer of perovskite structures
6-amino-2,4-trans,trans-hexadienoic acid, within a cadmium (II)
chloride perovskite framework, polymerizes under ultraviolet (UV)
irradiation.
More rigid and stable perovskite structure!
B. Tieke and G. Chapuis, Mol. Cryst. Liq. Cryst., 1986, 137, 101
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Ni(bipy)3 as cations for 2D perovskite as hybrid
magnetic semiconductor
10.1016/j.jssc.2007.10.010
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Take home message
• Being toxic and instable, Lead-Halide perovskite is an excellent
‘MODLE’ material for electronic application.
• 3D type , Lead-Halide perovskite has found prevailing application in
PV field.
• 3D type , Lead-Halide perovskite can be strong competitor to silicon
PV
• 2D or 1D type perovskite provide more possibility for more broad
applications.
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References
1. Band alignment of the hybrid halide perovskites CH3NH3PbCl3, CH3NH3PbBr3 and CH3NH3PbI3
2. Keith T. Butler, Jarvist M. Frost and Aron Walsh
3. Recent progress in efficient hybrid lead halide perovskite solar cells – Jin Cui, Hualiang Yuan, Hong Lin et;al.
4. Crystallography and Chemistry of Perovskites Mats Johnsson and Peter Lemmens (Dept. Inorg. Chemistry, Stockholm University)
5. Perovskite Solar cells: An emerging photovoltaic technology Nam-Gyu Park (SKKU)
6. Perovskite Solar Cells: Film Formation and properties- Tze Bin Song, Qi Chen, Huanping Zhou, et al.
7. www.solarpowerworldonline.com/2015/04/the-perfect-marriage-silicon-and-perovskite-solar-cells/
8. Lead-free organic–inorganic tin halide perovskites for photovoltaic applications -Nakita K. Noel, Samuel D. Stranks, Antonio Abate, Christian
Wehrenfennig, Simone Guarnera, Amir-Abbas Haghighirad, Aditya Sadhanala, Giles E. Eperon, Sandeep K. Pathak, Michael B. Johnston,
Annamaria Petrozza, Laura M. Herza and Henry J. Snaith
9. A Layered Hybrid Perovskite Solar-Cell Absorber with Enhanced Moisture Stability-Ian C. Smith, Eric T. Hoke, Diego Solis-Ibarra, Michael D.
McGehee, and Hemamala I. Karunadasa
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Thank you for your
attention!