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Large thermal motion in Halide Perovskites
T. A. Tyson
, W. Gao
, Y. S. Chen
, S. Ghose
, Y. Yan
Physics
Chemistry and Environmental Science
Research output
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Contribution to journal
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Article
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peer-review
27
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Keyphrases
Thermal Motion
100%
Halide Perovskites
100%
Atomic Displacement Parameters
100%
Large Deformation
50%
High Efficiency
50%
Processing Methods
50%
Temperature Effect
50%
Molecular Dynamics Simulation
50%
Solar Cell
50%
Cell-based
50%
Single Crystal
50%
Atomic Structure
50%
Atomic Level
50%
Structural Measurements
50%
High Carrier Mobility
50%
Thermal Expansion
50%
Pair Distribution Function
50%
Tetragonal Structure
50%
Potential Well
50%
CH3NH3PbI3
50%
Iodine Atom
50%
Atomic Relaxation
50%
Expansion Parameter
50%
Structural Instability
50%
Hybrid Perovskites
50%
Ion Yield
50%
Flat Region
50%
Engineering
Large Deformation
100%
Defects
100%
Computer Simulation
100%
Thermal Motion
100%
Processing Method
100%
Carrier Mobility
100%
Pair Distribution
100%
Based Solar Cell
100%
Hybrid Perovskites
100%
Material Science
Large Deformation
100%
Solar Cell
100%
Atomic Structure
100%
Halide
100%
Single Crystal
100%
Carrier Mobility
100%
Thermal Expansion
100%