Keyphrases
Perovskite Solar Cells (PeSCs)
65%
Perovskite
63%
Perovskite Semiconductors
46%
Metal Halide Perovskites
46%
Grain Boundary
34%
Optoelectronic Properties
32%
Power Conversion Efficiency
30%
High Performance
30%
Perovskite Thin Film
28%
Detrimental Effects
27%
High Efficiency
25%
Photovoltaic Technology
25%
Solar Cell
23%
All-inorganic Perovskites
23%
Ideal Bandgap
23%
Microstructure Type
23%
All-inorganic Perovskite Solar Cells
23%
Inorganic Perovskites
23%
Perovskite Heterostructure
23%
Tin Perovskite Solar Cells
23%
Dedoping
23%
Device Application
23%
Structural Information
23%
Microstructural
23%
Heterostructure
23%
Stable Perovskite Solar Cells
23%
Defect Passivation
23%
Electronic Properties
23%
Halides
23%
Microstructure
23%
Mixed Population
23%
Sn Perovskite Solar Cells
23%
Chirality
23%
Morphology Control
23%
Impurities
23%
Highly Stable
23%
Band Alignment
23%
Device Efficiency
19%
Atomic Scale
16%
Stable Perovskite
16%
Stability of Perovskite Solar Cells
16%
Characterization Techniques
14%
Nanoclusters
13%
Pb-Sn
12%
Atomic-resolution Imaging
11%
Ion Distribution
11%
Grain Boundary Interfaces
11%
Twin Boundary
11%
Crystal Plane
11%
Stacking Faults
11%
Interface Microstructure
11%
Neutral Effects
11%
Thin Film Microstructure
11%
Perovskite Photovoltaics
11%
Tailored Surfaces
11%
Polycrystalline Morphology
11%
Phase-pure
11%
Charge Dynamics
11%
Defect Band
11%
Phase Stable
11%
Scanning Transmission Electron Microscopy
11%
Structured Interfaces
11%
High Temperature
11%
Degradation Modes
11%
Atomic Structure
11%
Interface Performance
11%
Observation-driven
11%
Energy Generation
11%
Dynamic Interaction
11%
Microscopic Structure
11%
Sn(IV)
11%
Device Performance
11%
Beneficial Effects
11%
Electronic Structure
11%
Structure-property-performance Relationship
11%
Recent Advances
11%
High Temporal Resolution
11%
Passivated
11%
Heterointerface
11%
Imperfection
11%
Metal-halide Perovskite Solar Cells
11%
Third Generation Photovoltaics
11%
Low-carbon Energy
11%
Photovoltaic Performance
11%
Swift
11%
Processing Techniques
11%
Solar Energy
11%
Long-term Stability
11%
Ab Initio Calculations
11%
Developing States
11%
Morphological Characteristics
11%
Rapid Development
11%
Nanomaterials
11%
Surface Properties
11%
Halide Perovskites
9%
Group IVA Elements
7%
Band Gap Structure
7%
Antibonding
7%
Band Gap
7%
Environmental Factors
7%
Mini
7%
Valence Electrons
7%
Pb-free
7%
Lone Electron Pair
7%
Design Principles
7%
Organic-inorganic
7%
Perovskite Structure
7%
Photoactive
7%
Perovskite Grain
6%
Chiral Perovskites
6%
Emergent Properties
6%
Thermal Removal
5%
Technological Potential
5%
Glove Box
5%
Sn-based Perovskite
5%
High Power Conversion Efficiency
5%
Dopant
5%
Carrier Lifetime
5%
Negative Effects
5%
Efficiency Improvement
5%
Film Morphology
5%
Self-doping
5%
Trap Density
5%
Material Science
Perovskite Solar Cell
100%
Surface (Surface Science)
50%
Metal Halide
46%
Grain Boundary
46%
Solar Cell
32%
Halide
31%
Thin Films
30%
Film
30%
Heterojunction
23%
Chirality
23%
Inorganic Perovskite Solar Cell
23%
Tin
23%
Electronic Property
23%
Photovoltaic Technology
21%
Scanning Transmission Electron Microscopy
19%
Device Efficiency
16%
Morphology
11%
Point Defect
11%
Interface Structure
11%
Crystal Defect
11%
Ab Initio Calculation
11%
Phase Interface
11%
Phase Composition
11%
Energy Level
11%
Nanostructured Material
11%
Photovoltaic Performance
7%
Design Principle
7%
Cesium
7%
Monolayer
7%
Surface Property
7%