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Electronic and optical properties of dye-sensitized tio
2
interfaces
Mariachiara Pastore
, Annabella Selloni
, Simona Fantacci
, Filippo De Angelis
Chemistry
Princeton Institute for Computational Science and Engineering
Research output
:
Contribution to journal
›
Article
›
peer-review
30
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Scopus citations
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2
interfaces'. Together they form a unique fingerprint.
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Keyphrases
Dye-sensitized TiO2
100%
Time-dependent Density Functional Theory
42%
Redox Electrolyte
28%
Oxidation Potential
28%
Cost Efficiency
14%
GW Method
14%
Electrical Energy
14%
High Computational Cost
14%
Heterointerface
14%
Many-body Perturbation Theory
14%
Excited State Energies
14%
Conjugated Organic Materials
14%
Nanostructured Films
14%
Conjugated Linkers
14%
Operating Principle
14%
Ruthenium Dye
14%
Regenerative Process
14%
Electron-rich
14%
Charge-transfer Excited State
14%
D-A Structure
14%
DFT Approach
14%
Molecular Dyes
14%
Liquid Redox
14%
Ru(II) Polypyridyl Complexes
14%
Adsorption Structure
14%
Sunlight
14%
TD-DFT Method
14%
Ru(II) Complexes
14%
Counter Electrode
14%
Push-pull Dyes
14%
Dye Regeneration
14%
Electron-acceptor Groups
14%
Photoexcitation
14%
Degree of Charge Transfer
14%
Structure State
14%
Chemistry
Dye-Sensitized Solar Cell
55%
Oxidation Potential
22%
Time-Dependent Density Functional Theory
22%
Conduction Band
11%
Electron Acceptor
11%
Counter Electrode
11%
Many-Body Perturbation Theory
11%
Nanofilm
11%
Chemical Engineering
Titanium Dioxide
100%
Adsorption
14%
Nanoparticle
14%
Material Science
Ruthenium
16%