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Bulk and surface switching in Mn-Fe-based Prussian blue analogues
Tom T. A. Lummen
, R.Y.N. Gengler
, P. Rudolf
, F. Lusitani
, Esther J.M. Vertelman
,
Petra J. J. van Koningsbruggen
, M. Knupfer
, O. Molodtsova
, J.-J. Pireaux
, Paul H. van Loosdrecht
Chemical Engineering & Applied Chemistry
Rijksuniversiteit Groningen
IFW Dresden, Dresden
Université de Namur
Research output
:
Contribution to journal
›
Article
›
peer-review
20
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Citations (Scopus)
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Keyphrases
Prussian Blue Analogues
100%
Mn-Fe
100%
Fe-based Prussian Blue
100%
Charge Transfer
100%
Surface Switching
100%
Low Temperature
66%
Photoinduced
66%
Fe(III)
66%
Metastable States
66%
High Temperature
33%
Room Temperature
33%
Transferability
33%
Impurities
33%
Mn(III)
33%
Magnetic Measurements
33%
Surface Reconstruction
33%
Cu(II) Ions
33%
Transitional Phenomena
33%
Mn Ions
33%
Heterobimetallic System
33%
Charge Transfer Transition
33%
1:1 Stoichiometry
33%
X-ray Photoemission Spectroscopy
33%
Thermally Induced Phase Transition
33%
Photoexcitation
33%
Degree of Charge Transfer
33%
Photoinduced Phase Transition
33%
Induced State
33%
Metal Center
33%
X-ray Raman Spectroscopy
33%
Engineering
Ground State
100%
Low-Temperature
100%
Sample Surface
100%
Metastable State
100%
Room Temperature
50%
Reaction Stoichiometry
50%
Photoemission
50%
Physics
Ground State
100%
Photoelectric Emission
50%
Room Temperature
50%
Magnetic Measurement
50%
Stoichiometry
50%
Photoexcitation
50%
Raman Spectroscopy
50%
X Ray
50%
Copper Ion
50%
Chemistry
Ground State
100%
Ambient Reaction Temperature
50%
Raman Spectrometry
50%
Raman Spectroscopy
50%
Charge Transfer Transition
50%
Photoexcitation
50%
Surface Reconstruction
50%
Reaction Stoichiometry
50%
Material Science
Surface (Surface Science)
100%
Raman Spectroscopy
33%
X-Ray Photoelectron Spectroscopy
33%
Copper Ion
33%
Surface Reconstruction
33%
Chemical Engineering
Magnetic Variables Measurement
100%