Related references
Note: Only part of the references are listed.Thermal-induced structural distortion and charge transfer of Prussian blue analogues K0.4Co1.3[Fe(CN)6] • nH2O
Zeyi Lu et al.
PHASE TRANSITIONS (2022)
Thermal-induced structural distortion, charge transfer and magnetic changes of Prussian blue analogs K0.4Co1.3[Fe(CN)6]•nH2O
Haiwen Chen et al.
CHEMICAL PHYSICS LETTERS (2021)
Prussian blue analogues as aqueous Zn-ion batteries electrodes: Current challenges and future perspectives
Giorgia Zampardi et al.
CURRENT OPINION IN ELECTROCHEMISTRY (2020)
A 96-well wax printed Prussian Blue paper for the visual determination of cholinesterase activity in human serum
Neda Bagheri et al.
BIOSENSORS & BIOELECTRONICS (2019)
Thermally induced and photoinduced phase transitions in rubidium manganese hexacyanoferrate combining charge transfer and structural reorganization
Shin-ichi Ohkoshi et al.
COMPTES RENDUS CHIMIE (2019)
Solid electrochemical energy storage for aqueous redox flow batteries: The case of copper hexacyanoferrate
Elena Zanzola et al.
ELECTROCHIMICA ACTA (2019)
Hydrostatic pressure induced transformation of magnetism in a trimetallic CuMnFe Prussian blue analogue
Yanfang Xia et al.
JOURNAL OF COORDINATION CHEMISTRY (2019)
Prussian Blue Analogs for Rechargeable Batteries
Baoqi Wang et al.
ISCIENCE (2018)
Effect of light source and applied potential in the electrochemical synthesis of Prussian blue on carbon nanotubes
Denise Tofanello Gimenes et al.
ELECTROCHIMICA ACTA (2017)
Prussian blue and its derivatives as electrode materials for electrochemical energy storage
Yuxia Xu et al.
ENERGY STORAGE MATERIALS (2017)
Prussian blue type nanoparticles for biomedical applications
J. Long et al.
DALTON TRANSACTIONS (2016)
Hydro(solvo)thermal synthetic strategy towards azido/formato-mediated molecular magnetic materials
Song-De Han et al.
COORDINATION CHEMISTRY REVIEWS (2015)
Effect of pressure on the magnetic properties of LiCuFe and LiCuFe@LiNiCr Prussian blue analogues
Marcus K. Peprah et al.
POLYHEDRON (2013)
Synthesis, structures, electrochemistry and magnetic properties of a cyano-bridged {Fe2Co2} molecular square
Da-Peng Dong et al.
INORGANIC CHEMISTRY COMMUNICATIONS (2012)
Variation of magnetic properties with different annealed temperatures in the Ni3[Fe(CN)6]2•XH2O
M. Liu et al.
CURRENT APPLIED PHYSICS (2011)
Novel magnetic functionalities of Prussian blue analogs
Hiroko Tokoro et al.
DALTON TRANSACTIONS (2011)
Synthesis of a metal oxide with a room-temperature photoreversible phase transition
Shin-ichi Ohkoshi et al.
NATURE CHEMISTRY (2010)
Photomagnetism in Clusters and Extended Molecule-Based Magnets
Anne Bleuzen et al.
INORGANIC CHEMISTRY (2009)
Heat-induced charge transfer in cobalt iron cyanide
R. Martinez-Garcia et al.
JOURNAL OF PHYSICS AND CHEMISTRY OF SOLIDS (2006)
Magnetic properties of multi-metal Prussian Blue analogue Co0.75Ni0.75[Fe(CN)6]•6.8H2O
A Kumar et al.
PHYSICA B-CONDENSED MATTER (2005)
Photoinduced ferrimagnetic systems in prussian blue analogues CIxCo4[Fe(CN)6]y (CI = alkali cation).: 3.: Control of the photo- and thermally induced electron transfer by the [Fe(CN)6] vacancies in cesium derivatives
V Escax et al.
JOURNAL OF THE AMERICAN CHEMICAL SOCIETY (2001)
Photoinduced ferrimagnetic systems in Prussian blue analogues Cx(I)Co4[Fe(CN)6]y (CI = alkali cation).: 1.: Conditions to observe the phenomenon
A Bleuzen et al.
JOURNAL OF THE AMERICAN CHEMICAL SOCIETY (2000)
Share Paper
