Nanosystems and devices
The prerequisite for the development of a technology based on magnetic molecules and magnetic nanoparticles is the successful organization at the nanoscale allowing to maintain the richness of the magnetic and electronic properties of the chemically designed and tailored objects. UHV depositions and wet chemistry based protocols are used to assemble molecular and inorganic nanosystems controlling their interactions. The integration of these objects in hybrid architectures that can be addressed using specific mesoscopic probes is the following step forward that can promote the realization of application in several fields ranging from molecular spintronics, quantum computing, magneto-plasmonics and photovoltaics. |
TeamMatteo Mannini (Principal Investigator) Brunetto Cortigiani (Technician) Lorenzo Poggini (CNR Researcher) Alessandro Veneri (PhD Student) |
Previous Members
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IN EVIDENCE:
Chirality-Induced Spin Selectivity: An Enabling Technology for Quantum Applications
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VdW Mediated Strong Magnetic Exchange Interactions in Chains of Hydrogen-Free Sublimable Molecular Qubits
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Mixed-Sandwich Titanium(III) Qubits on Au(111): Electron Delocalization Ruled by Molecular Packing
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Magnetic molecules as sensors of topological hysteresis of superconductors
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Direct detection of spin polarization in photoinduced charge transfer through a chiral bridge
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Room Temperature Control of Spin States in a Thin Film of a Photochromic Iron (II) Complex |
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Magnetic bistability of a TbPc2 submonolayer on a graphene/SiC(0001) conductive electrode |
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Self-Assembly of TbPc2 Single-Molecule Magnets on Surface through Multiple Hydrogen Bonding |
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Tuning of a Vertical Spin Valve with a Monolayer of Single Molecule Magnets |
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Low-Temperature Magnetic Force Microscopy on Single Molecule Magnet-Based Microarrays |
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An Organic Spin Valve Embedding a Self-Assembled Monolayer of Organic Radicals |
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