Prof.
Luis Hueso
(CIC nanoGUNE)
17/07/2017, 15:15
Molecular Electronics
Oral parallel contribution
Spin injection and transport into molecular semiconductors has attracted great interest recently, especially due to the small sources of spin decoherence in these materials [1]. However, there are still many open questions in this nascent field which range from the actual spin polarization at metal/molecular interfaces to the integration of molecular functionalities into spintronic...
Prof.
Ruben Perez
(Univesidad Autonoma de Madrid)
17/07/2017, 15:45
Molecular Electronics
Oral parallel contribution
Biological Electron Transfer (ET) is the key step in many basic cellular processes such as respiration and photosynthesis [1]. Nature has developed highly specialized molecular building blocks capable of transporting charge with unprecedented efficiency, i.e. fast and at long distances [2]. Understanding the mechanisms behind biological ET is key to elucidate the changes in the charge...
Dr.
Enrique Burzuri
(Imdea Nanociencia)
17/07/2017, 16:10
Molecular Electronics
Oral parallel contribution
Organic radicals are neutral, purely organic molecules exhibiting an intrinsic magnetic moment due to the presence of an unpaired electron in the molecule in its ground state. This property, added to the low spin-orbit coupling makes organic radicals promising candidates for Molecular Spintronics provided that the radical character is stable in solid state electronic devices.
We measure...
Dr.
Salvador Cardona-Serra
(Instituto de Ciencia Molecular)
17/07/2017, 16:40
Molecular Electronics
Oral parallel contribution
In a straightforward application of molecular nanospintronics to quantum computing, single-molecule spin transistors can be used to measure and control nuclear spin qubits, since a conductance jump occurs when the electronic spin inverts its polarization, and this happens at a specific magnetic field determined by the nuclear spin state. So far, this procedure has only been studied using...
Prof.
María Ángeles Díaz García
(Universidad de Alicante)
17/07/2017, 18:00
Molecular Electronics
Oral parallel contribution
In the last years extensive research has been devoted to the investigation of optically-pumped solution processable thin film organic lasers, due to their advantages of chemical versatility, wavelength tunability, mechanical flexibility and low cost. Particularly attractive for applications in the fields of optical communications, biosensing and chemical sensing are distributed feedback (DFB)...
Dr.
Helena Prima Garcia
(Instituto de Ciencia Molecular (Valencia))
17/07/2017, 18:30
Molecular Electronics
Oral parallel contribution
Spin-based electronics is one of the emerging branches in today’s nanotechnology and the most active area within nanomagnetism. So far spintronics has been based on conventional materials like inorganic metals and semiconductors. Still, an appealing possibility is that of using molecule-based materials, as components of new spintronic systems. In particular, by taking advantage of a hybrid...