Molecular material s have recently caught the attention of spintronics\, and significant effo rts are being made towards their integration in this field. One of their m ost attractive aspects for spintronic applications is the weakness of thei r spin scattering mechanisms\, implying that the spin polarization of the carriers can be maintained for a very long time in these materials. Moreov er\, these materials might have tunable chemical properties\, opening a wa y for the integration of synthetic chemistry into spintronic devices.
In this talk I shall focus on different spintronic devices based on mol ecular thin films. In the first part\, I will show how bathocuproinemolecu les act as a spacer in hybrid ferromagnetic/organic spin valves.
In th e second part I will introduce a hot-electron tunnel transistor with C60 f ullerene as a collector. In this device\, hot-electron magnetoconductance values of up to 90% at room temperature have been recorded. Moreover\, thi s device can operate as a solid-state spectroscopic tool for investigating the energy level alignment between molecules and metals. DTSTAMP:20260415T151505Z CREATED:20131112T075042Z LAST-MODIFIED:20131128T073614Z END:VEVENT END:VCALENDAR