@inproceedings{5099e4cc3b434941becf5c1f7b6ac03c,
title = "Reversible electrical resistance switching in GeSbTe thin films: An electrolytic approach without amorphous-crystalline phase-change",
abstract = "Besides the well-known resistance switching originating from the amorphous-crystalline phase-change in GeSbTe thin films, we demonstrate another switching mechanism named 'polarity-dependent resistance (PDR) switching'. 'Me electrical resistance of the film switches between a low- and high-state when the polarity of the applied electric field is reversed. This switching is not connected to the phase-change, as it only occurs in the crystalline phase of the film, but connected to the solid-state electrolytic behavior i.e. high ionic conductivity of (Sb-rich) GeSbTe tinder an electric field. I-V characteristics of nonoptimized capacitor-like prototype cells of various dimensions clearly exhibited the switching behavior when sweeping the Voltage between +1 V and -1 V (starting point: 0 V). The switching was demonstrated also with voltage pulses of amplitudes down to I V and pulse widths down to I microsecond for several hundred of cycles with resistance contrasts up to 150 % between the resistance states. Conductive atomic force microscopy (CAFM) was used to examine PDR switching at nanoscales in tip-written crystalline marks, where the switching occurred for less than 1.5 V with more than three orders of resistance contrasts. Out experiments demonstrated a novel and technologically important switching mechanism, which consumes less power than the usual phase-change switching and provide opportunity to bring together the two resistance switching types (phase-change and PDR) in a single system to extend the applicability of GeSbTe materials.",
keywords = "MEMORY, GE2SB2TE5, BEHAVIOR",
author = "Ramanathaswamy Pandian and Kooi, {Bart J.} and George Palasantzas and {De Hosson}, {Jeff Th. M.}",
year = "2008",
language = "English",
isbn = "978-1-60511-041-7",
series = "MATERIALS RESEARCH SOCIETY SYMPOSIUM PROCEEDINGS",
publisher = "Materials Research Society",
pages = "181--186",
editor = "DJ Wouters and S Hong and S Soss and O Auciello",
booktitle = "MATERIALS SCIENCE AND TECHNOLOGY FOR NONVOLATILE MEMORIES",
note = "Symposium on Materials Science and Technology for Nonvolatile Memories held at the 2008MRS Spring Meeting ; Conference date: 24-03-2008 Through 27-03-2008",
}