Enhancing the Resistive Memory Window through Band Gap Tuning in Solid Solution (Cr1–xVx)2O3 - PCM
Article Dans Une Revue ACS Applied Materials & Interfaces Année : 2023

Enhancing the Resistive Memory Window through Band Gap Tuning in Solid Solution (Cr1–xVx)2O3

Résumé

Memories based on the insulator-to-metal transition in correlated insulators are promising to overcome the limitations of alternative nonvolatile memory technologies. However, associated performances have been demonstrated so far only on narrow-gap compounds, such as (V0.95Cr0.05)(2)O-3, exhibiting a tight memory window. In the present study, V-substituted Cr2O3 compounds (Cr1-xVx)(2)O-3 have been synthesized and widely investigated in thin films, single crystals, and polycrystalline powders, for the whole range of chemical composition (0 < x < 1). Physicochemical, structural, and optical properties of the annealed magnetron-sputtered thin films are in very good agreement with those of polycrystalline powders. Indeed, all compounds exhibit the same crystalline structure with a cell parameter evolution consistent with a solid solution over the whole range of x values, as demonstrated by X-ray diffraction and Raman scattering. Moreover, the optical band gap of V-substituted Cr2O3 compounds decreases from 3 eV for Cr2O3 to 0 eV for V2O3. In the same way, resistivity is decreased by almost 5 orders of magnitude as the V content x is varying from 0 to 1, similarly in thin films and single crystals. Finally, a reversible resistive switching has been observed for thin films of three selected V contents (x = 0.30, 0.70, and 0.95). Resistive switching performed on MIM devices based on a 50 nm thick (Cr0.30V0.70)(2)O-3 thin film shows a high endurance of 1000 resistive switching cycles and a memory window R-OFF/R-ON higher by 3 orders of magnitude, as compared to (Cr0.05V0.95)(2)O-3. This comprehensive study demonstrates that a large range of memory windows can be reached by tuning the band gap while varying the V content in the (Cr1-xVx)(2)O-3 solid solution. It thus confirms the potential of correlated insulators for memory applications.

Domaines

Matériaux
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Dates et versions

hal-04361024 , version 1 (22-12-2023)

Identifiants

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Michael Rodriguez-Fano, Mohamad Haydoura, Julien Tranchant, Etienne Janod, Benoît Corraze, et al.. Enhancing the Resistive Memory Window through Band Gap Tuning in Solid Solution (Cr1–xVx)2O3. ACS Applied Materials & Interfaces, 2023, 15 (47), pp.54611-54621. ⟨10.1021/acsami.3c09387⟩. ⟨hal-04361024⟩
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