Current constricting phase change memory element structure

Assignees

• International Business Machines Corporation · US
• Qimonda North America Corp. · US
• MACRONIX INTERNATIONAL CO., LTD. · TW

Inventors

• Chieh-Fang Chen · Taipei, TW
• Shih-Hung Chen · Hengshan, TW
• Yi-Chou Chen · Hsinchu, TW
• Thomas Happ · Tarrytown, US
• Chia-Hua Ho · Hsinchu, TW
• Ming-Hsiang Hsueh · Hsinchu, TW
• Chung H. Lam · Williston, US
• Hsiang-Lan Lung · Ardsley, US
• Jan Boris Philipp · Peekskill, US
• Simone Raoux · New York, US

Key dates

Classification

• Technology area (CPC H)Electricity
• CPC primaryH10N70/884
• WIPO fieldMicro-structural and nano-technology
• WIPO sectorChemistry

Abstract

A layer of nanoparticles having a dimension on the order of 10 nm is employed to form a current constricting layer or as a hardmask for forming a current constricting layer from an underlying insulator layer. The nanoparticles are preferably self-aligning and/or self-planarizing on the underlying surface. The current constricting layer may be formed within a bottom conductive plate, within a phase change material layer, within a top conductive plate, or within a tapered liner between a tapered via sidewall and a via plug contains either a phase change material or a top conductive material. The current density of the local structure around the current constricting layer is higher than the surrounding area, thus allowing local temperature to rise higher than surrounding material. The total current required to program the phase change memory device, and consequently the size of a programming transistor, is reduced due to the current constricting layer.