In an aspect, an apparatus is provided that sets and reprograms the state of programmable devices. In an aspect, a method is provided such that an opening is formed through a dielectric exposing a contact, the contact formed on a substrate. An electrode is conformally deposited on a wall of the dielectric, utilizing atomic layer deposition (ALD). A programmable material is formed on the electrode and a conductor is formed to the programmable material. In an aspect, a barrier is conformally deposited utilizing ALD, between the electrode and the programmable material.

A memory cell comprises a chalcogenide random access memory (CRAM) cell and a CMOS circuit. The CMOS circuit accesses the CRAM cell. The CRAM cell has a cross-sectional area that is determined by a thin film process (e.g., a chalcogenide deposition thin film process) and by an iso-etching process. If desired, the chalcogenide structure may be implemented in series with a semiconductor device such as a diode or a selecting transistor. The diode drives a current through the chalcogenide structure. The selecting transistor drives a current through the chalcogenide structure when enabled by a voltage at a gate terminal of the selecting transistor. The selecting transistor has a gate terminal, a source terminal, and a drain terminal; the gate terminal may be operatively coupled to a word line of a memory array, the source terminal may be operatively coupled to a drive line of the memory array, and the drain terminal may be operatively coupled to a bit line of the memory array.

The present invention includes devices and methods to form memory cell devices including a spacer comprising a programmable resistive material alloy. Particular aspects of the present invention are described in the claims, specification and drawings.

A three-dimensional memory device having polycrystalline silicon diode isolation elements for phase change memory cells and method for fabricating the same. The memory device includes a plurality of stacked memory cells to form a three-dimensional memory array. The polycrystalline silicon diode element selects the phase change memory cell. The memory device is fabricated by forming a plurality of phase change memory cells and diode isolation elements on a base layer. Additional layers of memory cells and isolation elements are formed over the initial layer.