CORDIS - EU research results
CORDIS

Solution-Based Engineering of Nanodimensional Phase-Change Materials and Memory Devices

Project description

More memory to meet the insatiable demand for data

Today’s fast data world needs more memory storage. Demand is growing exponentially for AI and Big Data workloads. Invented back in the 1960s, phase change memory (PCM) is a form of computer RAM that stores data by altering the state of the matter from which the device is fabricated. PCM technology has the potential to provide storage even where there is large power consumption. The EU-funded NanoMMs project has a solution. It is developing a robust synthetic approach for PCM materials in the form of colloidal nanoparticles and molecular ink precursors. Ultimately, it will build novel ultra-small PCM configurations and multilayer PCM cells to reduce their price and power consumption.

Objective

Phase-change memory (PCM) is a recently-commercialized next-generation memory storage technology that provides a sustainable solution to exponentially-growing memory storage demands of modern society. It is based on resistively switched structural changes of memory cell upon local crystallization and melting phase transitions, resulting in amorphous or crystalline atomic structures with distinctly different “0” and “1” resistance states. PCM is faster and more durable than state-of-the-art non-volatile memory devices like silicon-based solid-state drives (SSD), and it can furthermore be scaled in all three dimensions. However, there are open challenges for PCM technology, such as large power consumption and high price of PCM devices, which stem from large dimensions of memory cells, complex fabrication process, and from use of material-inefficient sputtering and etching fabrication steps for the expensive PCM layer.
This proposal addresses the open challenges and enables further development of PCM technology by applying solution-based engineering. Our goals are (i) to develop robust synthetic approaches for PCM materials, such as ternary tellurides and antimony-rich compositions, in the form of colloidal nanoparticles and molecular ink precursors; (ii) to thoroughly study how PCM properties change at the nanoscale as a function of size, thickness, and composition; and (iii) to employ these phase-change nanomaterials in solution-processed PCM arrays to build new, ultrasmall PCM configurations as well as multilayer PCM cells and to reduce their price and power consumption.

Host institution

EIDGENOESSISCHE TECHNISCHE HOCHSCHULE ZUERICH
Net EU contribution
€ 1 604 600,00
Address
Raemistrasse 101
8092 Zuerich
Switzerland

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Region
Schweiz/Suisse/Svizzera Zürich Zürich
Activity type
Higher or Secondary Education Establishments
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Total cost
€ 1 604 600,00

Beneficiaries (1)