Periodic Reporting for period 2 - BeforeHand (Boosting Performance of Phase Change Devices by Hetero- and Nano-Structure Material Design)
Período documentado: 2020-07-01 hasta 2022-06-30
To achieve such a target, the objectives of the project were:
1. Realization of PCM multilayers in thin films and nanostructures with improved physical properties;
Such Objective was achieved using three deposition techniques, all compatible with current device architectures and the implementation of complex crystalline heterostructures such as Ge-rich-GST/ GST, In-Sb-Te/ GST, In-Ge-Te/ GST and Ga-Sb-Te/ GST. Self-assembly of single and core-shell NWs was obtained as well.
2. Development of a single cell vehicle (SCV) and line cell vehicles (LCV) for electrical testing;
All three types of devices were developed and tested, thus objective 2 was achieved.
3. Complete understanding of the physical properties of PCM multilayers by detailed electrical, electronic, structural characterization and atomistic simulations;
Structural, electronic, electrical and thermal properties characterization on the materials and devices level, determined which materials system in combination with device architecture was the most promising to improve and boost device performance;
Furthermore, efforts were devoted to determine the physical mechanisms, such as thermal diffusion, phase separation and electromigration, affecting the endurance and the reliability properties of the devices. The experimental characterization was complemented in an integrated manner by theoretical modelling;
4. Technology transfer of the optimized best heterostructure for integration in a PCM device on complementary metal–oxide–semiconductor (CMOS) platform;
Technology transfer and thus the achievement of Objective 4 started on time and was concluded with the submission of D5.1 that reported several measurements of the structure and morphology of the integrated layers.
5. Demonstration of improved processing and storage performances achieved in a fully functional 1resistor-1transistor (1T1R) large size crossbar array on 200 mm large wafers;
Small (a few kbit) to medium size (1 Mbit) arrays were realized. The thermal stability of the multilayer was assessed using thermal stress experiments combined with electrical measurements and high-resolution physical analysis to detect possible intermixing or decomposition of the alloys.
6. Demonstration of the concept of integration in an automotive chip for IoT market through adequate benchmarking;
Benchmarking against state-of-the-art was performed to make sure that the project maintains its competitiveness.
WP5 was mainly devoted to the realization of a demonstrator able to prove the processing/storage concept of a device with the PCM multilayer as active layer. At first we developed multilayered stacks in a 200 mm PVD deposition. The chosen materials were integrated in a demonstrator (1Resistor) single cells, 1 transistor – 1 PCM (1T-1R) single cells and small arrays. The electrical characterization of single cells and arrays was carried out. Benchmarking, between the best PCM materials and GST-225 and Ge-GST:N, was performed to evaluate the possible integration of those materials in an automotive chip for the IoT market. We demonstrated that the golden Ge-rich GST composition used in heterostructures is of great interest, since it combines a good programming window, reduced programming currents, good endurance and data retention, but also could enable multilevel programming.
The industrial BeforeHand participant ST had a first-quarter report particularly positive.
Revenue increased in Automotive with Operating profit increased by 175.1% to $235 million. Such global economic scenario is positive for the general impact of BeforeHand on innovation in the automotive sector.
The dissemination and outreach actions undertaken were very rich (detail in D1.6 and D1.7). The consortium published 38 referred papers and had 51 conference contributions with 14 invited, 26 oral, 9 posters and 2 tutorials to be held. Several young researchers trained within the BeforeHand consortium got further working opportunities.