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Investigation of Mn and Ti based self-forming barriers for future back-end-of-the-line interconnects

Selvaraju, Venkateswaran (2019) Investigation of Mn and Ti based self-forming barriers for future back-end-of-the-line interconnects. PhD thesis, Dublin City University.

Abstract
This thesis focusses on the investigation of the suitability of Mn and Ti-based self-forming barriers for the future generation of interconnects on both thermally grown SiO2 and low-k dielectrics. the self-forming barriers chemically interact with the insulating substrates forming diffusion barriers upon annealing and this fabrication approach has potential application in future generations of interconnect technologies as the resultant barriers can be significantly thinner than the conventionally deposited barrier layers. the principal in-situ characterisation techniques used to study the interface chemistry resulting from the interaction of deposited films with the insulating substrates were soft and hard X-ray photoelectron spectroscopy (XPS and HAXPES). secondary ion mass spectroscopy (SIMS) measurements provided information on the structure of the barriers which could be correlated with the XPS results while electrical measurements (four-point probe and CV measurements) helps in studying the feasibility of the self-forming barriers. Comparison of Mn-based diffusion barriers with and without the incorporation of nitrogen in the film showed that the introduction of nitrogen improved the adhesion of the copper to the dielectric while chemically both had similar interfaces. Cu based alloy films of Mn and Ti were prepared and analysed show that both alloying elements improve the adhesion and electrical characteristics compared to pure copper films. However, while Mn forms a dielectric barrier of manganese silicate, ultrathin films of Ti on SiO2 based dielectrics showed the preferential formation of titanium silicide. Thick cobalt/titanium alloy films were also investigated as a potential interconnect and showed the possibility of using a cobalt-based alloy as a replacement for copper and barrier stack for the future generation of interconnects.
Metadata
Item Type:Thesis (PhD)
Date of Award:March 2019
Refereed:No
Supervisor(s):Hughes, Greg
Subjects:Physical Sciences > Semiconductors
DCU Faculties and Centres:DCU Faculties and Schools > Faculty of Science and Health > School of Physical Sciences
Use License:This item is licensed under a Creative Commons Attribution-NonCommercial-No Derivative Works 3.0 License. View License
ID Code:22918
Deposited On:03 Apr 2019 12:00 by Gregory Hughes . Last Modified 03 Apr 2019 12:00
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