P.K. Vasudev scite author profile

Electroless Cu thermodynamics, electrochemistry, mechanism, kinetics, and mass transport are reviewed. Electroless Cu deposition is a thermodynamically favorable and kinetically inhibited process, with two electrochemical reactions including anodic oxidation of a reducing agent and cathodic reduction of metal ions occurring simultaneously, with a multistep catalytic redox mechanism, an Arrhenius type of rate equation, and mass-transport limited reaction in narrow and deep features such as subhalf micron trenches and vias of high aspect ratios (>3). Selective and blanket electroless Cu deposition from formaldehyde-based solutions with ethylenediaminetetraacetic acid as a complexing agent was investigated for trench/via filling applications. A single-wafer electroless Cu deposition system with up to 8 in. wafer capability has been designed and manufactured. An electroless Cu deposition solution and operation conditions have been optimized to obtain electroless Cu films at high deposition rate (-75 to 120 nm/mm), with low resistivity (p <2 pSi cm), low surface roughness (R, -10 to 15 nm for -1.5 .Lm thick deposits) and good electrical uniformity (std dev <3% for 6 in. wafers and 5 to 7% for 8 in. wafers). A novel dry seeding method on sputtered Cu/Al bilayers has been developed to provide protection of Cu catalytic properties from passivation by using an Al sacrificial layer and to obtain uniform initiation and blanket growth of electroless Cu by in situ Al dissolution in the plating bath. Electroless Cu films blanket deposited on sputtered Cu/Al seed layer were conformal with 100% step coverage. A novel wet seeding method has been developed with Cu contact displacement deposition on a TiN diffusion barrier to provide selective and blanket electroless copper plating. Subhalf micron (down to 0.3 p.m) trenches and vias of high aspect ratios (up to 5:1) were completely filled for both blanket and selective electroless deposition modes. IntroductionCopper is being considered to replace current Al metallization in ultralarge scale integrated (ULSI) technology because of lower resistivity, potentially higher resistance to electromigration, and stress-induced voiding. Cu can be

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Sub-Half Micron Electroless Cu Metallization

Dubin

Shacham‐Diamand

Zhao³

et al. 1996

MRS Proc.

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<title>Automated optical proximity correction: a rules-based approach</title>

Otto

Garofalo

Low³

et al. 1994

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In this work we demonstrate the power, speed and effectiveness of an automated rules-based approach for performing optical proximity correction. The approach applies to both conventional and phase-shifting mask layouts for optical lithography. Complex imaging, substrate and process phenomena can be folded into comparatively few rules parameters. Using simple arithmetic, these parameters pre-compensate the layout for the combined proximity effects. The rules consist of edge rules and corner rules for biasing feature edges and for adding sub-resolution assist features. This paper describes an integrated solution which includes rules parameter generation and fast, hierarchical rules application. Experimental results demonstrate improved edge placements and wider process latitude than for non-corrected layouts.

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Two-dimensional analytic modeling of very thin SOI MOSFETs

Woo

Terrill

Vasudev³

1990

IEEE Trans. Electron Devices

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P.K. Vasudev

Selective and Blanket Electroless Copper Deposition for Ultralarge Scale Integration

Sub-Half Micron Electroless Cu Metallization

<title>Automated optical proximity correction: a rules-based approach</title>

Two-dimensional analytic modeling of very thin SOI MOSFETs

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