Scott Pollard scite author profile

Scott Pollard

4Publications

64Citation Statements Received

7Citation Statements Given

How they've been cited

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Affiliations

Corning (United States), Integra (United States)

Publications

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Fabrication of 3D-IC interposers

Keech

Chaparala

Shorey

et al. 2013

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Over the past several years, the semiconductor industry has seen some tremendous developments in using glass as an interposer substrate. Glass has many properties that make it an ideal substrate for interposer substrates such as: ultra-high resistivity, low dielectric constant, ultra-low electrical loss and adjustable coefficient of thermal expansion (CTE) that allows management of 3D-IC stacks. Regardless of technical performance, any glass based solution must also provide significant cost advantages in substrate material, via formation, and subsequent processing. Cost-Effective SolutionsIn this paper, we will cover how fusion formed glass provides cost-effective solutions for the manufacturing of interposer materials for as-formed 100 µm precision substrate with a pristine surface, without the need for polishing, thus eliminating the manufacturing steps for polishing and thinning. Design ConsiderationsFor effective implementation of glass substrates, processing costs for through-glass-vias (TGV) on ultra-thin glass is also a challenge. This paper will reference data from several different designs to demonstrate the impact of design on Corning's TGV process cost relative to silicon solutions. It will also highlight processing lessons learned in fabricating TGV interposers from bare glass into complete packaged test vehicles and their impact on cost. Via CapabilitiesFurthermore, glasses via formation capabilities have dramatically improved over the past several months. Fully populated wafers with >100,000 through and blind holes (25 µm diameter) are fabricated today with 20µm diameters. We report on the significant enhancements demonstrated on important quality parameters. We will also report on strength parameters measured on TGV wafers and positive implications with respect to product reliability.

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Copper Transparent Antennas on Flexible Glass by Subtractive and Semi-Additive Fabrication for Automotive Applications

Lombardi

Malay

Schaffner

et al. 2018

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Transparent Antennas for Wireless Systems Based on Patterned Indium Tin Oxide and Flexible Glass

Poliks

Sung

Lombardi

et al. 2017

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Understanding and eliminating thermo-mechanically induced radial cracks in fully metallized through-glass via (TGV) substrates

Okoro

Jayaraman

Pollard

2021

Microelectronics Reliability

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Scott Pollard

Fabrication of 3D-IC interposers

Copper Transparent Antennas on Flexible Glass by Subtractive and Semi-Additive Fabrication for Automotive Applications

Transparent Antennas for Wireless Systems Based on Patterned Indium Tin Oxide and Flexible Glass

Understanding and eliminating thermo-mechanically induced radial cracks in fully metallized through-glass via (TGV) substrates

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