Shizu Fukuzumi scite author profile

Shizu Fukuzumi

3Publications

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Affiliations

Materials Development (United States), Hitachi (Japan)

Publications

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New Trend and Application of Photosensitive Solder Resist for Semiconductor Package

Nagoshi

Tanaka

Fukuzumi

et al. 2011

Journal of the Society of Rubber Industry, Japan

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Photosensitive solder resist for semiconductor package is now in transition stage. Smaller flip-chip burnp and finer bump pitch lead thinner solder resist with surface flatness and uniform thickness. In addition, the thickness precision is also important in the package. The demand of film type solder resist has been increasing against conventional liquid ink type one because of its ease to give flat surface. Additional advantage of the film type solder resist is that it is easy to disperse fine particle filler and remove fine foreign matters in the varnish because of the lower viscosity of the vanish comparing with that of conventiona1 liquid ink type solder resist. The solder resist of next generation requires the following properties: (1)Compatibility with direct image exposure, (2)Thinner film, (3)Fine pitch HAST resistance (line/space 8/8 m), and (4)Crack resistance on various heat processes and TCT. In this paper, we introduce our approaches to satisfy these requirments such as preventing oxidation of underlying Cu which weakens the resistance to plating with thin thickness, greatly reducing contamination by Cl and Br, espetially hydrolyzable Cl, for HAST, and improving crack resistance by combination of new high Tg and low CTE resin and our elastomer technology.

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Highly Productive Solder Interconnect Formation by Bump Stabbing for 3D-TSV Die Stacking

Fukuzumi¹,

Onozeki

Suzuki

et al. 2018

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High Productive 3D Stacking Process “Molded Reflow”

Honda

Noma

Onozeki

et al. 2017

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Shizu Fukuzumi

New Trend and Application of Photosensitive Solder Resist for Semiconductor Package

Highly Productive Solder Interconnect Formation by Bump Stabbing for 3D-TSV Die Stacking

High Productive 3D Stacking Process “Molded Reflow”

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