D
Daniel P. Sanders
Researcher at IBM
Publications - 136
Citations - 6290
Daniel P. Sanders is an academic researcher from IBM. The author has contributed to research in topics: Photoresist & Photolithography. The author has an hindex of 36, co-authored 133 publications receiving 5922 citations. Previous affiliations of Daniel P. Sanders include Case Western Reserve University & California Institute of Technology.
Papers
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Journal ArticleDOI
A General Model for Selectivity in Olefin Cross Metathesis
TL;DR: Application of this model has allowed for the prediction and development of selective cross metathesis reactions, culminating in unprecedented three-component intermolecular cross metAthesis reactions.
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Prevention of undesirable isomerization during olefin metathesis.
TL;DR: 1,4-Benzoquinones have been found to prevent olefin isomerization of a number of allylic ethers and long-chain aliphatic alkenes during ruthenium-catalyzed Olefin metathesis reactions, and this mild, inexpensive, and effective method increases the synthetic utility of olefins via improvement of overall product yield and purity.
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Dense Self-Assembly on Sparse Chemical Patterns : Rectifying and Multiplying Lithographic Patterns Using Block Copolymers
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Simple and Versatile Methods To Integrate Directed Self-Assembly with Optical Lithography Using a Polarity-Switched Photoresist
Joy Cheng,Daniel P. Sanders,Hoa D. Truong,Stefan Harrer,Alexander Friz,Steven J. Holmes,Matthew E. Colburn,William D. Hinsberg +7 more
TL;DR: Novel strategies to integrate block copolymer self-assembly with 193 nm water immersion lithography with versatile integration schemes which are fully compatible with current optical lithography patterning materials, processes, and tooling are reported.
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Nanoscale chemical imaging by photoinduced force microscopy
Derek Nowak,William Morrison,H. Kumar Wickramasinghe,Junghoon Jahng,Eric O. Potma,Lei Wan,Ricardo Ruiz,Thomas R. Albrecht,Kristin Schmidt,Jane Frommer,Daniel P. Sanders,Sung Park +11 more
TL;DR: Infrared photoinduced force microscopy has demonstrated the ability to spatially map nm-scale patterns of the individual chemical components of two different types of self-assembled block copolymer films, and provides a powerful new analytical method for deepening the understanding of nanomaterials.