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Entegris Expands Portfolio with DSC and MPD Chemicals Acquisitions

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Entegris Expands Portfolio with DSC and MPD Chemicals Acquisitions

Technologies like AI, IoT, and virtual reality are changing the way people live across the globe. To achieve the performance for these technologies, manufacturers have adopted new, more complex chip designs. These changes have increased the demands on the materials used in all steps of semiconductor processing. 

The recent acquisition of DSC, and MPD Chemicals expands Entegris’ capabilities in the development and production of new organosilane, and organometallic materials.

Take a look at how these acquisitions demonstrate Entegris' commitment to grow and diversify its engineered materials portfolio.
    Understanding AMC: The Invisible Threat to Semiconductor Yield and Reliability Oct, 2025
    Optimizing Wafer Polishing: Innovations in CMP Slurry Characterization and Filtration Oct, 2025
    Targeting Defect Sources in NTD CARs: Filtration Strategies for Single-Print EUV Lithography Oct, 2025
    Scaling New Heights: How Molybdenum is Revolutionizing 3D NAND Architectures Aug, 2025
    Understanding Potential Sources of Contamination and Developing Targeted Filtration Solutions in 30% H2O2 Aug, 2025
    Exploring Entegris POCO Materials EDM-AF5® Graphite Jul, 2025
    Employee Spotlight: Christine Morgan Jun, 2025
    Silicon Carbide’s Next Phase: From Expansion to Optimization Jun, 2025
    Sustainability Challenges Around SiC Polishing May, 2025
    Employee Spotlight: Marie Le Guilly Apr, 2025

    Related Posts

    Understanding AMC: The Invisible Threat to Semiconductor Yield and Reliability

    Airborne molecular contamination (AMC) threatens semiconductor yield and reliability. Learn how Entegris helps fabs detect and control AMC with advanced filtration and data-driven strategies.

    Optimizing Wafer Polishing: Innovations in CMP Slurry Characterization and Filtration

    Optimizing Wafer Polishing: Innovations in CMP Slurry Characterization and Filtration

    Targeting Defect Sources in NTD CARs: Filtration Strategies for Single-Print EUV Lithography