Semiconductor & Electronics Materials Testing Solutions | PerkinElmer
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Semiconductor & Electronics Analysis

Semiconductor & Electronics

As consumers continue to demand smaller, lighter and safer electronic devices, all phases of the semiconductor and electronics manufacturing process, from research and development, to manufacturing and packaging, are challenged with potential trace level chemical contaminations or particulates in the Process, which will cause reliability issues or failure in the end-product.

Semiconductor, or Integrated Circuitry (IC) R&D managers need to set the stage for full scale production by developing the downstream process standards that will impact device fabrication, the fine chemicals used, QA/QC methods and instrumentation, as well as testing for assembly, housing and packaging components. Semiconductor, display device and electronics manufacturing facilities need easy to use, high sensitivity solutions to detect ppt and ppq impurities, while running 24/7 manufacturing operations.

Internal and external manufacturing workplace environments must also be monitored and controlled on top of ensuring quality processes and product. Occupational and environmental exposure to hazardous and potentially harmful chemicals and gases like volatile organic compounds (VOCs), airborne molecular contamination (AMC) and industrial waste, among others, are challenging to keep up with due to the highly competitive and constantly changing nature of the industry.

Discover how our innovative analytical solutions and services improve all areas of semiconductor, Integrated Circuitry and electronics manufacturing, from process development, process monitoring, QA/QC and failure testing, to assembly and packaging.

Symposium Hub

Visit this Hub page for access to all our videos on how to control semiconductor impurities from R&D to FAB and Back-End Assembly. Our most complete round-up of expertise at your fingertips.

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Research & Development

Semiconductor Research and Development Managers are tasked with establishing the right set of processes and selecting the right materials for the entire integrated circuitry (IC) manufacturing processes. The choices and recommendations semiconductor R&D managers deploy will impact the operation’s ability to achieve 24/7 manufacturing operations and downstream production ROI.

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Device Fabrication

Semiconductor, or IC wafer fabrication, is the front-end phase of semiconductor manufacturing where the many intricate steps introduce numerous points at which contaminations and chemicals impurities pose catastrophic risks to the semiconductor’s reliability and quality. Controlling trace metal and organic contaminates with ultra-clean processes is critical in each device fabrication step to ensure the quality and purity of the materials, gases, and fine chemicals used in manufacturing.

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QA/QC & Failure Testing

As personal technologies like smartphones, tablets, wearables, and the Internet of Things (IoT) devices become smaller and smaller, the highly integrated components within the devices need to become more and more complex. Quality assurance, quality control and failure testing are critical to the back-end phases of semiconductor and device manufacturing, because the sooner a defect can be identified and characterized, the faster production should re-start.

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Assembly & Packaging

Semiconductor, or IC packaging assembly, is an essential and complex back end phase of the semiconductor and electronic device design and manufacturing process. Contaminates introduced to wafer fabrication, component level packaging, module assembly, housing, and plastic components all affect the performance and ultimately the cost of the product. Like many other phases of semiconductor manufacturing, precise analytical sample testing is required to ensure the composition and quality of the assembly and packaging starting materials which are so critical to final device quality.

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Semiconductor & Electronics Solutions Spotlight

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Semiconductor Water Recycling: Analytical Action to Ensure Consistent Water Availability

As semiconductor science advances and the wafers become more complex - increasing volumes of water are needed for the production processes. Manufacturers must b ...
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Electronic Board Recycling with ICP-MS and ICP-OES: Smart, Sustainable - and Successful

Camston Wrather is revolutionizing waste disposal by pioneering sustainable resource recovery, especially from printed circuit boards. Discover how partnering w ...
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Semiconductor & Electronics Analysis Overview Flyer

Download this Flyer for an overview of PerkinElmer's analytical solutions for the Semiconductor industry. This 2-page flyer outlines semiconductor and microelec ...
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Analyses in Recycling: Mining Our Electronic Waste for Precious Recyclates

The MetroCycleEU (project #: 20IND01) under the umbrella of the EMPIR EURAMET initiative, is developing new methods for recyclables measurement in urban mine wa ...
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An Interactive Guide to Semiconductor & Electronics Contaminant Testing Solutions

Semiconductors are at the heart of most every innovation, from telecommunications to automobiles, national security to healthcare. Semiconductors are constantly ...
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Semiconductor Manufacturing: Essential Analytical Techniques

In this White Paper learn how the small but mighty semiconductor has become an essential part of our high-tech world. Commonly called integrated circuits (ICs) ...
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PerkinElmer Semiconductor Symposium: How Will the Industry Bounce Back to Meet Demand?

On an almost daily basis, industrial and consumer products manufacturers and news outlets highlight the many struggles happening within the microelectronics and ...
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Symposium Hub: Controlling Semiconductor Impurities: From R&D to FAB and Back-End Assembly

From your automobile and EVs of the future, to your alarm clock, the recent semiconductor shortage is creating chaos in our industrial and consumer product supp ...
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On the Move: How the CASE Industry Advances Product Performance and Sustainability

Sustainability October 19, 2022Click Here to View All Blogs About Chemicals The industry known as CASE – coatings, adhesives, sealants, and elastomers – is reli ...
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Semiconductor & Electronics Testing Infographic

This infographic presents the analytical techniques and technologies which are utilized by semiconductor R&D managers to improve all areas of semiconductor, Int ...
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How Did We Get Here? Challenging Semiconductor Times.

A main focus of Asianometry’s writings includes semiconductors around the world, from technology to financials.
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Webinar: How low can you go? Reviewing the levels of detection needed by the semicon industry

Smaller, faster and more energy-efficient integrated circuitry are driving the semiconductor industry, necessitating manufacturing transformation. This webinar ...
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Analysis of High-Purity Silicon Matrices for Trace Contaminants with the NexION 5000 ICP-MS

The late 20th century to early 21st century has been described as the Silicon Age, because of the large impact that elemental silicon (Si) has had on the world ...
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Analysis of Iron Nanoparticles in Semiconductor Organic Solvents Using Single Particle ICP-MS in Reaction Mode

Metallic contamination in semiconductor products adversely affects device performance. Transition metals are among the most commonly occurring forms of metal co ...
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Ultra-Trace Elemental Analysis in High-Purity Sulfuric Acid

The production of electronic devices is a complex process that requires the use of ultra-pure chemicals during the manufacturing steps. High-purity-grade sulfur ...
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Direct Analysis of Metallic Impurities in Hydrochloric Gas Using Gas Exchange Device (GED) ICP-MS

In today’s fast-paced world, semiconductors have become indispensable. Demands for faster and smaller chips with higher integration and lower energy consumption ...
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Analyze and Understand the Properties of Epoxy Based PCB using Multifrequency by DMA

Epoxy resins, in the category of CASE chemicals and materials, have a wide range of applications including overmolding integrated circuits, coatings for surface ...
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Analysis of Metallic Nanoparticles in Semiconductor Process Chemicals Using the NexION 5000 SP-ICP-MS

Metallic contamination in semiconductor products adversely affects device performance and impacts the yield of the fabrication process. To meet the demand for h ...
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Transmittance Test for Infrared Proximity Sensors in Mobile Phones

Although smart phone usage has increased dramatically, many users are unaware of the proximity sensors used in their devices. The proximity sensor (infrared hol ...
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Semi-Automated FT-IR Measurements of Elemental Impurities in Silicon Wafers

Silicon wafer production is expected to grow in the coming years with increased demand for semiconductors especially in consumer electronics, automotives, and t ...
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Determination of Various Elements at Ultra-trace Levels in Ultrapure Acids and Photoresist Stripper Solutions by Graphite Furnace Atomic Absorption

To protect the integrity of semiconductor and electronics end-products, semiconductor researchers and developers (R&D) and manufacturing QA/QC functions face un ...
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Use of the TMA 4000 to Perform Standard Test Methods in the Electronics Industry

A major source of failure in electronic circuits is thermal expansion, and the problems it causes. To prevent this, electrical engineers employ thermal conducto ...
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Elemental Scientific - Global Experts in Automation

A collection of application briefs for fully-automated analyses of a variety of semiconductor-grade chemicals, with the ESI prepFAST S ultraclean sample introdu ...
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