Elementals in Water Analysis | PerkinElmer
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Elementals in Water Analysis

Environmental analysis plays a vital role in identifying harmful contaminants in water. Whether from industrial processes, waste disposal, soil erosion, lead pipe corrosion, or acid rain, toxic elements like arsenic, copper, chromium, nickel, silver, selenium, and mercury can seep into water sources. Detecting these elements, even at ultralow concentrations, is essential for safeguarding public health and meeting regulatory standards. Environmental scientists need advanced, reliable analytical methods and instruments to ensure accurate results that comply with environmental regulations and strict detection limits.

PerkinElmer’s range of instruments and analytical solutions deliver high productivity, user-friendly workflows to meet and exceed stringent regulatory requirements for trace elemental applications, including EPA 200.8 and ISO 17294-2.

Elementals in Water Analysis Spotlight

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Drinking Water Analysis Solutions Interactive Brochure

Clean and pure drinking water is a necessity. That’s why governments, contract labs, utilities and regulatory agencies test a high volume of samples, time-sensi ...
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NexION 2200 ICP-MS: Helping Ensure Safe, Sustainable Water Supplies

Environmental laboratories conducting trace-elemental analyses of water need a robust instrument that requires as little maintenance as possible. For municipal ...
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Diving into a Holistic Approach to Water Ecosystem Management

“Water is life,” as Dr. Luca Lucentini of Istituto Superiore di Sanità (ISS), is fond of saying. The availability and safety of water supplies is a global chall ...
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Conquering Compliance: Robust Testing Solutions for Metals & PFAS in Water

When it comes to water analysis, it can be challenging for labs to keep up with ever-changing testing regulations whilst also executing time efficient, accurate ...
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How Low Can They Go? Exploring Trace Metal Biogeochemistry on the Living Skin of the Greenland Ice Sheet

In this webinar, Jon Hawkings, Assistant Professor at the University of Pennsylvania, explores the relationship between glaciers and trace metals. By delving in ...
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Determination of Selenium Species in Drinking Water by HPLC-ICP-MS

Selenium (Se) is an essential element at trace levels, toxic at higher levels, and exists in several oxidation states in a variety of inorganic and organic comp ...
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Analysis of Key Elements in Potable Water Using the Avio 220 Max Hybrid Simultaneous ICP-OES

The quality of potable waters is affected by many factors, including geology, geography, pollution, and leaching from pipes used to transport water. Therefore, ...
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Multi-Element Analysis of Drinking Water Following GB/T-5750.6-2023 Using the NexION 1100 ICP-MS

As a vital resource for human consumption, the quality of drinking water is of utmost importance. To help ensure its quality and safety, method GB/T-5750.6 spec ...
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使用 Avio 500 ICP-OES分析废水成分,符合US EPA 200.7要求

本文的重点是按U.S. EPA Method 200.7中提供的准则,对废水进行分析。美国环境保护署(EPA)推出了Method 200.7,用于通过ICP-OES测定水和废物中的金属及微量元素,目前版本为4.4.1修订版。该方法适用于各种样品类型,其中常见的一种应用即废水分析。
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Measurement of lodine in Drinking Water Following GB/T-5750.5-2023 Using the NexION 1100 ICP-MS

Iodine is an essential trace element for human health, but excessive or insufficient intake can cause thyroid disorders. Iodine can also be introduced into wate ...
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Analysis of Trace Elements in Coastal Seawater Using the NexION 2200 ICP-MS

Coastal oceans house a wealth of marine life and serve as the primary source of global seafood production. However, with the increasing industrialization of bot ...
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Multi-Element Analysis of Drinking Water Following ISO 17294-2 Using the NexION 1100 ICP-MS

To help ensure the quality and safety of drinking water, the international standard method ISO 17294 outlines the analysis of elements using inductively coupled ...
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Analysis of Drinking Water Using Universal Collision-Reaction Gas Technology on the NexION 1100 ICP-MS

The most significant challenge in trace element analysis of drinking water is ensuring detection capability that complies with the regulatory framework at the s ...
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