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吉林快三大小预测: PinAAcle 900Z Atomic Absorption Spectrometer

吉林快三走势图综合板 www.saanl.com For laboratories needing a high-performance furnace-only atomic absorption (AA) spectrometer, the PinAAcle? 900Z is a longitudinal Zeeman system with a true double-beam design for fast start-up and exceptional long-term stability.

Part Number PINAACLE900Z
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Overview

PinAAcle 900Z配備AA版Syngistix?操作軟件,界面友好,操作簡便,根據從進樣到報告生成的檢測流程而設計,并且可兼容多個原子光譜技術。

  • 真正的雙光路設計,提供超快啟動速度和超高的長期穩定性
  • 業內領先的光纖光路系統,顯著提升光通量,改善檢測下限
  • 配有 TubeView?全彩色石墨爐攝像頭,可使自動進樣器的針頭校準更加便捷,方便方法開發。
  • 基于工作流設計的AA版Syngistix?操作軟件,易于學習及使用,幫助提升實驗室生產力

Specifications

21 CFR Part 11 Compatible Yes
Height 64.0 cm
Model Name PinAAcle 900Z
Portable No
Product Brand Name PinAAcle
Warranty 1 Year
Weight 127.0 kg
Width 95.0 cm
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Application Note

Accurate Determination of Lead in Dairy Products by Graphite Furnace Atomic Absorption

The performance of this method was validated by assessing the Standard Reference Materials (SRMs) from the US National Institute of Standards and Technology (NIST) and China National Institute of Metrology (NIM) as well as by comparing these results with those obtained using inductively coupled plasma mass spectrometry (ICP-MS) after complete sample digestion by microwave method.

PDF 724 KB
Analysis of Pb, Cd and As in Tea Leaves Using Graphite Furnace Atomic Absorption Spectrophotometry

For many years, graphite furnace atomic absorption spectrophotometry (GFAAS) has been a reliable technique and the preferred method for this heavy metals analysis of tea leaves.

PDF 589 KB
Analysis of Pb, Cd, and As in Spice Mixtures

With an inherent toxicity, a tendency to accumulate in the food chain and a particularly low removal rate through excretion, lead (Pb), cadmium (Cd) and arsenic (As) cause harm to humans even at low concentrations.

PDF 766 KB
Determination of As, Se and Hg in Waters by Hydride Generation/Cold Vapor Absorption Spectroscopy

Contamination of industrial and municipal water supplies with arsenic (As), selenium (Se), and mercury (Hg) can occur from natural deposits, industrial discharge, runoff from mining, landfill and agricultural operations.

PDF 1 MB
Determination of Toxic, Trace and Essential Elements in Food Matrices using THGA Coupled with Longitudinal Zeeman Background Correction

Ingestion of trace elements from food can be linked to nutrition, disease, and physiological development. Whether they are needed for proper nutritional value or contain toxic elements, the presence of major and minor elements in food needs to be verified to help determine health effects for the consumer. Acute or chronic exposure to heavy metals can lead to damaged nervous system function and have detrimental effects on vital organs. Food safety laboratories performing these analyses are often high-throughput and require a detection tool that is efficient and cost effective.

PDF 752 KB
Determination of Various Elements at Ultra-trace Levels in Ultrapure Acids and Photoresist Stripper Solutions by Graphite Furnace Atomic Absorption

This work demonstrates the ability to measure trace levels of various metals in ultrapure acids and photoresist stripper solutions by graphite furnace atomic absorption.

PDF 1 MB
Fast Digestion Analysis of Lead and Cadmium in Rice Using Graphite Furnace Atomic Absorption

Lead (Pb) and cadmium (Cd) are common pollutants in grains and are extremely toxic. Pb is harmful to human organs even at trace levels, and once it accumulates in the body, it causes inhibition of hemoglobin formation and neurological disorders. Cd is even classified as human carcinogen [Group 1 - according to International Agency for Research on Cancer]. It is reported that Cd leads to severe kidney problems which can be fatal and is also associated with brittle bones and liver problems. Rice, as the most widely consumed cereal grain in Asia/China, can quickly pick up Pb and Cd from toxins, pesticides and fertilizers in the soil, thereby endangering the health of millions of people through their diet. Therefore, it is extremely important to develop a simple, reliable method to monitor the levels of Pb and Cd in rice. According to Chinese national standard GB 2715-2016 Hygienic Standard for Grain, the maximum concentrations of Pb or Cd in grains must be below 0.2 mg/kg; the allowable level in the European Union is the same [EC 1881/2006]. The official technique for the determination of heavy metals in both cases is graphite furnace atomic absorption spectroscopy (GFAAS, GB/T 5009. 12-2017, GB/T 5009-2017. 15 and EN 14083:2003). Samples can be pretreated using various methods, including microwave digestion, hot block digestion, dry ashing, and hot plate digestion. It is found that these conventional digestion procedures are always complicated and time-consuming (two-four hours or even longer). Plus, conventional sample preparation techniques require large quantities of corrosive and oxidizing reagents, increasing the chance for contamination which could lead to inaccurate results. Special PTFE vessels are needed for microwave digestion; however, reusable utensils might also cause cross contamination.

PDF 412 KB
Trace Metals in Waters by GFAAS, in Accordance with U.S. EPA and Health Canada Requirements

Precise and accurate measurements at the regulated levels are an important factor for assuring safe drinking water. U.S. EPA Method 200.91 is the method cited by EPA, Health Canada, and the WHO for the use of graphite furnace atomic absorption spectroscopy (GFAAS). In evaluating a GFAAS system for determination of these elements, it must provide good sensitivity, low noise, limited drift, and accuracy in matrices with high salt content (hard water) that might be found in drinking waters. In this work, the PinAAcle? 900T, with a unique optical system, is evaluated for the use of EPA Method 200.9 for As, Cd, Pb, Se, and Tl in drinking waters.

PDF 289 KB

Brochure

Grain Testing Solutions Brochure

The grain industry is very complex. It’s global, diverse, and can also present analytical challenges. Today’s grain users demand more when it comes to quality, safety, and uniformity. In addition, they seek diverse products with unique characteristics.

PerkinElmer is equipped to help the grain industry in its quest to feed the world – nutritiously and economically. Our testing and analysis solutions encompass the three primary areas required for complete knowledge of grains and their derivatives – composition, functionality, and safety.

PDF 6 MB
PinAAcle 900 Series AA Spectrometers Brochure

The PinAAcle series of atomic absorption (AA) spectrometers brings AA performance to new heights. Engineered with an array of exciting technological advances, it offers a variety of configurations and capabilities to deliver exactly the level of performance you need:

  • Flame only, furnace only, or space-saving stacked designs featuring both
  • Flame, furnace, flow injection, FIAS-furnace and mercury/hydride capabilities on a single instrument
  • Choice of Deuterium or longitudinal Zeeman background correction
  • TubeView color furnace camera simplifies autosampler tip alignment and sample dispensing
  • Syngistix for AA, a workflow-based software designed to speed and simplify the journey from sample to results
  • And no matter which model you select (900F, 900Z, 900H, 900T), you’ll discover an intuitive, highly efficient system capable of simplifying your journey from sample to results—even with the most difficult matrices. Experience peak performance and unmatched productivity. Step up to the PinAAcle series from PerkinElmer.

    Download the brochure to learn more.

    PDF 1 MB

    Catalog

    Atomic Spectroscopy 2018-2019 Consumables & Supplies Catalog

    With instruments that are the industry standard worldwide, PerkinElmer accessories, consumables, methods and application support meet the most demanding requirements and are the preferred choice in thousands of laboratories globally.

    PDF 8 MB

    Flyer

    High Quality and Performance in Atomic Absorption Grain Testing Ensemble Flyer

    Consumers are exposed to low levels of heavy metals on a daily basis and long term exposure can have negative health impacts. Since the elements themselves are distributed unevenly throughout, for example, cereal grain, with the germ and the outer layers having the highest concentrations, analyzing these grains to detect low analyte levels with accuracy and controlled reproducibility is a challenge.

    The atomic absorption analysis technique provides a high performance option with features like a closed-furnace design that is sealed at both ends with easily removable bayonet-mount windows. In addition, independently controlled external and internal gas streams provide maximum flexibility, tube life, and sensitivity.

    Systems like the PinAAcle 900 AA spectrometer make it faster and easier to get from sample to results by reducing your grain method development time, while PerkinElmer consumables and superior services will keep your lab at peak performance.

    PDF 1 MB

    Guide

    Atomic Spectroscopy, A Guide to Selecting the Appropriate Technique and System

    This guide provides a basic overview of the most commonly used atomic spectroscopy techniques and provides the information necessary to help you select the one that best suits your specific needs and applications.

    PDF 1 MB
    PinAAcle 500/900 AA Spectrometers - Preparing Your Lab

    This document provides detailed instructions regarding the space, accessories and utilities required to operate PerkinElmer’s PinAAcle family of atomic absorption (AA) spectrometers (500 and 900 series) and other major AA accessories.

    PDF 1 MB

    Regulatory Compliance Certification

    Technical Note

    Analytical Quality with Genuine PerkinElmer Graphite Parts

    The production of high-quality graphite components for atomic absorption spectroscopy requires stringent quality control. To ensure high quality and consistency, a specific high-density base graphite material has been developed for use with PerkinElmer graphite furnace systems.

    PDF 245 KB