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PerkinElmer

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Completely and accurately analyze the chemical and physical parameters of nanomaterials with our full range of characterization solutions. We have more than 20 dedicated instruments to measure concentration, particle size (and size distribution), shape, agglomeration, structure and composition.

  • PerkinElmer is the industry leader in single-particle ICP-MS analysis
  • We offer the most complete portfolio of hyphenated systems available anywhere
  • We have the most flexible UV/Vis/NIR on the market -- with many accessories such as integrating spheres, the General Purpose Optical Bench (GPOB), and the unique Universal Reflectance Accessory (URA)

Also count on our state-of-the-art systems to enable you to characterize nanomaterials using fluorescence, FT-IR, Raman, TGA, DSC, DMA, GC/MS and other common analytic techniques.

僅供科學研究,非臨床診斷用途。

Inorganic Nanomaterials

Our Single Particle ICP-MS (SP-ICP-MS) solutions allows for the rapid analysis of nanoparticles, measuring thousands of particles in less than a minute, while providing individual particle information on particle size, particle size distribution, particle concentration, dissolved concentration of the element, and agglomeration.

For UV/Vis spectrophotometry, our instruments are known worldwide for data integrity, sampling flexibility and ease of use. Trendsetting features include snap-in modules, innovative accessories and intuitive software, all designed to make your process more efficient, versatile and productive.

Organic Nanomaterials

To determine particle concentration and composition in organic nanomaterials, we offer industry-leading solutions for Liquid Chromatography and Mass Spectroscopy (LC-MS), as well as the state of the art in Ultraviolet/Visible Spectroscopy (UV/Vis).

Carbonaceous Nanomaterials

Our advanced thermal analysis systems and hyphenated techniques provide unparalleled insight into the characteristics of carbonaceous nanomaterials, with high levels of accuracy, sensitivity and performance.

You can also leverage our advanced, easy-to-use UV/Vis spectrophotometry instruments, which provide a highly flexible platform for obtaining accurate analysis of carbonaceous nanomaterials.

Hybrid Nanomaterials

PerkinElmer offers the broadest available set of options for your hybrid nanomaterials characterization.

  • SP-ICP-MS
  • UV/Vis/NIR
  • DSA/TOF
  • Thermal Analysis/Hyphenation

Our instruments in each of these areas delivers state-of-the-performance for your most demanding research applications.

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1-12 的 27 產品與服務

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1-12 的 42 Business Insights

  • 產品手冊

    The Power of the Sun, Solar Energy Development Solutions

    As the demand for solar power continues to grow, there needs to be a clear focus on different key issues in the life cycle of a solar cell. These issues are: efficiency, durability and cost. Coupling PerkinElmer’s application knowledge and experience together with our product portfolio, we can help manufacturers overcome these obstacles. At PerkinElmer, we’re taking action to ensure the quality of our environment.

  • 白皮書

    Weighing the Benefits and Risks of Nanotechnology White Paper

    There is a growing body of evidence showing that there are significant differences between some nanomaterials and their non-nanoscale counterparts. What those differences portend raises many new questions about their potential to cause harm to human health and the environment.

  • 應用文獻

    Simple Method of Measuring the Band Gap Energy Value of TiO2 in the Powder Form using a UV/Vis/NIR Spectrophotometer

    The measurement of the band gap of materials is important in the semiconductor, nanomaterial and solar industries. This note demonstrates how the band gap of a material can be determined from its UV absorption spectrum.

  • 應用文獻

    Measurement of Gold Nanoparticle Solutions on the LAMBDA 265

    The data shows the suitability of the LAMBDA 265 for producing rapid, high-quality spectra. It also shows that the instrument is able to measure the higher nanoparticle sizes, even though these scatter light to a greater extent due to the increased particle size and also settle out more quickly.

  • 應用文獻

    Water Analysis Using LAMBDA UV/Visible Spectrophotometers: Iron Determination

    Iron is rarely found in its elemental form in nature due to the high tendency of its ions, Fe(II) and Fe(III), to form oxygen and sulphur containing compounds. Concentrations of iron found in surface waters are typically no greater than 1 mg/L, unless contaminated by industrial effluents, whilst much higher concentrations are found in ground waters. The World Health Organization guideline for iron in drinking water is 0.3 mg/L as undesirable bacteria growth in water systems occurs above this concentration. In this application, the quantitative analysis of iron was performed using the LAMBDA 265? UV/Vis spectrophotometer and CHEMetrics iron cell test kit.

  • 應用文獻

    Water Analysis Using LAMBDA UV-Visible Spectrophotometers: Chemical Oxygen Demand Determination

    Chemical Oxygen Demand (COD) is used as an indirect measurement of the sum of oxidizable matter in water and measures the equivalent amount of oxygen required to oxidize organic compounds. Wastewater commonly contains organic compounds, as a result of industrial processes, which can oxidise in the presence of dissolved oxygen in the water. Low levels of dissolved oxygen can be detrimental to aquatic life but high levels may cause corrosion of metal pipes. It is important to use COD as an indicator of water quality. In this application, quantitative analysis of COD was performed using the LAMBDA 265TM UV-Vis spectrophotometer and Merck Spectroquant? COD mercury free cell test.

  • 應用文獻

    Absorption Spectroscopy as a Powerful Technique for the Characterization of Single-Walled Carbon Nanotubes

    UV/Vis/NIR absorption spectroscopy has evolved to a very powerful characterization tool of carbon nanotube dispersions and has thus contributed a significant share to the insights on nanotube purity, functionalization and sorting that were elaborated the past years.

  • 應用文獻

    Reflectance Measurements of Materials Used in the Solar Industry

    The primary goal of this technical note is to guide the user through the accessory selection process for different specular/ diffuse samples. This will be achieved by measuring identical samples with varying contributions of diffuse and specular reflection, on three different reflection accessories, and then comparing the spectra generated.

  • 應用文獻

    Water Analysis Using LAMBDA UV/Visible Spectrophotometers Hexavalent Chromium Determination

    Chromium (VI) ions react with diphenylcarbazide in weakly phosphoric solution. The product, diphenylcarbazone, is a red-violet complex which can be detected photometrically at 550 nm. The chromate cell test kit is suitable for the concentration range of 0.11 – 4.46 mg/L chromate allowing the concentration of chromium(VI) in a water sample to be determined without the use of a calibration curve by multiplying the measured absorbance at 550 nm with a known factor.

  • 應用文獻

    Testing and Validation of Various Antacids for Elemental Impurities using the NexION 2000 ICP-MS

    The United States Pharmacopeia (USP) has announced that its new standards for elemental impurities in drug products has been implemented since January 1, 2018. General Chapters <232> and <2232> specify the list of elements and their permissible daily exposure (PDE) limits based on the route of administration.

  • 應用文獻

    Analysis of Drinking and Natural Waters using the NexION 2000 ICP-MS

    This work has demonstrated the ability of the NexION 2000 ICP-MS to analyze both natural and drinking water samples in Standard (i.e. non-cell) mode, in accordance with U.S. EPA Method 200.8. Accuracy has been demonstrated through the analysis of several reference materials and spike recoveries, with stability of at least nine hours. Method detection limits allow for trace-level determinations, while the ability to selectively suppress user-defined isotopes also allows the measurement of analyte levels usually only possible by ICP-OES or Flame AA. The NexION 2000 provides a comprehensive solution to the challenge of U.S. EPA Method 200.8 and other drinking and natural water analytical requirements across the globe.

  • 應用文獻

    Analysis of Cerium Dioxide Nanoparticles in Soil Using Single Particle ICP-MS

    This work demonstrates a robust method using SP-ICP-MS technology to detect CeO2 NPs which were extracted from soil samples with tetrasodium pyrophosphate (TSPP). Over the past few decades, engineered nanoparticles (ENPs) have been increasingly used in many commercial products. As a result, more and more ENPs have been released into the environment, which raises concerns over their fate, toxicity and transport therein.

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