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LAMBDA 265 紫外/可见分光光度计

LAMBDA 265系统具有超快速数据采集能力和最高的可靠性,并且占用空间最小,是广泛R&D和QA/QC应用的理想系统。

部件号 N4100010
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详情 信息

快速,容易使用,实惠的光电二极管阵列紫外/可见分光光度计

配备光电二极管阵列(PDA)检测器,可同时在190~1100 nm全范围采集数据。数秒后处理即可完成。此外,该系统采用坚固的模块化设计,不含活动部件,是业务繁忙实验室的理想之选。高能量闪烁氙灯只在采集光谱时点亮,长寿命,减少费用。系统尺寸紧凑,便于移动至任何所需地点。

规格

高度 11.0 cm
接口 Xenon Flash
最高温度 35 °C
最低温度 15 °C
型号名称 LAMBDA 265
工作范围(-60to400) 190 - 1100 nm
便携式 No
产品品牌名称 LAMBDA
保修 1 year
重量 6.6 kg
宽度 32.0 cm
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Torion T-9便携式气质联用仪

Torion T-9便携式气质联用仪

PDF 3 MB

合规认证证书

应用文献

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

PDF 1 MB
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.

PDF 782 KB
Water Analysis Using LAMBDA UV-Visible Spectrophotometers: Nitrate-Nitrogen Determination

Nitrate ions react with 2,6-dimethyl phenol (DMP) in sulfuric and phosphoric solution to form 2,6-dimethyl-4-nitrophenol (Figure 2) which can be detected spectrophotometrically at 340 nm and is directly proportional to the nitrate-nitrogen concentration. The Merck test kit allows the concentration to be determined without the use of a calibration curve by multiplying the measured absorbance at 340 nm by a known factor. In this application, the quantitative analysis of nitrate was performed using the LAMBDATM 265UV-Vis spectrophotometer and Merck Spectroquant® cell test. The method used is analogous to DIN 38405-9.

PDF 1 MB
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.

PDF 1 MB
Water Analysis Using LAMBDA UV/Visible Spectrophotometers: Ammonia-Nitrogen Determination

Ammonia-nitrogen (NH3-N) occurs naturally in groundwaters at concentrations below 0.2 mg/L and up to 12 mg/L in surface waters, as a result of decomposition of organic matter. High concentrations of ammonia in surface waters are toxic to aquatic life and are indicative of contamination from industrial effluent, raw sewage and agricultural runoff. Ultimately the pH value of the water determines whether ammonia-nitrogen is found as NH4+, NH4OH or NH3. 1 In this application, the quantitative analysis of ammonia-nitrogen was performed using the LAMBDA 265™ UV/Vis spectrophotometer and CHEMetrics ammonia nitrogen cell test.

PDF 1 MB
Water Analysis Using LAMBDA UV/Visible Spectrophotometers: Formaldehyde Determination

In this application, the quantitative analysis of formaldehyde was successfully executed using the LAMBDA 265 UV/Vis spectrophotometer and Merck Spectroquant formaldehyde cell test kit. Principle Formaldehyde reacts with chromotropic acid in sulphuric solution to form a violet dye which can be detected photometrically at 565 nm. The formaldehyde cell test kit is appropriate for the concentration range of 0.10 to 8.00 mg/L formaldehyde allowing the concentration of formaldehyde in a water sample to be determined without the use of a calibration curve by multiplying the measured absorbance at 565 nm by a known factor.

PDF 475 KB
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.

PDF 1010 KB
Water Analysis Using LAMBDA UV/Visible Spectrophotometers: Ortho-Phosphate Determination

In surface waters, phosphorus commonly exists in its phosphate form. A high concentration of phosphate in water is indicative of domestic waste, industrial effluent, and agricultural runoff which can lead to eutrophication. Eutrophication causes an increase in plant and algal growth, which decreases the dissolved oxygen in the water, often leaving the water uninhabitable to organisms. In this application, the quantitative analysis of ortho-phosphate was performed using the LAMBDA 265 UV/Vis spectrophotometer and CHEMetrics ortho-phosphate cell test kit.

PDF 1 MB
使用便携式气相色谱质谱仪快速鉴定和表征红茶样品中痕量有机氯农药

使用便携式气相色谱质谱仪快速鉴定和表征红茶样品中痕量有机氯农药

PDF 916 KB
利用SPME-GC/MS 对土壤中挥发性有机物进行快速筛查

利用SPME-GC/MS 对土壤中挥发性有机物进行快速筛查

PDF 5 MB
采用便携式气相色谱/质谱仪快速测定水中半挥发性有机物的优势

采用便携式气相色谱/质谱仪快速测定水中半挥发性有机物的优势

PDF 876 KB