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海能仪器:微波消解锂云母

锂云母中锂、钾、铆、绝的检测是锂云母分析中的经常性检测项目。样品通常采用氢酸一硫酸分解。为了提高锂云母样品的消解效率,采用微波消解的方法对其进行前处理,本方法消解迅速,酸用量少,酸雾污染小,有利于后续对锂、钾、铆、绝等元素的准确快速测定。

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微波消解仪厂家

微波消解仪厂家

iCAP TQ三重四级杆ICPMS测定高纯氧 化镝中的15种稀土杂质

本文运用赛默飞iCAP TQ三重四级杆ICPMS 建立了一种直接测试高纯氧化镝中15种稀土杂质的方法。该方法简单快速,无需复杂的基体分离过程,利用iCAP TQ有效去除氧化镝基体多原子离子对165Ho和175Lu的干扰,适用于纯度为99.99%~99.9999%的高纯氧化镝中稀土杂质纯度分析。

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赛默飞电感耦合等离子体质谱仪ICP-MS

赛默飞电感耦合等离子体质谱仪ICP-MS

型号:iCAP RQ

超高压压样机关于硅锰合金制样应用

某钢厂采用瑞绅葆UHPS超高压压样机直接压片,同时进行主量元素和杂质元素快速检测,简化试验步骤,降低劳动强度,避免了污染,获得了令人满意的结果。制样方法如下:

火焰原子吸收光谱法测定地质样品中的锶

锶的分析方法主要有石墨炉原子吸收法、电感耦合等离子体发射光谱法、电感耦合等离子体质谱法等。本文通过对火焰原子吸收法(FAAS)测定地质样品中微量锶的方法,建立了微量锶的快速、简便的分析方法。

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原子吸收分光光度计

原子吸收分光光度计

型号:4520A

利用超快激光对钙钛矿纳米晶粒的自发辐射增强效应(ASE)的光致荧光角分辨光谱表征

具有 ABX3 结构的有机-无机杂化钙钛矿在固态下自发辐射光致发光量子产率高达 90%,并在三维、二维和纳米晶粒中存在 自发辐射增强 现象(Amplified spontaneous emission,ASE)。钙钛矿薄膜的空间拓展态的集体跃迁带来的辐射特性具有一定的相干性,会带来空间辐射的各向异性,为薄膜激光器件中使用混合钙钛矿带来了良好的应用前景。

MultiWave 5000 微波消解铑、铱、钯应用报告

称取少量样品加入到20SVT50消解罐中,加入盐酸和硝酸试剂,按照相关参考微波程序进行消解,消解程序结束后得澄清消解液。

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高性能多用途Multiwave 5000微波消解仪

高性能多用途Multiwave 5000微波消解仪

型号:Multiwave 5000

使用Iridia极速成像激光剥蚀系统在地质方面的应用

美国CETAC公司新近开发的Iridia极速成像激光剥蚀系统,结合TOFWERK公司ICP-TOF-MS技术,提供了两种地质样品的分析案例。

推荐
产品
极速成像激光剥蚀系统

极速成像激光剥蚀系统

型号:Iridia

原子吸收光谱法测定矿渣烟灰中的微量铟

铟属稀有金属,在现代工业中的应用越来越广泛,主要用途在手机、电视的液晶屏幕上、飞机用的涂敷铅的银轴承的镀层等,由于铟不独立成矿,全部伴生在铅、锌等其它金属矿中,因此急需一种能准确、快速测定铟含量的方法,为选矿及冶炼精铟提高科学数据。

推荐
产品
原子吸收分光光度计

原子吸收分光光度计

型号:4520A

使用高性能剥蚀池Cobalt进行LA-ICP-TOF-MS成像分析

使用为Iridia极速成像激光剥蚀系统量身打造的Cobalt剥蚀池,结合ICP-TOF-MS处理手段,对地质样品进行成像分析,直观地显示出元素分布及含量。

推荐
产品
极速成像激光剥蚀系统

极速成像激光剥蚀系统

型号:Iridia

泡沫塑料吸附-原子吸收光谱法测定金

金矿的普查勘探对金的分析检测也提出更高的要求。如何准确快速的测定各样品中金的含量,一直困扰着我们。因此,研究金测定的方法具有很强的现实意义。由于金在矿石中的含量较低,目前测定金采用的主要方法是原子吸收光谱法。对于微量金通常采用火焰原子吸收光谱法。

推荐
产品
原子吸收分光光度计

原子吸收分光光度计

型号:4520A
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