ラーニング

ICP-MSの操作方法については、以下のトピックを参考にしてください。

安全上の注意事項

開始する前に、安全対策と危険性に関する情報安全対策と危険性に関する情報をお読みください。

ICP-MS基本原理

• ICP-MSの基本構成
• 干渉の低減

MassHunterの使用方法

• 新しいUIの概要
• 新機能紹介
  • MassHunter 5.3 の新機能
  • MassHunter 5.2 の新機能
  • MassHunter 5.1 の新機能
  • MassHunter 4.6 の新機能
  • MassHunter 4.5 の新機能
  • MassHunter 4.4 の新機能
  • MassHunter 4.3 の新機能
  • MassHunter 4.2 の新機能

  MassHunter 5.3から、「ISIS 3」の名称を「AVS」に変更しました。ビデオはMassHunter 5.2から更新していないため、「ISIS 3」を使用しています。

• MassHunter 基礎    
  • MassHunterの概要    
  • MassHunter 4.2 ユーザーインターフェース - ダッシュボード（インタラクティブモジュール）
  • ICP-MSの起動    
  • プラズマ点火とスタートアップ    
  • パフォーマンスレポート    
  • バッチの作成    
  • バッチの設定 (1/3) – 測定メソッド    
  • バッチの設定 (2/3) – データ解析メソッド    
  • バッチの設定 (3/3) – サンプルリスト    
  • チューンの概要    
  • バッチの分析    
  • キューでのバッチの編集    
  • データ解析の概要    
  • 定量    
  • レポート    
  • メンテナンスとEMF    
  • 日常分析の典型的なワークフロー    
• アドバンスト MassHunter
  • カスタムチューンとその他チューン
  • 定性（1/2）- コンフィグレーション
  • 定性（2/2）- データ解析
  • レポートデザイナー
  • レポートデザイナー（インタラクティブモジュール）
  • 標準QCによる精度管理
  • 精度管理ソフトウェア
  • シングル ナノパーティクル アプリケーション
  • ISIS 3
  • S-レンズのシステム構成
  • LC-ICP-MS
  • クロマトデータ解析
  • アクセスコントロールパック
  • SDA
  • MassHunterのアップデート

教材ビデオ

• アドバンスド希釈システムの設置
• ADS 2 チューブの取り付け
• ICP-MS 装置の ADS 2 流路

アプリケーションノート

MassHunter 5.3から、「ISIS 3」の名称を「AVS」に変更しました。アプリケーションノートはMassHunter 5.2から更新していないため、「ISIS 3」を使用しています。

• 7800
  • Direct Analysis of 13 Trace Elements in Tea Infusions using ICP-MS
  • Determination of Critical Elements in Foods in Accordance with US FDA EAM 4.7 ICP-MS Method
  • Validating performance of an Agilent ICP-MS for USP <232>/<233> & ICH Q3D(R2)/Q2(R1)

  • Determination of Hexavalent Chromium in Drinking Water by Ion Chromatography (IC)–ICP-MS

  • Determining Elemental Impurities in Pharmaceuticals Using USP/ICH Methodology & ICP-MS

  • China Soil Pollution Survey: Elemental Analysis of Soil and Sediment Digests by ICP-MS

  • High Throughput Analysis of Animal Feed Using the Agilent 7800 ICP-MS with ISIS 3

  • Simple, Rapid Analysis of Trace Metals in Foods Using the Agilent 7700x ICP-MS

  • Analysis of flue gas desulfurization wastewaters by Agilent 7700x/7800 ICP-MS

  • Enhancing the productivity of food sample analysis with ICP-MS

  • Validating the Agilent 7700x/7800 ICP-MS for the determination of elemental impurities in pharmaceutical ingredients according to draft USP general chapters <232>/<233>

  • Multi-Element Analysis of Cannabis and Hemp Using ICP-MS

  • Simple and Reliable Soil Analysis using the Agilent 7800 ICP-MS with ISIS 3

  • High Throughput, Direct Analysis of Seawater using an Agilent ICP-MS with HMI for Aerosol Dilution

  • Drinking Water Analysis using the Agilent 7800 ICP-MS (N8421A)

  • Analysis of 10 nm Gold nanoparticles using the Agilent 7800 ICP-MS

• 7850
  • Direct Analysis of 13 Trace Elements in Tea Infusions using ICP-MS
  • Analysis of Elemental Impurities in Synthetic Oligonucleotides by ICP-MS
  • Routine Analysis of Fortified Foods using Single Quadrupole ICP-MS
  • Characterizing the Elemental Content of Alternative Proteins Using ICP-MS

  • Elemental Impurity Analysis of Lithium-Ion Battery Anodes using Agilent ICP-MS

  • Determination of Heavy Metals and Trace Elements in Alternative Meats Per EAM 4.7 Method for ICP-MS

  • Validating performance of an Agilent ICP-MS for USP <232>/<233> & ICH Q3D(R2)/Q2(R1)

  • Fast, Accurate Analysis of 28 Elements in Water using ISO Method 17294-2

  • ICP-MS Analysis of Trace and Major Elements in Drinking Water According to US EPA Method 200.8

  • Authenticating Geographical Origin of Tea Using Elemental Profiling

  • Analysis of Undiluted Seawater using ICP-MS with Ultra High Matrix Introduction and Discrete Sampling

  • Determination of Hexavalent Chromium in Drinking Water by Ion Chromatography (IC)–ICP-MS

  • Analysis of Inorganic Arsenic, Cadmium, Lead, and Mercury in Baby Foods by ICP-MS

  • Determination of Trivalent and Hexavalent Chromium in Toy Materials

  • Monitoring Compliance with Heavy Metals Limits in Baby Food

  • Customer Presentation - Routine Analysis of Soils Using ICP-MS and Discrete Sampling

  • High Throughput Analysis of Animal Feed Using the Agilent 7800 ICP-MS with ISIS 3

  • Customer Presentation - Fast, Accurate Analysis of 28 Elements in Water using ISO Method 17294-2

  • Analysis of Trace Elements in Water Samples per ISO 17294-2

  • Routine Analysis of Soil Samples using ICP-MS

• 7900
  • ICP-MS Analysis of Trace Elements in LIB Cathode Materials

  • Elemental Analysis of Chemically Defined Cell Culture Media by ICP-MS

  • Characterization of Iron Nanoparticles in Hydrocarbon Matrices by Single Particle (sp)ICP-MS

  • Elemental Impurity Analysis of Sterile Artificial Tear Eye Drops Following USP <232>/<233> and ICH Q3D(R2)/Q2(R1) Protocols on the Agilent 7900 ICP-MS

  • Determination of Extractable and Leachable Elements Using ICP-MS

  • High-Throughput, Multi-Element Analysis of Milk and Milk Powder Using ICP-MS

  • Trace Elemental Analysis of Trichlorosilane by Agilent 7700s/7900

  • Authenticating Rice by Elemental Profiling Using ICP-MS and Statistical Modelling

  • Determination of Trivalent and Hexavalent Chromium in Toy Materials

  • Single Nanoparticle Analysis by 7900 ICP-MS

  • Maximizing productivity for high matrix sample analysis using the Agilent 7900 ICP-MS with ISIS 3 discrete sampling system

  • Application of the Agilent 7900 ICP-MS with Method Automation function for the routine determination of trace metallic components in food CRMs

  • Agilent 7900 ICP-MS simplifies drinking water analysis

  • Ultra-trace analysis of metals in mineral reference materials using the Agilent 7900 ICP-MS with UHMI

  • Measuring Inorganic Impurities in Semiconductor Manufacturing

  • Rapid determination of five arsenic species in polished rice using HPLC-ICP-MS

  • Single particle analysis of nanomaterials using the Agilent 7900 ICP-MS

  • Automating EPA 6020 Compliant Analysis with the Agilent 7900 ICP-MS and ESI prepFAST Autodilution System

  • Multi-Element Analysis of Petroleum Crude Oils using an Agilent 7900 ICP-MS

  • Determination of trace elements in steel using the Agilent 7900 ICP-MS

  • High Throughput Water Analysis using Agilent 7900 ICP-MS coupled with ESI prepFAST

• 8900
  • Determination of Ultratrace Impurities in Semiconductor Photoresist Using ICP-MS/MS
  • Automated Surface Analysis of Metal Contaminants in Silicon Wafers by Online VPD-ICP-MS/MS
  • Analysis of 50 nm Silica Nanoparticles in Semiconductor Process Chemicals by spICP-MS/MS
  • Direct Analysis of Metallic Impurities in SiC and GaN Wafers by LA-GED-MSAG-ICP-MS/MS
  • Measurement of 87Sr/86Sr Isotope Ratios in Rocks by ICP-QQQ in Mass-Shift Mode
  • Arsenic Speciation Analysis in Apple Juice Using HPLC-ICP-MS

  • Analysis of Small-Sized SiO2 Nanoparticles in Chemicals used in Semiconductor Manufacturing by spICP-MS

  • Elemental Analysis of Pure Metals and Alloys by Femtosecond Laser Ablation (LA-)ICP-MS

  • Analysis of Metallic Impurities in Specialty Semiconductor Gases Using Gas Exchange Device (GED)-ICP-MS

  • Elemental and Particle Analysis of N-Methyl-2-Pyrrolidone by ICP-QQQ

  • Analysis of Bromine Pesticide Residue in Australian Grain Export Cargoes Using ICP-MS

  • Quantifying Metal Impurities in Li-Ion Battery Raw Materials by ICP-MS/MS

  • Direct and Traceable Mass Purity Certification of Protein Standards using LC-ICP-MS/MS

  • Automated Analysis of Ultratrace Elemental Impurities in Isopropyl Alcohol

  • Particle Size Analysis of Polystyrene Microplastics by Single Particle (sp) ICP-MS

  • Ultrapure Process Chemicals Analysis by ICP-QQQ with Hot Plasma Conditions

  • Presentation: UPW Analysis Using Agilent 8900 with m lens

  • Simultaneous Quantitation of Peptides and Phosphopeptides by capLC-ICP-MS Using the Agilent 8800/8900 Triple Quadrupole ICP-MS

  • Routine Elemental Analysis of Dietary Supplements using an Agilent 8900 ICP-QQQ

  • Simultaneous Iodine and Bromine Speciation Analysis of Infant Formula by HPLC-ICP-MS

  • Determination of trace elements in ultrapure semiconductor grade sulfuric acid using the Agilent 8900 ICP-QQQ in MS/MS mode

  • High sensitivity analysis of SiO2 nanoparticles using the Agilent 8900 ICP-QQQ in MS/MS mode

  • Using ICP-QQQ for UO2+ product ion measurement to reduce uranium hydride ion interference and enable trace 236U isotopic analysis

  • Measuring Inorganic Impurities in Semiconductor Manufacturing

  • Benefits of the Agilent 8900 ICP-QQQ with MS/MS operation for routine food analysis

  • Sulfur isotope fractionation analysis in mineral waters using an Agilent 8900 ICP-QQQ

  • Analysis of 10 nm gold nanoparticles using the high sensitivity of the Agilent 8900 ICP-QQQ

  • Accurate Determination of TiO2 Nanoparticles in Complex Matrices using ICP-QQQ

  • Ultra-low level determination of phosphorus, sulfur, silicon and chlorine using the Agilent 8900 ICP-QQQ