Conical Torch: The Next-Generation Inductively Coupled Plasma Source for Spectrochemical Analysis

被引:14
|
作者
Alavi, Sina [1 ]
Khayamian, Taghi [1 ]
Mostaghimi, Javad [1 ]
机构
[1] Univ Toronto, Dept Mech & Ind Engn, Toronto, ON M5S 3G8, Canada
来源
ANALYTICAL CHEMISTRY | 2018年 / 90卷 / 05期
基金
加拿大自然科学与工程研究理事会;
关键词
ATOMIC-EMISSION-SPECTROMETRY; RELATIVE OSCILLATOR-STRENGTHS; FE-I TRANSITIONS; LOW-FLOW; MASS SPECTROMETRY; GAS CONSUMPTION; ELECTROMAGNETIC-FIELD; PRECISION-MEASUREMENT; COOLED TORCH; ELEMENT;
D O I
10.1021/acs.analchem.7b04356
中图分类号
O65 [分析化学];
学科分类号
070302 ; 081704 ;
摘要
A completely new ICP torch for optical/mass spectrometry is introduced with a conical geometry leading to significant reduction in gas and power consumption. As a new holistic methodology, the torch has been designed on the basis of fluid flow patterns, heat transfer, plasma physics, and analytical performance. Computer simulations, capable of accounting for magneto-hydrodynamic effects, have been used to optimize torch geometry. The result is a "conical" torch with up to 70% reduction in argon flow and more than 4 times power density compared with traditional "cylindrical" torches. Based on experimental measurements, these features lead to a stable plasma with 1000-1700K higher excitation/rotational temperature and a 5-fold increase in electron number density compared to common torches. Interferences from easily ionizable elements (e.g., Na) are also observed to be minimized due to 3 times higher robustness (Mg II/Mg I ratio). Eventually, analytical parameters including detection limits for multielement analysis indicate comparable/better performance of the new torch in comparison with conventional torches.
引用
收藏
页码:3036 / 3044
页数:9
相关论文
共 50 条
  • [1] INDUCTIVELY COUPLED ARGON PLASMA - A SOURCE FOR SPECTROCHEMICAL ANALYSIS
    NATARAJAN, S
    INDIAN JOURNAL OF TECHNOLOGY, 1989, 27 (02): : 104 - 110
  • [2] On inductively coupled plasmas for next-generation processing
    Lee, YK
    Lee, DS
    Bai, KH
    Chung, CW
    Chang, HY
    SURFACE & COATINGS TECHNOLOGY, 2003, 169 (169-170): : 20 - 23
  • [3] OPTICAL-EMISSION SPECTROCHEMICAL ANALYSIS OF STEEL SAMPLES WITH INDUCTIVELY COUPLED PLASMA SOURCE
    TANAKA, I
    TAHARA, S
    OHTSUKI, T
    SATO, K
    MATSUMOTO, R
    BUNSEKI KAGAKU, 1979, 28 (06) : 371 - 376
  • [4] TUBULAR ELECTRODE TORCH FOR CAPACITATIVELY COUPLED HELIUM MICROWAVE PLASMA AS A SPECTROCHEMICAL EXCITATION SOURCE
    PATEL, BM
    HEITHMAR, E
    WINEFORDNER, JD
    ANALYTICAL CHEMISTRY, 1987, 59 (19) : 2374 - 2377
  • [5] Analytical performance of the Conical torch in axially viewed inductively coupled plasma optical emission spectroscopy
    Guo, Xiaoman
    Alavi, Sina
    Mostaghimi, Javad
    JOURNAL OF ANALYTICAL ATOMIC SPECTROMETRY, 2019, 34 (10) : 2126 - 2135
  • [6] GENERATION OF A HELIUM INDUCTIVELY COUPLED PLASMA IN A LOW-GAS-FLOW TORCH
    CHAN, SK
    VANHOVEN, RL
    MONTASER, A
    ANALYTICAL CHEMISTRY, 1986, 58 (11) : 2342 - 2343
  • [7] Plasma Characteristics Using Superimposed Dual Frequency Inductively Coupled Plasma Source for Next Generation Device Processing
    Lee, Seung Min
    Lee, Chul Hee
    Kim, Tae Hyung
    Yeom, Geun Young
    Kim, Kyong Nam
    JOURNAL OF NANOSCIENCE AND NANOTECHNOLOGY, 2015, 15 (11) : 8674 - 8678
  • [8] STUDY OF INDUCTIVELY COUPLED PLASMA TORCH CONFIGURATIONS
    ALLEMAND, CD
    BARNES, RM
    APPLIED SPECTROSCOPY, 1977, 31 (05) : 434 - 443
  • [9] Development of a plasma ion source for next-generation facilities
    Mhamed, MC
    Lau, C
    Essabaa, S
    Arianer, J
    Bajeat, O
    Croizet, H
    Ducourtieux, M
    Lefort, H
    REVIEW OF SCIENTIFIC INSTRUMENTS, 2006, 77 (03):
  • [10] REMOTE COUPLING UNIT FOR RADIOFREQUENCY INDUCTIVELY COUPLED PLASMA DISCHARGES IN SPECTROCHEMICAL ANALYSIS
    SCHLEICHER, RG
    BARNES, RM
    ANALYTICAL CHEMISTRY, 1975, 47 (04) : 724 - 728
12345