搜索

x

留言板

尊敬的读者、作者、审稿人, 关于本刊的投稿、审稿、编辑和出版的任何问题, 您可以本页添加留言。我们将尽快给您答复。谢谢您的支持!

姓名
邮箱
手机号码
标题
留言内容
验证码

基于飞秒激光等离子体丝诱导击穿光谱探测土壤重金属Cr元素含量

高勋 杜闯 李丞 刘潞 宋超 郝作强 林景全

引用本文:
Citation:

基于飞秒激光等离子体丝诱导击穿光谱探测土壤重金属Cr元素含量

高勋, 杜闯, 李丞, 刘潞, 宋超, 郝作强, 林景全

Detection of heavy metal Cr in soil by the femtosecond filament induced breakdown spectroscopy

Gao Xun, Du Chuang, Li Cheng, Liu Lu, Song Chao, Hao Zuo-Qiang, Lin Jing-Quan
PDF
导出引用
  • 本文基于飞秒激光等离子体丝诱导击穿光谱对土壤重金属Cr元素含量进行了实验研究. 利用荧光法对等离子体丝的长度进行测量,给出了在不同焦距聚焦透镜作用下土壤中Cr425.5 nm的谱线强度空间分布,实验给出了Cr元素的定标曲线. 实验结果表明,土壤中Cr元素浓度分析测量的相对标准偏差小于5%,土壤中重金属Cr元素的检测极限为7.85 ppm. 表明飞秒激光等离子体丝诱导击穿光谱技术在土壤重金属Cr元素含量的定量探测方面是完全可行的.
    In this paper, the element content detection of heavy metal Cr in soil is investigated experimentally by femtosecond filament induced breakdown spectroscopy (FIBS). The plasma filament length is measured using the fluorescence method, and the spatial distribution of Cr 425.5 nm spectral intensity is obtained at lens focal lengths 150 mm and 1000 mm. A calibration curve of the heavy metal element Cr in the soil is obtained based on experimental results. Results demonstrate that the relative deviation of the quantitative analytic result from the standard value is smaller than 5%, and the detection limit of Cr in soil is 7.85 ppm at the laser repetition rate 1 kHz. The femtosecond laser filaments induced breakdown spectroscopy is entirely feasible for quantitative detection of heavy metal element Cr in the soil.
    • 基金项目: 国家自然科学基金(批准号:11074027,61178022,11211120156)、吉林省科技厅项目(批准号:20100168,20111812,201215132)和教育部博士点基金-新教师(批准号:20112216120006)资助的课题.
    • Funds: Project supported by the National Natural Science Foundation of China (Grant Nos. 11074027, 61178022, 11211120156), the Natural Science Foundation of Jilin Province, China (Grant Nos. 20100168, 20111812, 201215132), and the Specialized Research Fund for the Doctoral Program of High Education of China (Grant No. 20112216120006).
    [1]

    Alexander D R, Poulain D E, Ahmad M U, Kubik R D, Cespedes E R 1994 IEEE 2 767

    [2]

    Pandhijia S, Rai N K, Rai A K, Thakur S N 2010 Appl Phys. B 98 231

    [3]

    Lu C P, Liu W Q, Zhao N J, Liu L T, Chen D, Zhang Y J, Liu J G 2011 Acta Phys. Sin. 60 045206 (in Chinese)[鲁翠萍, 刘文清, 赵南京, 刘立拓, 陈东, 张玉钧, 刘建国 2011 60 045206]

    [4]

    Dell’ Aglio M, Gaudiuso R, Senesi G S, Giacomo A D, Zaccone C, Miano T M, Pascale O D 2011 Environ Monitor 13 1422

    [5]

    Zheng Z K, Ma X H, Zhao H F, Yu L, Zhang M, Liao Y B 2009 Spectroscopy and Spectral Analysis 29 3383 (in Chinese) [郑泽科, 马晓红, 赵华凤, 于乐, 张敏, 廖延彪 2009 光谱学与光谱 分析 29 3383]

    [6]

    Lu Y, Wu J L, Li Y, Guo J J, Cheng K, Hou H M, Zheng R E 2009 Spectroscopy and Spectral Analysis 29 3121 (in Chinese) [卢渊, 吴江来, 李颖, 郭金家, 程凯, 侯华明, 郑荣儿 2009 光谱学与光谱分析 29 3121]

    [7]

    Li J, Lu J D Lin Z X Gong S S, Xie C L, Chang L, Yang L F, Li P Y 2009 Optics m& Laser Technology 41 907

    [8]

    Zhu D H, Ni X W, Chen J P, Zhang H C 2011 Spectroscopy and Spectral Analysis 31 319 (in Chinese) [朱德华, 倪晓武, 陈建平, 张宏超 2011 光谱学与光谱分析 31 319]

    [9]

    Dario S J, Lidiane C N, Gabriel G A, Marcos D S G, Paulino F D S, Flavio D O L, Luis G C D S, Francisco J K 2012 Spectrochimica Acta Part B Atomic Spectroscopy 71-72 3

    [10]

    Agnes N, Hao Z Q, Liu J, Tao H Y, Gao X, Sun C K, Lin J Q 2012 Chin. Phys. B 21 074204

    [11]

    Braun A, Korn G, Liu X, Du D, Squier J, Mourou G 1995 Opt. Lett. 20 73

    [12]

    Guo K M, Hao Z Q, Lin J Q, Sun C K, Gao X, Zhao Z M 2013 Chin. Phys. B 22 035203

    [13]

    Chin S L, Xu H L, Luo Q, Theberge F, Liu W, Daigle J F, Kamali Y, Simard P T, Bernhardt J, Hosseini S A, Sharifi M, Mejean G, Azarm A, Marceau C, Kosareva O, Kandidov V P, Akozbek N, Becker A, Roy G, Mathieu P, Simard J R, Chateauneuf M, Dubois J 2009 Appl. Phys. B 95 1

    [14]

    Rohwetter P, Yu J, Me’jean G, Stelmaszczyk K, Salmon E, Kasparian J, Wolf J P, Woste L 2004 Anal. At. Spectrom 19 437

    [15]

    Liu W, Xu H L, Méjean G, Kamali Y, Daigle J F, Azarm A, Chin S L 2007 Spectrochimica Acta Part B 62 76

    [16]

    Rohwetter P, Stelmaszczyk K, Woste L, Ackermann R, Mehean G, Salmon E, Kasparian J, Yu J, Wolf J P 2005 Spectrochimica Acta Part B 60 1025

    [17]

    Stelmaszczyk K, Rohwetter P, Mejean G, Yu J, Salmon E, Kasparian J, Ackermann R, Wolf J P, Woste L 2004 American Institute of Physics 85 3977

    [18]

    Liu Y H, Chen M, Liu X D, Cui Q Q, Zhao M W 2013 Acta Phys. Sin. 62 025203 (in Chinese)[刘月华, 陈明, 刘向东, 崔清强, 赵明文 2013 62 025203]

  • [1]

    Alexander D R, Poulain D E, Ahmad M U, Kubik R D, Cespedes E R 1994 IEEE 2 767

    [2]

    Pandhijia S, Rai N K, Rai A K, Thakur S N 2010 Appl Phys. B 98 231

    [3]

    Lu C P, Liu W Q, Zhao N J, Liu L T, Chen D, Zhang Y J, Liu J G 2011 Acta Phys. Sin. 60 045206 (in Chinese)[鲁翠萍, 刘文清, 赵南京, 刘立拓, 陈东, 张玉钧, 刘建国 2011 60 045206]

    [4]

    Dell’ Aglio M, Gaudiuso R, Senesi G S, Giacomo A D, Zaccone C, Miano T M, Pascale O D 2011 Environ Monitor 13 1422

    [5]

    Zheng Z K, Ma X H, Zhao H F, Yu L, Zhang M, Liao Y B 2009 Spectroscopy and Spectral Analysis 29 3383 (in Chinese) [郑泽科, 马晓红, 赵华凤, 于乐, 张敏, 廖延彪 2009 光谱学与光谱 分析 29 3383]

    [6]

    Lu Y, Wu J L, Li Y, Guo J J, Cheng K, Hou H M, Zheng R E 2009 Spectroscopy and Spectral Analysis 29 3121 (in Chinese) [卢渊, 吴江来, 李颖, 郭金家, 程凯, 侯华明, 郑荣儿 2009 光谱学与光谱分析 29 3121]

    [7]

    Li J, Lu J D Lin Z X Gong S S, Xie C L, Chang L, Yang L F, Li P Y 2009 Optics m& Laser Technology 41 907

    [8]

    Zhu D H, Ni X W, Chen J P, Zhang H C 2011 Spectroscopy and Spectral Analysis 31 319 (in Chinese) [朱德华, 倪晓武, 陈建平, 张宏超 2011 光谱学与光谱分析 31 319]

    [9]

    Dario S J, Lidiane C N, Gabriel G A, Marcos D S G, Paulino F D S, Flavio D O L, Luis G C D S, Francisco J K 2012 Spectrochimica Acta Part B Atomic Spectroscopy 71-72 3

    [10]

    Agnes N, Hao Z Q, Liu J, Tao H Y, Gao X, Sun C K, Lin J Q 2012 Chin. Phys. B 21 074204

    [11]

    Braun A, Korn G, Liu X, Du D, Squier J, Mourou G 1995 Opt. Lett. 20 73

    [12]

    Guo K M, Hao Z Q, Lin J Q, Sun C K, Gao X, Zhao Z M 2013 Chin. Phys. B 22 035203

    [13]

    Chin S L, Xu H L, Luo Q, Theberge F, Liu W, Daigle J F, Kamali Y, Simard P T, Bernhardt J, Hosseini S A, Sharifi M, Mejean G, Azarm A, Marceau C, Kosareva O, Kandidov V P, Akozbek N, Becker A, Roy G, Mathieu P, Simard J R, Chateauneuf M, Dubois J 2009 Appl. Phys. B 95 1

    [14]

    Rohwetter P, Yu J, Me’jean G, Stelmaszczyk K, Salmon E, Kasparian J, Wolf J P, Woste L 2004 Anal. At. Spectrom 19 437

    [15]

    Liu W, Xu H L, Méjean G, Kamali Y, Daigle J F, Azarm A, Chin S L 2007 Spectrochimica Acta Part B 62 76

    [16]

    Rohwetter P, Stelmaszczyk K, Woste L, Ackermann R, Mehean G, Salmon E, Kasparian J, Yu J, Wolf J P 2005 Spectrochimica Acta Part B 60 1025

    [17]

    Stelmaszczyk K, Rohwetter P, Mejean G, Yu J, Salmon E, Kasparian J, Ackermann R, Wolf J P, Woste L 2004 American Institute of Physics 85 3977

    [18]

    Liu Y H, Chen M, Liu X D, Cui Q Q, Zhao M W 2013 Acta Phys. Sin. 62 025203 (in Chinese)[刘月华, 陈明, 刘向东, 崔清强, 赵明文 2013 62 025203]

  • [1] 张云, 林爽, 张云峰, 张鹤, 常明莹, 于淼, 王雅秋, 蔡晓明, 姜远飞, 陈安民, 李苏宇, 金明星. 飞秒激光在空气中成丝诱导氮荧光发射的空间分布.  , 2021, 70(13): 134206. doi: 10.7498/aps.70.20201704
    [2] 李帅瑶, 张大源, 高强, 李博, 何勇, 王智化. 基于飞秒激光成丝测量燃烧场温度.  , 2020, 69(23): 234207. doi: 10.7498/aps.69.20200939
    [3] 付丽丽, 常峻巍, 陈佳琪, 张兰芝, 郝作强. 平顶飞秒激光经圆锥透镜在熔融石英中成丝及超连续辐射.  , 2020, 69(4): 044202. doi: 10.7498/aps.69.20191350
    [4] 常峻巍, 朱瑞晗, 张兰芝, 奚婷婷, 郝作强. 整形飞秒激光脉冲的成丝超连续辐射控制.  , 2020, 69(3): 034206. doi: 10.7498/aps.69.20191438
    [5] 李贺, 陈安民, 于丹, 李苏宇, 金明星. 温度对飞秒激光脉冲在NaCl溶液中成丝产生的超连续谱的影响.  , 2018, 67(18): 184206. doi: 10.7498/aps.67.20180686
    [6] 杨大鹏, 李苏宇, 姜远飞, 陈安民, 金明星. 飞秒激光成丝诱导Cu等离子体的温度和电子密度.  , 2017, 66(11): 115201. doi: 10.7498/aps.66.115201
    [7] 朱光正, 郭连波, 郝中骐, 李常茂, 沈萌, 李阔湖, 李祥友, 刘建国, 曾晓雁, 陆永枫. 气雾化辅助激光诱导击穿光谱检测水中的痕量金属元素.  , 2015, 64(2): 024212. doi: 10.7498/aps.64.024212
    [8] 张亚维, 高勋, 张原, 宋超, 林景全. 杨树叶片的飞秒等离子体丝诱导击穿光谱研究.  , 2015, 64(17): 175203. doi: 10.7498/aps.64.175203
    [9] 刘玉峰, 丁艳军, 彭志敏, 黄宇, 杜艳君. 激光诱导击穿空气等离子体时间分辨特性的光谱研究.  , 2014, 63(20): 205205. doi: 10.7498/aps.63.205205
    [10] 陈添兵, 姚明印, 刘木华, 林永增, 黎文兵, 郑美兰, 周华茂. 基于多元定标法的脐橙Pb元素激光诱导击穿光谱定量分析.  , 2014, 63(10): 104213. doi: 10.7498/aps.63.104213
    [11] 王春龙, 刘建国, 赵南京, 马明俊, 王寅, 胡丽, 张大海, 余洋, 孟德硕, 章炜, 刘晶, 张玉钧, 刘文清. 水体重金属激光诱导击穿光谱定量分析方法对比研究.  , 2013, 62(12): 125201. doi: 10.7498/aps.62.125201
    [12] 杜闯, 高勋, 邵妍, 宋晓伟, 赵振明, 郝作强, 林景全. 土壤中重金属元素的双脉冲激光诱导击穿光谱研究.  , 2013, 62(4): 045202. doi: 10.7498/aps.62.045202
    [13] 朱丽丹, 孙方远, 祝捷, 唐大伟. 飞秒激光抽运探测热反射法对金属纳米薄膜超快非平衡传热的研究.  , 2012, 61(13): 134402. doi: 10.7498/aps.61.134402
    [14] 鲁翠萍, 刘文清, 赵南京, 刘立拓, 陈东, 张玉钧, 刘建国. 土壤重金属铬元素的激光诱导击穿光谱定量分析研究.  , 2011, 60(4): 045206. doi: 10.7498/aps.60.045206
    [15] 孙对兄, 苏茂根, 董晨钟, 王向丽, 张大成, 马新文. 基于激光诱导击穿光谱技术的铝合金成分定量分析.  , 2010, 59(7): 4571-4576. doi: 10.7498/aps.59.4571
    [16] 季忠刚, 王占新, 刘建胜, 李儒新. 激光波前相位因子对飞秒脉冲激光成丝动力学的影响.  , 2010, 59(11): 7885-7891. doi: 10.7498/aps.59.7885
    [17] 曹士英, 宋振明, 秦瑀, 王清月, 张志刚. 飞秒激光在不同位置温度梯度的惰性气体中成丝及光谱展宽的差异.  , 2009, 58(6): 3971-3976. doi: 10.7498/aps.58.3971
    [18] 曹士英, 张志刚, 柴 路, 王清月, 杨建军, 朱晓农. 利用空心光纤探测飞秒脉冲在氩气中成丝过程中的光谱演变.  , 2007, 56(5): 2765-2768. doi: 10.7498/aps.56.2765
    [19] 马红萍, 徐时清, 姜中宏. 掺铒重金属氧氟硅铋酸盐玻璃的光谱性质.  , 2004, 53(5): 1378-1383. doi: 10.7498/aps.53.1378
    [20] 李玉同, 张杰, 陈黎明, 赵理曾, 夏江帆, 腾浩, 李英骏, 朱成银, 江文勉. 对飞秒激光等离子体中成丝现象的研究.  , 2001, 50(2): 204-208. doi: 10.7498/aps.50.204
计量
  • 文章访问数:  6769
  • PDF下载量:  681
  • 被引次数: 0
出版历程
  • 收稿日期:  2013-09-28
  • 修回日期:  2013-11-29
  • 刊出日期:  2014-05-05

/

返回文章
返回
Baidu
map