2022年:  22篇

[92] Zhang, D., Nie, J., Ma, H., Niu, X., Shi, S., Chen, F., Guo, L. and Ji, X. 2022. A plasma image-spectrum fusion correction strategy for improving spectral stability based on radiation model in laser induced breakdown spectroscopy. Analytica Chimica Acta. 1236, (2022), 340552. [文章链接]

[91] Wang, W., LIU, Y., Chu, Y., Xiao, Si., Nie, J., Zhang, J., Qi, J. and Guo, L. 2022. A stable sensing platform for diagnosing electrolyte disturbance using laser-induced breakdown spectroscopy. Biomedical Optics Express. (Nov. 2022). [文章链接]

[90] Ma, H., Shi, S., Zhang, D., Deng, N., Hu, Z., Liu, J. and Guo, L. 2022. Time-Resolved Laser-Induced Breakdown Spectroscopy for Accurate Qualitative and Quantitative Analysis of Brown Rice Flour Adulteration. Foods. 11, 21 (Jan. 2022), 3398.[文章链接]

[89] Chen, Z., Xu, J., Yu, S., Wu, H., Huang, X., Wang, Z., Guo, L., Jiang, W. and Zhang, Y. 2022. Numerical simulations of the effects of radiofrequency cables on the single-frequency capacitively coupled plasma. Physics of Plasmas. 29, 11 (2022), 113507. [文章链接]

[88] Zhou, Y. 2022. Correction of Self-Absorption Effect In Laser-Induced Breakdown Spectroscopy Analysis For Sea Salt Aerosols Using A Duplicating Mirror. Atomic Spectroscopy. 43, 05 (31 2022). [文章链接]

[87] Z. Hu, J. Nie, F. Chen, D. Zhang, Z. Ouyang, Y. Liu, Y. Chu, L. Guo, Quantitative accuracy improvement of laser-induced breakdown spectroscopy by a modified corner-cutting method for continuum background removal, J. Anal. At. Spectrom. 37 (2022) 2573–2580. [文章链接].

[86] S. Li, Z. Hu, Y. Zhou, D. Zhang, W. Wang, Y. Gu, H. Sattar, W. Cheng, L. Guo, The influence of more concentrated energy distribution formed by an aspheric lens with eliminated spherical aberration on laser-induced air breakdown, J. Anal. At. Spectrom. 37 (2022) 2662–2671. [文章链接]

[85] H. Sattar, H. Ran, Z. Hu, F. Guan, M. Imran, L. Guo, W. Luo, H. Ding, Simultaneous analysis of long-pulse laser irradiated plasma-facing materials (PFMs) microstructure and hardness by in-situ laser Opto-ultrasonic dual detection (LOUD), Optics & Laser Technology. 157 (2023) 108741. [文章链接].

[84] Zhu, Yuying; Deng, Nan; Hu, Zhenlin; Wang, Weiliang; Lau, Condon; Liu, Yuanchao; Guo, Lianbo. 2022. Droplet Constraint by Superhydrophobic-Superhydrophilic Hybrid Surface with SiO2 NPs Coating for Determination of Heavy Metals using LIBS. ACS Applied Nano Materials. 5, 12 (2022), 17508-17515. [文章链接].

[83] Ma Shixiang, Guo Lianbo, Dong Daming. 2022. A molecular laser-induced breakdown spectroscopy technique for the detection of nitrogen in water. Journal of Analytical Atomic Spectrometry. 37, 12 (Nov. 2022), 2573–2580. DOI: [文章链接]..

[82] Tang, Y., Peng, X., Hu, Z., Li, J., Hao, Z., Yang, X., Ma, S., Yuan, R. and Guo, L. 2022. Investigation of the self-absorption temporal evolution of alkali and alkaline earth metal elements in soil using laser-induced breakdown spectroscopy. Journal of Analytical Atomic Spectrometry. 37, 7 (Jul. 2022), 1535–1540. [文章链接]

[81] Zhao, Z., Wang, Q., Xu, X., Chen, F., Teng, G., Wei, K., Chen, G., Cai, Y. and Guo, L. 2022. Accurate Identification and Quantification of Chinese Yam Powder Adulteration Using Laser-Induced Breakdown Spectroscopy. Foods. 11, 9 (Jan. 2022), 1216. [文章链接]

[80] 许铖, 李芳, 陈锋, 张登, 邓凡, 郭连波, 钛合金的激光诱导击穿光谱快速分类, 光子学报. 51 (2022) 0430001–11.[文章链接].

[79] Liu Y, Zhou B, Wang W, et al. Insertable, Scabbarded, and Nanoetched Silver Needle Sensor for Hazardous Element Depth Profiling by Laser-Induced Breakdown Spectroscopy[J]. ACS sensors, 2022. [文章链接] (IF= 9.618)

[78] Nie J, Wen X, Niu X, et al. Identification of different colored plastics by laser-induced breakdown spectroscopy combined with neighborhood component analysis and support vector machine[J]. Polymer Testing, 2022: 107624. [文章链接]

[77] Xiujuan Hu, Yuyang Ma, Qing Wan, Kai-Ning Ying, Lu-Nan Dai, Zhenlin Hu, Feng Chen, Feiyu Guan, Chenyin Ni, and LianBo Guo, "Laser ultrasonic improvement and its application in defect detection based on the composite coating method," Appl. Opt. 61, 4145-4152 (2022) [文章链接]

[76] Hu Z, Zhang D, Wang W, et al. A Review of Calibration-Free Laser-Induced Breakdown Spectroscopy[J]. TrAC Trends in Analytical Chemistry, 2022: 116618. [文章链接] (IF=14.908)

[75] Zhang D, Nie J, Niu X, et al. Time-resolved spectral-image laser-induced breakdown spectroscopy for precise qualitative and quantitative analysis of milk powder quality by fully excavating the matrix information[J]. Food Chemistry, 2022: 132763..[文章链接](IF= 9.231)

[74] Deng F, Hu Z, Zhang D, et al. Accuracy improvement of single-sample calibration laser-induced breakdown spectroscopy with self-absorption correction[J]. Optics Express, 2022, 30(6): 9256-9268.[文章链接]

[73] Huang W, Guo L, Kou W, et al. Identification of adulterated milk powder based on convolutional neural network and laser-induced breakdown spectroscopy[J]. Microchemical Journal, 2022: 107190.[文章链接]

[72] Xu Y, Hu Z, Chen F, et al. High spectral stability and quantitative accuracy of LIBS by optimization of combined atomic and ionic line algorithm[J]. Journal of Analytical Atomic Spectrometry, 2022.[文章链接]

[71] Lianbo Guo, Weihua Hunag, Weinan Zheng, Feng Chen, Weiliang Wang, Deng Zhang, Zhenlin Hu, and Yanwu Chu, "Indirect quantitative analysis of soluble solid content in citrus by the leaves using hyperspectral imaging combined with machine learning," Appl. Opt. 61, 491-497 (2022).[文章链接]