Paper Titles

Irritable Bowel Syndrome Detection Based on Pulse Signal and Support Vector Machine
p.667

Design of Fractured Zone Height Detection System for Mining
p.671

Design of Long-Distance and High-Accuracy Rail Subgrade Deformation Monitoring System Based on Zigbee Wireless Network
p.676

Detection of Lead Pollution in Rice Using Hyperspectral Data
p.685

Measurement the Content of N-Butyl Pyridine Nitrate in Water by UV-Spectrum
p.689

Performance and Error Analysis for Automatic Measurement Device of Dissolved Oxygen
p.693

Uncertainty Evaluations on the Measurement of “Carbon” in the Research on Karst Carbon Sink Effect - A Case for Dissolved Inorganic Carbon
p.703

A Systematical Study on the Accuracy of Air-Borne InSAR System in DGPS/IMU
p.714

Diagnosis of Oil Spills in Penglai 19-3 Using MODIS Imagery
p.724

HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vols. 303-306Measurement the Content of N-Butyl Pyridine...

Measurement the Content of N-Butyl Pyridine Nitrate in Water by UV-Spectrum

Article Preview

Abstract:

N-butyl Pyridine Nitrate ionic liquid is prepared by the double decomposition reaction of BPC and NaNO₃. The ionic liquid at room temperature used in the experiment has a significant absorption determined by UV spectrum within the range of 200-400nm, the maximum absorption wavelength of BP-NO₃ ionic liquid is 256nm. The standard working curve of BP-NO₃ ionic liquid is y= 0.06848x + 0.04427(R=0.99913). The recovery rate of BP-NO₃ ionic liquid which is between 100.2% and 102.4%, is measured by standard addition method in water.

You might also be interested in these eBooks

Sensors, Measurement and Intelligent Materials

Info:

Periodical:

Applied Mechanics and Materials (Volumes 303-306)

Pages:

689-692

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.303-306.689

Citation:

Cite this paper

Online since:

February 2013

Authors:

Peng Tian, Tao Huang, Tian Ling Qin, Bo Meng, Yang Yang Song, Wen Le Du

Keywords:

Content, N-Butyl Pyridine Nitrate Ionic Liquid, UV-Spectrum

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

© 2013 Trans Tech Publications Ltd. All Rights Reserved

Share:

Citation:

[1] J. Z. Yang, Q. G. Zhang, B. Wang, J. J. Tong, Phys. Chem. Vol, 110 (2006) 22521.

[2] J. Z. Yang, J. Tong, J. B. Li, J. G. Li, J. J. Tong, Colloid Interface Sci. Vol, 313 (2007) 374.

[3] J. G. HUDDLESTON, G. A. BROKER, H. D. WILLAUER, Ionic liquids ACS Symp Ser, Vol, 818 (2002) 270.

[4] M. Deetlefs, K. R. Seddon, M. Shara, Chem. Phys. Vol, 8 (2006) 642.

[5] J. S. Wilkes, J. A. Levisky, R. A. Wilson, C. L. Hussey, Inorg. Chem. Vol, 21 (1982) 1263.

[6] L. Glasser, Thermochim. Acta Vol, 421(2004) 87.

[7] T. A. Knotts, W. V. Wilding, J. L. Oscarson, R. L. Rowley, Chem. Eng. Data Vol, 46 (2001) 1007.

[8] D. H. Zaitsau, G. J. Kabo, A. A. Strechan, Y. U. Paulechka, A. Tschersich, S. P. Verevkin, A. J. Heintz, Phys. Chem. A Vol, 110 (2006) 7303.

DOI: 10.1021/jp060896f

[9] L. P. N. Rebelo, J. N. Canongia, J. M. S. S. Esperanca, E. J. Filipe, Phys. Chem. B Vol, 109 (2005) 6040.

[10] J. Z. Yang, X. M. Lu, J. S. Gui, W. G. Xu, Green Chem. Vol, 6 (2004) 541.

[11] Q. G. Zhang, J. Z. Yang, X. M. Lu, J. S. Gui, M. Huang, FluidPhase Equilib. Vol, 226 (2004) 207.

[12] D. R. McFarlane, J. Sun, J. Golding. Electrochimica Acta., Vol, 45 (2000) 1271.

[13] A. G. FADEEV, M. M. MEAGHER. Chem. Commun , Vol, 3 (2001) 295.

[14] M. FREEMANTLE. Chemical & Engineering News, Vol, 78 (2000) 37.

[15] J. Peng, Y. Deng. Tetrahedron Lett , Vol, 42 (2001) 403.

[16] J. DUPONT, R. F. SOUZA, Z. P. SUARE. A Z Chem Rev, Vol, 102 (2002) 3667.

[17] J. Z. Yang, P. Tian, W. G. Xu, Thermochimica Acta , Vol, 412 (2004) 125.