1 |
A. Guerri, F. Costela, A. Figuera, J. M. Florido, F. Sastre, and R. Sastre, Laser Action from Rhodamine 6G-doped Poly(2-hydroxyethyl methacrylate) Matrices with Different Crosslinking Degrees, Chem. Phys. Lett., 209(4), 352(1993).
DOI
|
2 |
S. B. O'Reilly, B. Lettmeier, R. M. Gothe, C. Beinhoff, U. Siebert, and G. Drasch, Mercury as a Serious Health Hazard for Children in Gold Mining Areas, Environmental Research, 107(1), 89(2008).
DOI
|
3 |
N. E. Dziewonsky and K. B. Dtsch, Zur Kenntniss Der Rhodamine, Chem. Ges., 38(3), 3516(1905).
DOI
|
4 |
L. F. Zhang, J. L. Zhao, X. Zeng, L. Mu, X. K. Jiang, M. Deng, J. X. Zhang, and G. Wei, Tuning with pH: The Selectivity of a New Rhodamine B Derivative Chemosensor for and , Sensors and Actuators B, 160(1), 662(2011).
DOI
|
5 |
K. P. Prathish, D. James, J. Jaisy, and T. P. Rao, Dual Optoelectronic Visual Detection and Quantification of Spectroscopically Silent Heavy Metal Toxins: A Multi-measurand Sensing Strategy Based on Rhodamine 6G as Chromo or Fluoro Ionophore, Analytica Chimica Acta, 647(1), 84(2009).
DOI
|
6 |
Y. Ma, X. T. Zhang, Z. S. Guan, Y. A. Cao, and J. N. Yao, Effects of Zinc(II) and Iron(III) Doping of Titania Films on Their Photoreactivity to Decompose Rhodamine B, Journal of Materials Research, 16(10), 2928(2001).
DOI
|
7 |
X. Chen, T. Pradhan, F. Wang, J. S. Kim, and J. Yoon, Fluorescent Chemosensors Based on Spiroring -Opening of Xanthenes and Related Derivatives, Chem. Rev., 112(3), 1910(2012).
DOI
ScienceOn
|
8 |
Y. L. Kun, Y. Liu, Y. Han, and D. Xue, Interaction of Rhodamine B with BaMoO4 Nanoparticles in Different Reverse Micelles, Huaxue Xuebao, 63(1), 18(2005).
|
9 |
H. N. Kim, M. H. Lee, H. J. Kim, J. S. Kim, and J. Yoon, A New Trend in Rhodamine-Based Chemosesnors: Application of Spirolactam Ring-Opening to Sensing Ions, Chem. Soc. Rev., 37, 1465(2008).
DOI
ScienceOn
|
10 |
Y. Xiang, A. Tong, P. Jin, and Y. Ju, New Fluorescent Rhodamine Hydrazone Chemosensor for Cu(II) with High Selectivity and Sensitivity, Org. Lett., 8(13), 2863(2006).
DOI
|
11 |
Z. Zhang, Y. Zheng, W. Hang, X. Yan, and Y. Zhao, Sensitive and Selective Off-on Rhodamine Hydrazide Fluorescent Chemosensor for Hypochlorous Acid Detection and Bioimaging, Talanta, 85(1), 779(2011).
DOI
|
12 |
H. Li, J. Fan, F. Song, H. Zhu, J. Du, S. Sun, and X. Peng, Fluorescent Probes for Detection by Allylidene-Hydrazone Ligands with Excellent Selectivity and Large Fluorescence Enhancement, Chem. Eur. J., 16(41), 12349(2010).
DOI
ScienceOn
|
13 |
T. Kim, K. Jang and S. Jeon, Synthesis of Red Disperse Dyes with Various Diazo Components and Coloration of Unmodified Pure Polypropylene Fibers, Textile Coloration and Finishing(J. Korean Soc. Dyers & Finishers), 22(1), 1(2010).
DOI
|
14 |
E. M. Lee, S. Y. Gwon, B. C. Ji, and S. H. Kim, Thermo- and Acid/Base-induced Spectral Switching of a Poly(N-isopropylacrylamide) Copolymer Containing Benzopyran-based D- -A type Dye Units, Textile Coloration and Finishing(J. Korean Soc. Dyers & Finishers), 22(3), 181(2010).
DOI
|
15 |
J. Wang and X. Qian, A Series of Polyamide Receptor Based PET Fluorescent Sensor Molecules: Positively Cooperative Ion Binding with High Sensitivity, Org. Lett., 8(17), 3721(2006).
DOI
|
16 |
A. D. Boese and N. C. Handy, A New Parametrization of Exchange-Correlation Generalized Gradient Approximation Functionals, J. Chem. Phys., 114(13), 5497(2001).
DOI
ScienceOn
|
17 |
P. M. Carthy, Simplified Experimental Route for Obtaining Job's Curve, Analytical Chemistry, 50(14), 2165(1978).
DOI
|
18 |
B. Delley, An All-Electron Numerical Method for Solving The Local Density Functional for Polyatomic Molecules, J. Chem. Phys., 92(1), 508(1990).
DOI
|
19 |
B. Delley, From Molecules to Solids with the Approach, J. Chem. Phys., 113(18), 7756(2000).
DOI
ScienceOn
|