|
|
|
|
|
|
| Studyon the Spectral Properties of Riboflavin in Different Polar Solvents |
| FANG Zi-qiu1,2, CHEN Guo-qing1,2*, WU Ya-min1,2 |
1. School of Science, Jiangnan University, Wuxi 214122, China
2. Jiangsu Provincial Research Center of Light Industrial Optoelectronic Engineering and Technology, Wuxi 214122, China |
|
|
|
|
Abstract The steady-state absorption and fluorescence spectra and time-resolved fluorescence spectra of riboflavin in water, DMSO and chloroform were measured by British Edinburgh FLS920P spectrometer. It was found that the absorption peaks hardly change in different solvents, and the fluorescence peaks show a significant red shift with the increase of the polarity of solvents, because the charge distribution of the excited state leads to the difference between the absorption and fluorescence spectra. Besides, the fluorescence lifetime of riboflavin in water is also longer than that in the other two solvents, which can be attributed to the hydrogen bond interaction between riboflavin and water. Furthermore, the ground and excited states of riboflavin molecules in different solvents were calculated by using Gaussian 09 software. Through frontier molecular orbital analysis, the stimulated transition of riboflavin is the transition of π electrons on benzene ring and nitrogen heterocycle ring to the antibonding orbital π* of benzene ring and CN, CO conjugated double bond. The results show that the charge distribution of riboflavin increases the dipole moment and the solute-solvent intermolecular interaction, which leads to spectral variation and a red shift in fluorescence spectra. Finally, the effect of H-bond on the spectra of riboflavin was considered by the molecular electrostatic potential and noncovalent interaction analysis. The theoretical absorption and emission peaks of the polymer structure are closer to the experimental results, which shows that the results of the polymer are reasonable. The ring structure formed by water dimer and riboflavin can increase the rigidity of riboflavin molecule, which is beneficial to the fluorescence emission, thus decreasing the probability of non-radiative transition and prolonging the fluorescence lifetime.
|
|
Received: 2019-03-19
Accepted: 2019-07-02
|
|
|
|
Corresponding Authors:
CHEN Guo-qing
E-mail: cgq2098@163.com
|
|
[1] Alam M M, Iqbal S, Naseem I. Archives of Biochemistry and Biophysics, 2015, 584: 10.
[2] Yuan Y, Zhao Y Y, Chen L Q, et al. Nucleic Acids Research, 2017, 45(15): 8676.
[3] Gong Y, Fan Z. Journal of Fluorescence, 2016, 26(2): 385.
[4] Rieff B, Bauer S, Mathias G. The Journal of Physical Chemistry B, 2011, 115(38): 11239.
[5] Zanetti-Polzi L, Aschi M, Daidone I. Chemical Physics Letters, 2017, 669: 119.
[6] Stephens P J, Devlin F J, Chabalowski C F. The Journal of Physical Chemistry, 1994, 98(45): 11623.
[7] Marenich A V, Cramer C J, Truhlar D G. Journal of Physical Chemistry B, 2009, 113(18): 6378.
[8] Lu T, Chen F W. Journal of Computational Chemistry, 2010, 33: 580.
[9] Humphrey W, Dalke A, Schulten K. Journal of Molecular Graphics, 1996, 14(1): 33.
[10] Weigel A, Dobryakov AL, Veiga M, et al. The Journal of Physical Chemistry, 2008, 112(47): 12054.
[11] Klaumünzer B, Kröner D, Saalfrank P. The Journal of Physical Chemistry, 2010, 114(33): 10826.
[12] Lu T, Chen FW. Journal of Molecular Graphics and Modelling, 2012, 38: 314.
[13] Johnson E R, Keinan S,Mori-Sanchez P. Journal of the American Chemical Society, 2010, 132(18): 6498.
[14] Taniguchi T, Nakano K, Baba R. Organic Letters, 2017, 19(2): 404. |
| [1] |
BAI Xi-lin1, 2, PENG Yue1, 2, ZHANG Xue-dong1, 2, GE Jing1, 2*. Ultrafast Dynamics of CdSe/ZnS Quantum Dots and Quantum
Dot-Acceptor Molecular Complexes[J]. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2024, 44(01): 56-61. |
| [2] |
WAN Mei, ZHANG Jia-le, FANG Ji-yuan, LIU Jian-jun, HONG Zhi, DU Yong*. Terahertz Spectroscopy and DFT Calculations of Isonicotinamide-Glutaric Acid-Pyrazinamide Ternary Cocrystal[J]. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2023, 43(12): 3781-3787. |
| [3] |
LI Xiao-dian1, TANG Nian1, ZHANG Man-jun1, SUN Dong-wei1, HE Shu-kai2, WANG Xian-zhong2, 3, ZENG Xiao-zhe2*, WANG Xing-hui2, LIU Xi-ya2. Infrared Spectral Characteristics and Mixing Ratio Detection Method of a New Environmentally Friendly Insulating Gas C5-PFK[J]. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2023, 43(12): 3794-3801. |
| [4] |
ZHANG Yan-dong1, WU Xiao-jing1*, LI Zi-xuan1, CHENG Long-jiu2. Two-Dimensional Infrared Spectroscopic Study of Choline
Chloride/Glycerin Solution Disturbed by Temperature[J]. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2023, 43(10): 3047-3051. |
| [5] |
YU De-guan1, CHEN Xu-lei1, WENG Yue-yue2, LIAO Ying-yi3, WANG Chao-jie4*. Computational Analysis of Structural Characteristics and Spectral
Properties of the Non-Prodrug-Type Third-Generation
Cephalosporins[J]. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2023, 43(10): 3211-3222. |
| [6] |
WANG Yi-ru1, GAO Yang2, 3, WU Yong-gang4*, WANG Bo5*. Study of the Electronic Structure, Spectrum, and Excitation Properties of Sudan Red Ⅲ Molecule Based on the Density Functional Theory[J]. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2023, 43(08): 2426-2436. |
| [7] |
LIU Guo-peng1, YOU Jing-lin1*, WANG Jian1, GONG Xiao-ye1, ZHAO Yu-fan1, ZHANG Qing-li2, WAN Song-ming2. Application of Aerodynamic Levitator Laser Heating Technique: Microstructures of MgTi2O5 Crystal and Melt by in-situ Superhigh Temperature Raman Spectroscopy[J]. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2023, 43(08): 2507-2513. |
| [8] |
YAN Ming-liang1, ZHANG Chen-long2, ZHAO Lian-xiang3, ZHAO Hua-he4, GAO Xun2*. Spectral Characteristics of Ge Plasma Induced by Femtosecond Pulsed Laser Ablation[J]. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2023, 43(07): 2095-2098. |
| [9] |
TANG Yan1, YANG Yun-fan1, HU Jian-bo1, 2, ZHANG Hang2, LIU Yong-gang3*, LIU Qiang-qiang4. Study on the Kinetic Process and Spectral Properties of the Binding of Warfarin to Human Serum Protein[J]. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2023, 43(07): 2099-2104. |
| [10] |
YUAN Kai-xin, ZHUO Jin, ZHANG Qing-hua, LI Ya-guo*. Study on the Spectral and Laser Damage Resistance of CO2 Laser Modified Sol-Gel SiO2 Thin Films[J]. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2023, 43(06): 1752-1759. |
| [11] |
SUN Zhi-shen1, LIU Yong-gang2, 3, ZHANG Xu1, GUO Teng-xiao1*, CAO Shu-ya1*. Study on the Near-Infrared Spectra of Sarin Based on Density
Functional Theory[J]. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2023, 43(06): 1765-1769. |
| [12] |
XIE Huan-ran, CUI Hao, YAN Dong, LI Hui, LIANG Zuo-qin*, WANG Xiao-mei, YE Chang-qing. Synthesis and Piezofluorochromic Properties of a 2-Substituted
Triphenylamine-Anthracene Derivative[J]. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2023, 43(06): 1776-1780. |
| [13] |
LIANG Xiao-rui1, CONG Jing-xian2, LI Yin1, LIU Jie1, JIN Liang-jie1, SUN Xiao-wei1, LI Xiao-dong3. Study on Vibrational Spectra of Cypermethrin Based on Density Functional Theory[J]. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2023, 43(05): 1381-1386. |
| [14] |
CI Cheng-gang*, ZANG Jie-chao, LI Ming-fei*. DFT Study on Spectra of Mn-Carbonyl Molecular Complexes[J]. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2023, 43(05): 1434-1441. |
| [15] |
AN Huan1, YAN Hao-kui2, XIANG Mei1*, Bumaliya Abulimiti1*, ZHENG Jing-yan1. Spectral and Dissociation Characteristics of p-Dibromobenzene Based on External Electric Field[J]. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2023, 43(02): 405-411. |
|
|
|
|
