Chemistry and Practical Application of Dipyrromethene Ligands, Salts, and Coordination Compounds as Optical Sensors for Analytes of Various Nature (A Review)

Antina E.V., Berezin M.B., V’yugin A.I., Guseva G.B., Bumagina N.A., Antina L.A., Ksenofontov A.A., Nuraneeva E.N., Kalyagin A.A., Bocharov P.S., Lukanov M.M., Krasovskaya Z.S., Kalinkina V.A., Dogadaeva S.A.
Тип документаJournal Article
Дата публикации2022-03-24
Название журналаRussian Journal of Inorganic Chemistry
ИздательPleiades Publishing
Квартиль по SCImagoQ3
Квартиль по Web of ScienceQ3
Импакт-фактор 20211.67
ISSN00360236, 15318613
Inorganic Chemistry
Physical and Theoretical Chemistry
Materials Science (miscellaneous)
Пристатейные ссылки: 93
Цитируется в публикациях: 2
Water-Soluble BODIPY-Based fluorescent probe for BSA and HSA detection
Ksenofontov A.A., Bocharov P.S., Ksenofontova K.V., Antina E.V.
Q1 Journal of Molecular Liquids 2022 цитирований: 4
Open Access
Open access
Effect of polar protic solvents on the photophysical properties of bis(BODIPY) dyes
Antina L.A., Kalyagin A.A., Ksenofontov A.A., Pavelyev R.S., Lodochnikova O.A., Islamov D.R., Antina E.V., Berezin M.B.
Q1 Journal of Molecular Liquids 2021 цитирований: 8
Open Access
Open access
Formation and thermal stability of supramolecular complexes of dibromosubstituted zinc(II) dipyrromethenate with ethanol and N,N – dimethylformamide
Nuraneeva E.N., Guseva G.B., Antina E.V.
Q2 Thermochimica Acta 2021 цитирований: 2
Recent progresses in fluorescent probes for detection of polarity
Xiao H., Li P., Tang B.
Q1 Coordination Chemistry Reviews 2021 цитирований: 54
A New «off-on» Fluorescence Zinc Ion Sensors Based on Iodo- and Bromosubstituted Dipyrromethenes
Nuraneeva E.N., Guseva G.B., Antina E.V.
Q2 Journal of Fluorescence 2021 цитирований: 4
BODIPY-Based Molecules, a Platform for Photonic and Solar Cells
Squeo B.M., Ganzer L., Virgili T., Pasini M.
Q1 Molecules 2020 цитирований: 13
Open Access
Open access
A cyanobiphenyl-based ratiometric fluorescent sensor for highly selective and sensitive detection of Zn2+
Bie F., Cao H., Yan P., Cui H., Shi Y., Ma J., Liu X., Han Y.
Q2 Inorganica Chimica Acta 2020 цитирований: 8
Fluorescent detection of loop diuretics by sensors based on zinc(II) bis(dipyrromethenate)s
Ksenofontov A.A., Lukanov M.M., Antina E.V.
Q1 Dyes and Pigments 2020 цитирований: 2
Recent developments in metal dipyrrin complexes: Design, synthesis, and applications
Shikha Singh R., Prasad Paitandi R., Kumar Gupta R., Shankar Pandey D.
Q1 Coordination Chemistry Reviews 2020 цитирований: 18
The effect of solvent polarity and macromolecular crowding on the viscosity sensitivity of a molecular rotor BODIPY-C10
Polita A., Toliautas S., Žvirblis R., Vyšniauskas A.
Q1 Physical Chemistry Chemical Physics 2020 цитирований: 17
A novel quinolinyl-tetraphenylethene-based fluorescence “turn-on” sensor for Zn2+ with a large Stokes shift and its applications for portable test strips and biological imaging
Xu J., Xiong J., Qin Y., Li Z., Pan C., Huo Y., Zhang H.
Q1 Materials Chemistry Frontiers 2020 цитирований: 10
The influence of alkylation on the photophysical properties of BODIPYs and their labeling in blood plasma proteins
Antina L.A., Ksenofontov A.A., Kalyagin A.A., Bocharov P.S., Kharitonova N.V., Kazak A.V., Antina E.V., Berezin M.B.
Q1 Journal of Molecular Liquids 2020 цитирований: 7
Open Access
Open access
Benzo[d]imidazo[2,1-b]thiazole-based fluorescent sensor for Zn2+ ion detection
Moradi S.E., Molavipordanjani S., Hosseinimehr S.J., Emami S.
Q2 Journal of Photochemistry and Photobiology A: Chemistry 2020 цитирований: 9
Influence of structural factors and medium properties on the fluorescence of alkyl and halogen substituted zinc(II) dipyrromethenates
Nuraneeva E.N., Guseva G.B., Antinа E.V., V'yugin A.I.
Q1 Journal of Molecular Liquids 2020 цитирований: 4
Open Access
Open access
A large-Stokes-shift fluorescent probe for Zn2+ based on AIE, and application in live cell imaging
Yan L., Wen X., Fan Z.
Q1 Analytical and Bioanalytical Chemistry 2020 цитирований: 13
Метрики
Поделиться
Цитировать
ГОСТ |
Цитировать
1. Antina E. V. и др. Chemistry and Practical Application of Dipyrromethene Ligands, Salts, and Coordination Compounds as Optical Sensors for Analytes of Various Nature (A Review) // Russian Journal of Inorganic Chemistry. 2022. Т. 67. № 3. С. 321–337.
RIS |
Цитировать

TY - JOUR

DO - 10.1134/s0036023622030032

UR - http://dx.doi.org/10.1134/S0036023622030032

TI - Chemistry and Practical Application of Dipyrromethene Ligands, Salts, and Coordination Compounds as Optical Sensors for Analytes of Various Nature (A Review)

T2 - Russian Journal of Inorganic Chemistry

AU - Antina, E. V.

AU - Berezin, M. B.

AU - V’yugin, A. I.

AU - Guseva, G. B.

AU - Bumagina, N. A.

AU - Antina, L. A.

AU - Ksenofontov, A. A.

AU - Nuraneeva, E. N.

AU - Kalyagin, A. A.

AU - Bocharov, P. S.

AU - Lukanov, M. M.

AU - Krasovskaya, Z. S.

AU - Kalinkina, V. A.

AU - Dogadaeva, S. A.

PY - 2022

DA - 2022/03

PB - Pleiades Publishing Ltd

SP - 321-337

IS - 3

VL - 67

SN - 0036-0236

SN - 1531-8613

ER -

BibTex |
Цитировать

@article{Antina_2022,

doi = {10.1134/s0036023622030032},

url = {https://doi.org/10.1134%2Fs0036023622030032},

year = 2022,

month = {mar},

publisher = {Pleiades Publishing Ltd},

volume = {67},

number = {3},

pages = {321--337},

author = {E. V. Antina and M. B. Berezin and A. I. V'yugin and G. B. Guseva and N. A. Bumagina and L. A. Antina and A. A. Ksenofontov and E. N. Nuraneeva and A. A. Kalyagin and P. S. Bocharov and M. M. Lukanov and Z. S. Krasovskaya and V. A. Kalinkina and S. A. Dogadaeva},

title = {Chemistry and Practical Application of Dipyrromethene Ligands, Salts, and Coordination Compounds as Optical Sensors for Analytes of Various Nature (A Review)},

journal = {Russian Journal of Inorganic Chemistry}

}

MLA
Цитировать
Antina, E. V., et al. “Chemistry and Practical Application of Dipyrromethene Ligands, Salts, and Coordination Compounds as Optical Sensors for Analytes of Various Nature (A Review).” Russian Journal of Inorganic Chemistry, vol. 67, no. 3, Mar. 2022, pp. 321–37. Crossref, https://doi.org/10.1134/s0036023622030032.