Горячева
Ирина
Юрьевна
2020
1. Shandilya R., Sobolev A.M., Bunkar N., Bhargava A., Goryacheva I.Yu., Mishra P.K. Quantum dot nanoconjugates for immuno-detection of circulating cell-free miRNAs, Talanta, 2020, 208, 120486, https://doi.org/10.1016/j.talanta.2019.120486. Q1
2. Burmistrova N.A., Pidenko P.S., Pidenko S.A., Zacharevich A.M., Skibina Y.S., Beloglazova N.V., Goryacheva I.Yu., Soft glass multi-channel capillaries as a platform for bioimprinting, Talanta 2020, 208, 120445, https://doi.org/10.1016/j.talanta.2019.120445. Q1
3. Speranskaya E.S., Drozd D.D., Pidenko P.S., Goryacheva I.Yu., Enzyme modulation of quantum dot luminescence: application in bioanalysis, TrAC Trends in Analytical Chemistry, 2020, 127, 115897, https://doi.org/10.1016/j.trac.2020.115897. Q1
4. Bhargava A., D.K. Mishra, R. Tiwari, N.K. Lohiya, I.Y. Goryacheva, P.K. Mishra, Immune cell engineering: opportunities in lung cancer therapeutics, Drug Delivery and Translational Research, https://doi.org/10.1007/s13346-020-00719-2. IF 3.11 Q1
5. Goryacheva O.A., Guhrenz C., Schneider K., Beloglazova N.V., Goryacheva I.Yu., De Saeger S., Gaponik N., Silanized luminescent quantum dots for simultaneous multicolour lateral flow immunoassay of two mycotoxins, ACS Appl. Mater. Interfaces, 2020, 12, 22, 24575–24584 https://doi.org/10.1021/acsami.0c05099 Q1
6. Novikova, A.S., Ponomaryova, Т.S. & Goryacheva, I.Y. Fluorescent AgInS/ZnS quantum dots microplate and lateral flow immunoassays for folic acid determination in juice samples. Microchim Acta, 2020, 187, 427 https://doi.org/10.1007/s00604-020-04398-1 Q1
7. Ermakov A.V., Kudryavtseva V.L., Demina P.A., Verkhovskii R.A., Zhang J., Atkin V.S., Sapelkin A.V. , Goryacheva I.Yu. , Sukhorukov G.B. Site-specific release of reactive oxygen species from ordered arrays of microchambers based on polylactic acid and carbon nanodots Journal of Materials Chemistry B 2020, 8, 7977-7986. https://doi.org/10.1039/D0TB01148G. Q1
8. Pidenko P.S., Pidenko S.A., Skibina J.S., Zacharevich A.M., Drozd D.D., Goryacheva I.Yu., Burmistrova N.A. Molecularly imprinted polyaniline for detection of horseradish peroxidase– Analytical and Bioanalytical Chemistry, 2020, 412(24), 6509-6517 Q1
9. Kokorina A.A., Ermakov A.V., Abramova A.M., Goryacheva I.Yu., Sukhorukov G.B. Carbon nanoparticles and materials on their basis, Colloids Interfaces 2020, 4, 42; doi:10.3390/colloids4040042.
10. Bhargava A., Kumari R., Khare S., Shandilya R., Gupta P.K., Tiwari R., Rahman A., Chaudhury K., Goryacheva I.Y., Mishra P.K. Mapping the Mitochondrial Regulation of Epigenetic Modifications in Association With Carcinogenic and Noncarcinogenic Polycyclic Aromatic Hydrocarbon Exposure. International Journal of Toxicology 2020, Vol. 39(5) 465-476 IF 1.205.
11. Abramova A.M., Kokorina A.A., Sindeeva O.A., Jolibois F., Puech P., Sukhorukov G.B., Goryacheva I.Y., Sapelkin A.V. Molecular nature of breakdown of the folic acid under hydrothermal treatment: a combined experimental and DFT study. Sci Rep 10, 19668 (2020). https://doi.org/10.1038/s41598-020-76311-y Q1
12. Bhargava A., Kumari R., Khare S., Shandilya R., Gupta P.K., Tiwari R., Rahman A., Chaudhury K., Goryacheva I.Y., Mishra P.K. Mapping the mitochondrial regulation of epigenetic modifications in association with carcinogenic and noncarcinogenic polycyclic aromatic hydrocarbon exposure. International Journal of Toxicology, 2020, 1091581820932875. https://doi.org/10.1177/1091581820932875. IF 1.255. Q3
2019
1. Beloglazova N., Lenain P., Tessier M., Goryacheva I., Hens Z., De Saeger S., Bioimprinting for multiplex luminescent detection of deoxynivalenol and zearalenone, Talanta 192, 2019, 169-174 Q1 https://doi.org/10.1016/j.talanta.2018.09.042 4.916.
2. Shukla A., Bunkar N., Kumar R., Bhargava A., Tiwari R., Chaudhury K., Goryacheva I.Y., Mishra P.K. Air pollution associated epigenetic modifications: Transgenerational inheritance and underlying molecular mechanisms, Science of The Total Environment, 2019, 656, 760-777, Q1 https://doi.org/10.1016/j.scitotenv.2018.11.381 5.589
3. Goryacheva O.A., Novikova A.S., Drozd D.D., Pidenko P.S., Ponomaryeva T.S., Bakal A.A., Mishra P.K., Beloglazova N.V., Goryacheva I.Y., Water-dispersed luminescent quantum dots for miRNA detection, Trends in Anal. Chem. 111, 2019, 197-205. Q1 https://doi.org/10.1016/j.trac.2018.12.022 8.428
4. Shandilya R., Bhargava A., Bunkar N., Tiwari R., Goryacheva I.Y., Mishra P.K. Nanobiosensors: Point-of-care approaches for cancer diagnostics, Biosens. Bioelectron. 2019, 130, p. 147-165 Q1 https://doi.org/10.1016/j.bios.2019.01.0349.518
5. Vostrikova A.M., Kokorina A.A., Mitrophanova A.N., Sindeeva O.A., Sapelkin A.V., Sukhorukov G.B., Goryacheva I.Y. One step hydrothermal functionalization of gold nanoparticles with folic acid, Colloids and Surfaces B: Biointerfaces, 2019, 181, 533-538. 10.1016/j.colsurfb.2019.05.072 Q1 3.973
6. Bhargava A., Shukla A., Bunkar N., Shandilya R., Kumari R., Lodhi L., Gupta P., Rahman A., Tiwari R., Chaudhury K., Goryacheva I.Y., Mishra P.K., Exposure to ultrafine particulate matter induces NF-κβ mediated epigenetic modifications Environmental Pollution 2019, 252, Part A, 39-50. 5.714 Q1 https://doi.org/10.1016/j.envpol.2019.05.065
7. Drozd D., Zhang H., Goryacheva I.Y., De Saeger S., Beloglazova N.V., Silanization of quantum dots: Challenges and perspectives, Talanta, 2019, 205, 120164. 10.1016/j.talanta.2019.120164 Q1
8. Goryacheva O.A., Vostrikova A.M., Kokorina A.A., Mordovina E.A., Tsyupka D.V., Bakal A.A., Shandilya R., Mishra P.K., Markin A.V., Beloglazova N.V., Goryacheva I.Y., Luminescent carbon nanostructures for microRNA detection, Trends in Analytical Chemistry, 2019, 119, 115613, 10.1016/j.trac.2019.07.024, Q1
9. Kokorina А.А., Sapelkin A.V., Sukhorukov G.B, Goryacheva I.Yu, Luminescent carbon nanoparticles separation and purification Advances in Colloid and Interface Science 2019, 274, 102043 https://doi.org/10.1016/j.cis.2019.102043. Q1
10. Kokorina A.A., Bakal A.A., Shpuntova D.V., Kostritskiy A.Yu., Beloglazova N.V., De Saeger S., Sukhorukov G.B., Sapelkin A.V., Goryacheva I.Yu., Gel electrophoresis separation and origins of light emission in fluorophores prepared from citric acid and ethylenediamine Scientific reports, 2019, 9, 14665. DOI: https://doi.org/10.1038/s41598-019-50922-6. Q1
11. Ermakov A.V., Prikhozhdenko E.S., Demina P.A., Gorbachev I.A., Vostrikova A.M., Sapelkin A.V., Goryacheva I.Y., Sukhorukov G.B. Composite multilayer films based on polyelectrolytes and in situ formed carbon nanostructures with enhanced photoluminescence and conductivity properties, Journal of Applied Polymer Science, 2019, 136, 27, 47718, Q2. https://doi.org/10.1002/app.47718 2.188
12. Rukosueva E.A., Dobrolyubov E.O., Goryacheva I.Yu., Beklemishev M.K. Discrimination of whiskies using an “add-a-fluorophore” fluorescent fingerprinting strategy, Microchemical Journal 145 (2019) 397–405 Q2 https://doi.org/10.1016/j.microc.2018.11.002
13. Sobolev A.M., Byzova N.A., Goryacheva I.Y., Zherdev A.V. Silanized quantum dots as labels in lateral flow test strips for C-reactive protein, Analytical Letters 2019, 52, 12, 1874-1887 Q3 https://doi.org/10.1080/00032719.2019.1574302.
2018
1. Kokorina A.A., Prikhozhdenko E.S., Tarakina N.V., Sapelkin A.V., Sukhorukov G.B., Goryacheva I.Y., Dispersion of optical and structural properties in gel column separated carbon nanoparticles, Carbon 127 (2018) 541-547. Q110.1016/j.carbon.2017.11.039
2. Goryacheva O.A., Mishra P.K., Goryacheva I.Y., Luminescent quantum dots for miRNA detection, Talanta, 179 (2018) 456–465. Q1 10.1016/j.talanta.2017.11.011
3. Bhargava A., Tamrakar S., Aglawe A., Lad H., Srivastava R.K., Mishra D.K., Tiwari R., Chaudhury K., Goryacheva I.Y., Mishra P.K., Ultrafine particulate matter impairs mitochondrial redox homeostasis and activates phosphatidylinositol 3-kinase mediated DNA damage responses in lymphocytes, Environmental Pollution 234 (2018) 406-419 Q1 10.1016/j.envpol.2017.11.093
4. Anfossi L., Di Nardo F., Cavalera S., Giovannoli C., Spano G., Speranskaya E.S., I.Y. Goryacheva,
Baggiani C., A lateral flow immunoassay for straightforward determination of fumonisin mycotoxins based
on the quenching of the fluorescence of CdSe/ZnS quantum dots by gold and silver nanoparticles,
Microchimica Acta (2018) 185: 94. 10.1007/s00604-017-2642-0
5. Volkova E.K., Yanina I.Yu, Genina E.A., Bashkatov A.N., Konyukhova J.G., Popov A.P., Speranskaya E.S., Bucharskaya A.B., Navolokin N.A., Goryacheva I.Yu., Kochubey V.I., Sukhorukov G.B., Meglinski I.V., Tuchin V.V., Delivery and reveal of localization of upconversion luminescent microparticles and quantum dots in the skin in vivo by fractional laser microablation, multimodal imaging, and optical clearing Journal of Biomedical Optics. 23(2), 026001 (2018), doi: 10.1117/1.JBO.23.2.026001. Q1
6. Raevskaya A., Rozovik O., Novikova A., Selyshchev O., Stroyuk O., Dzhagan V., Goryacheva I., Gaponik N., Zahn D.R.T., Eychmuller A. Luminescence and Photoelectrochemical Properties of Size-Selected Aqueous Copper-Doped Ag-In-S Quantum Dots, RSC Advances, 2018, 8, 7550-7557. Q1
10.1039/C8RA00257F
7. Markina N.E., Goryacheva I. Yu., Markin A.V. Sample pretreatment and SERS-based quantification of ceftriaxone in urine, Analytical Bioanalytical Chemistry (2018) 410, 8, 2221–2227. Q1 10.1007/s00216-018-0888-y
8. Pidenko S.A., Burmistrova N.A., Shuvalov A.A., Chibrova A.A., Skibina Y.S., Goryacheva I.Y., Microstructured optical fiber-based luminescent biosensing: Is there any light at the end of the tunnel? - A review. Analytica Chimica Acta. 2018, 1079, 14-24. Q1 10.1016/j.aca.2017.12.010
9. Vostrikova A.V., Prikhozhdenko E., Mayorova O., Goryacheva I.Y., Tarakina N., Sukhorukov G.B., Sapelkin A.V. Thermal carbonisation in nanoscale reactors: controlled formation of carbon nanodots inside porous CaCO3microparticles. Scientific reports 2018, 8:9394 | DOI:10.1038/s41598-018-27488-w Q1
10. Pidenko P., Zhang H., Lenain P., Goryacheva I., De Saeger S., Beloglazova N., Imprinted proteins as a receptor for detection of zearalenone, Analytica Chimica Acta, 1040, 2018, 99-104 Q1
11. Vostrikova A.M., Kokorina A.A., Demina P.A., German S.V., Novoselova M.V., Tarakina N.V., Sukhorukov G.B., Goryacheva I.Yu. Fabrication and photoluminescent properties of Tb3+ doped carbon nanodots Scientific Reports, 8, Article number: 16301 (2018) Q1 10.1038/s41598-018-34683-2
12. Sindeeva O.A., Prikhozhdenko E.S., Bratashov D.N., Vostrikova A.M., Atkin V.S., Ermakov A.V., Khlebtsov B.N., Sapelkin A.V., Goryacheva I.Yu., Sukhorukov G.B., Carbon dot aggregates as an alternative to gold nanoparticles for the laser-induced opening of microchamber arrays, Soft Matter, 2018, 14, 9012 - 9019 DOI: 10.1039/C8SM01714J Q1
13. Beloglazova N.V., Lenain P., De Rycke E., Goryacheva I.Y., Knopp D., De Saeger S., Capacitive sensor for detection of benzo(a)pyrene in water, Talanta, 2018, 190, 219-225 Q1 10.1016/j.talanta.2018.07.084
14. Singh R.D., Kumar R., Bhargava A., Shandilya R., Tiwari R., Chaudhury K., Goryacheva I.Y., Srivastava R.K., Mishra P.K. Quantum dot based nano-biosensors for detection of circulating cell free miRNAs in lung carcinogenesis: from biology to clinical translation, Front Genet, 2018, 9, 616. Q1
15. Prikhozhdenko E.S., Bratashov D.N., Mitrofanova D.N., Sapelkin A.V., Yashchenok A.M., Sukhorukov G.B., Goryacheva I.Yu. Solvothermal synthesis of hydrophobic carbon dots in reversed micelles, J Nanopart Res (2018) 20: 234. https://doi.org/10.1007/s11051-018-4336-x Q2
16. Bratashov D.N., Burmistrova N.A., Bondarenko S.D., Khlebtsov B.N., Atkin V.S., Shuvalov A.A., Zanishevskaya A.A., Skibina Y.S., Goryacheva I.Y. Microstructured waveguides with polyelectrolyte-stabilized gold nanostars for SERS sensing of dissolved analytes, Materials 2018, 11, 734; doi:10.3390/ma11050734. Q2
17. Bhargava A., Bunkar N., Aglawe A., Pandey K.C., Tiwari R., Chaudhury K., Goryacheva I.Y., Mishra P.K. Epigenetic biomarkers for risk assessment of particulate matter associated lung cancer, Current Drug Targets, 2018, 19, 10, 1127 – 1147 Q2
18. Markina N.E., Markin A.V., Zakharevich A.M., Skibina Y.S., Goryacheva I.Yu., Modified multicapillary glass structure for SERS application, Journal of Physics: Conf. Series 1124, (2018) 081018. Q3
2017
- Goryacheva O.A., Beloglazova N.V., Vostrikova A.M., Pozharov M.V., Sobolev A.M., Goryacheva I.Yu. Lanthanide-to-quantum dot Förster resonance energy transfer (FRET): Application for immunoassay Talanta 2017, 164, 377–385. Q1
- Markin A.V., Markina N.E., Goryacheva I.Yu., Raman spectroscopy based analysis inside photonic-crystal fibers, Trends in Anal. Chem. 2017, 88, 185–197. Q1
- Beloglazova N.V., Sobolev A.M., Tessier M.D., Hens Z., Goryacheva I.Y., De Saeger S., Fluorescently labelled multiplex lateral flow immunoassay based on cadmium-free quantum dots. Methods, 2017, 116, 141–148.
- Goryacheva I.Y., Sapelkin A.V., Sukhorukov G.B. Carbon nanodots: mechanisms of photoluminescence and principles of application. Trends in Analytical Chemistry, 2017, 80, 27–37. Q1
- Chibrova A., Shuvalov A., Skibina Y., Pidenko P., Pidenko S., Burmistrova N., Goryacheva I. The Red Shift of the Semiconductor Quantum Dots Luminescence Maximum in the Hollow Core Photonic Crystal Fibers, Optical Materials 2017, 73C, 423-427. Q1
- Markina N.E., Markin A.V., Zakharevich A.M., Goryacheva I.Yu., Calcium carbonate microparticles with embedded silver and magnetite nanoparticles as new SERS-active sorbent for solid phase extraction, Microchim Acta 2017, 184, 10, p 3937–3944
- Кокорина А.А., Прихожденко Е.С., Сухоруков Г.Б., Сапелкин А.В., Горячева И.Ю. Люминесцентные углеродные наночастицы: способы получения, методы исследования, области применения, Успехи химии 2017, 86, 11, 1157-1171. A A Kokorina, E S Prikhozhdenko, G B Sukhorukov, A V Sapelkin, I Yu Goryacheva, "Luminescent carbon nanoparticles: synthesis, study, applications", RUSS CHEM REV, 2017, 86 (11), 1157–1171 DOI: https://doi.org/10.1070/RCR4751 Q1
- Белоглазова Н.В., Шмелин П.С., Новикова А.С., Горячева И.Ю. Иммунохимический люминесцентный тест-метод определения бензо[a]пирена в природных водах, Журнал аналитической химии, 2017, Vol. 72, No. 6, pp. 510–514. Beloglazova N.V., Shmelin P.S., Novikova A.S., Goryacheva I.Y. Immunochemical luminescence rapid test for benzo[a]pyrene detection in environmental water. J. Anal. Chem. (Rus) 2017, Vol. 72, No. 6, pp. 597–601. Q3
2016
- Goryacheva I.Y. Rapid Immunotests for Clinical, Food and Environmental Applications, 2016, Elsevier, 222 p. ISBN 9780444635747
- Goftman V.V., Aubert T., Van Deun R., Beloglazova N.V., Hens Z., De Saeger S., Goryacheva I.Y., Synthesis, modification, bioconjugation of silica coated fluorescent quantum dots and their application for mycotoxin detection, Biosens. Bioelectron., 2016, 79, 476–481. Q1
- Monakhova Yu.B., Goryacheva I.Yu. Chemometric analysis of luminescent quantum dots systems: Long way to go but first steps taken, Trends in Anal. Chem. 2016, 82, 164–174. Q1
- Foubert A., Beloglazova N.V., Rajkovic A., Sas B., Madder A., Goryacheva I.Yu. , De Saeger S., Bioconjugation of quantum dots: Review & impact on future application, Trends in Anal. Chem., 2016, 83, 31-48. Q1
- Speranskaya E.S., Sevrin C., De Saeger S., Hens Z., Goryacheva I.Yu., Grandfils C., Synthesis of hydrophilic CuInS2/ZnS quantum dots with different polymeric shells and study of their cytotoxicity and hemocompatibility, ACS Applied Materials & Interfaces 2016, 8 (12), pp 7613–7622. Q1
- Di Nardo F., Anfossi L., Giovannoli C., Passini C., Goftman V.V., Goryacheva I.Y., Baggiani C., A fluorescent immunochromatographic strip test using quantum dots for fumonisins detection, Talanta, 2016, 150, 463–468. Q1
- Beloglazova, N.V., Foubert, A., Gordienko, A., Tessier, M.D., Aubert, T., Drijvers, E., Goryacheva, I., Hens, Z., De Saeger, S., Sensitive QD@SiO2-based immunoassay for triplex determination of cereal-borne mycotoxins, Talanta,2016, 160, 66-71. Q1
- Goftman V.V., Pankratov V.A., Markin A.V., Ginste D.V., De Saeger S., Goryacheva I.Y., Hydrophilic quantum dots stability against an external low-strength electric field, Applied Surface Science, 2016, 363, 259–263. Q1
- Zharkova I.S., Markina N.E., Markin A.V., Drozd D.D., Speranskaya E.S., Goryacheva I.Yu., Influence of electric field on the properties of the polymer stabilized luminescent quantum dots in aqueous solutions, J. Luminescence, 2016, 176, Pages 65–70. Q2
- Potapkin D.V., Geißler D., Resch-Genger U., Goryacheva I.Yu., Fluorescent quantum dot hydrophylization with pamam dendrimer, J. Nanoparticle research, 2016, 18, 108. Q2
- Pidenko S.A., Burmistrova N.A., Pidenko P.S., Shuvalov A.A., Chibrova A.A., Skibina Y.S., Goryacheva I.Y., Controlled chemical modification of the internal surface of photonic crystal fibers for application as biosensitive elements, Optical Materials, 2016, 60, 283-289. Q1
- Markina N.E., Markin A.V., Zakharevich A.M., Gorin D.A., Rusanova T.Yu., Goryacheva I.Yu. Multifunctional silver nanoparticle-doped silica for solid-phase extraction and surface-enhanced Raman scattering detection, J Nanopart Res (2016) 18:353. Q2
- Gorbachev I.A., Goryacheva I.Yu., Glukhovskoy E.G., Investigation of Multilayers Structures Based on the Langmuir-Blodgett Films of CdSe/ZnS Quantum Dots, BioNanoScience, 2016, 6, 2, 153-156.
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- Beloglazova N.V., Goryacheva O.A., Speranskaya E.S., Aubert T., Goryacheva I.Y., De Saeger S., Silica-coated liposomes loaded with quantum dots as labels for multiplex fluorescent immunoassay. Talanta 2015, V 134, P. 120-125.
- Goryacheva I.Yu., Speranskaya E.S., Goftman V.V., Tang D., De Saeger S. Synthesis and bioanalytical applications of nanostructures multiloaded with quantum dots. Trends in Analytical Chemistry 2015, V. 66, pp. 53–62.
- Beloglazova N.V., Goryacheva I.Yu., Shmelin P.S., Kurbangaleev V., De Saeger S. Preparation and characterization of stable phospholipids-silica nanostructures loaded with quantum dots // Journal of Materials Chemistry B 2015, 3, 180-183.
- Speranskaya E.S., Beloglazova N.V., Lenain P., De Saeger S., Wang Z., Zhang S., Hens Z., Knopp D., Potapkin D.V., Goryacheva I.Y. Polymer-coated fluorescent CdSe-based quantum dots for application in immunoassay. Biosensors and Bioelectronics, 2014, V. 53, P. 225-231.
- Beloglazova N.V., Speranskaya E.S., Wu A., Wang Z., Sanders M., Goftman V., Zhang D. Goryacheva I.Yu., De Saeger S. Novel multiplex fluorescent immunoassays based on quantum dot nanolabels for mycotoxins determination. Biosensors and Bioelectronics 2014, V. 62, P. 59–65.
- Speranskaya E.S., Beloglazova N.V., Abé S., Aubert T., Smet P., Poelman D., Goryacheva I.Yu., De Saeger S., Hens Z. Environment-friendly CuInS2/ZnS quantum dots: hydrophilization with a PEG-containing polymer and application as fluorescent label in immunoassay Langmuir, 2014, V 30 (25), P. 7567–7575.
- Anfossi L., Calza P., Sordello F., Giovannoli C., Di Nardo F., Passini C., Cerruti M., Goryacheva I.Yu., Speranskaya E.S., Baggiani C. Multi-analyte homogenous immunoassay based on quenching of quantum dots by functionalized grapheme, Anal. Bioanal. Chem. 2014, V. 406, N 20, P. 4841-4849.
- Burmistrova N.A., Rusanova T.Yu., Yurasov N.A., Goryacheva I.Yu., De Saeger S. Multi-detection of mycotoxins by membrane based flow-through immunoassay, Food control, 2014, V. 46, P. 462–469.
- Goryacheva I.Yu., Lenain P., De Saeger S. Nanosized labels for rapid immunotests: new trends and developments. Trends in Anal. Chem. 2013, 46, p. 30-46.
- Beloglazova N.V., Shmelin P.S., Speranskaya E.S., Lucas B., Helmbrecht C., Knopp D., Niessner R., De Saeger S., Goryacheva I.Yu. Quantum dot loaded liposomes as new luminescent labels for immunoassay Anal. Chem. 2013, 85 (15), 7197−7204.
- Zhang B., Tang D., Goryacheva I.Yu., Niessner R., Knopp D. Anodic stripping voltammetric immunoassay for ultrasensitive detection of low-abundance-proteins using quantum dots-aggregated hollow microspheres. Chemistry – A European Journal. 2013. V. 19. 7. P. 2496–2503.
- Beloglazova N.V., De Boevre M., Goryacheva I.Yu., Werbrouck S., Guo Y., De Saeger S. Immunochemical approach for zearalenone-4-glucoside determination. Talanta, 2013, V 106, P. 422-430
- Beloglazova N.V., Shmelin P.S., Goryacheva I.Yu., De Saeger S. Liposomes loaded with quantum dots for ultrasensitive on-site determination of aflatoxin M1 in milk products Аnal. Вioanal. Сhem. 2013, 405, 24, 7795-7802.
- Malysheva S.V., Diana Di Mavungu J., Goryacheva I.Y., De Saeger S. A systematic assessment of the variability of matrix effects in LC-MS/MS analysis of ergot alkaloids in cereals and evaluation of method robustness. Аnal. Вioanal. Сhem. 2013 Vol. 405 N 16 P. 5595-5604.
- Malysheva S.V., Diana Di Mavungu J., Schoeters E., Goryacheva I.Y., De Saeger S. Rapid and sensitive LC-MS/MS method for the determination of ergot alkaloids in buffered solutions: Application to in vitro testing of mycotoxin sequestering agents. World Mycotoxin Journal 2013, Vol 6, N 2, P. 105-115.
- Njumbe Ediage E., Diana Di Mavungu J., Goryacheva I.Y., Van Peteghem C., De Saeger S. Multiplex flow-through immunoassay formats for screening of mycotoxins in a variety of food matrices. Anal. Bioanal. Chem. 2012, 403 265–278
- Beloglazova N.V., Speranskaya E.S., De Saeger S., Hens Z., Abé S., Goryacheva I.Yu. Quantum dot based rapid tests for zearalenone detection. Anal. Bioanal. Chem. 2012. V. 403. N. 10. Page 3013-3024.
- Goryacheva I.Yu., De Saeger S. Immunochemical methods for masked mycotoxins. Review. World Mycotoxin Journal. 2012. V 5. N 3. P. 281-287.
- Yuan M., Sheng W., Zhang Y., Wang J., Yang Y., Zhang S., Goryacheva I.Yu., Wang S. A gel-based visual immunoassay for non-instrumental detection of chloramphenicol in food samples. Anal. Chim. Acta, 2012. V. 751, N 1, P. 128-134.
- Goftman V.V., Beloglazova N.V., Njumbe Ediage E., De Saeger S., Dietrich R., Märtlbauer E., Goryacheva I.Yu. Tests for qualitative and quantitative determination of T-2 and HT-2 toxins. Anal. Methods. 2012, 4, 12, 4224-4229.
- Malysheva S.V., Diana Di Mavungu J., Boonen J., De Spiegeleer B., Goryacheva I.Y, Vanhaecke L., De Saeger S. Improved positive electrospray ionization of patulin by adduct formation: Usefulness in liquid chromatography - tandem mass spectrometry multi-mycotoxin analysis. J. Chromatogr. A, 2012, V. 1270, 334-339.
- Грант Научной полиции Бельгии 2005-2006 гг. Strategy for analysis of ochratoxin A in spices.
- NATO-RUSSIA COLLABORATIVE LINKAGE GRANT (NRCLG) 2007-2008. New strategy for biodetection of explosive nitro-chemicals in environmental samples. CBP.NR.CLG.982651. NATO coordinator Prof. De Meulenaer B., Russian coordinator - Prof. Goryacheva I.Yu.
- Совместный грант ДААД (Немецкое общество академических обменов) и Министерства образования РФ, программа Ломоносов-2008. A/07/71207 Разработка иммунохимического тест-метода для неинструментального определения токсикантов
- Совместный грант ДААД (Немецкое общество академических обменов) и Министерства образования РФ, программа Ломоносов-2009. A/08/72753 Разработка новых иммунохимических подходов для определения низких концентраций токсикантов
- Грант ДААД (Немецкое общество академических обменов) А/10/01066 Application of nano-particle based labels for immunoassay
- "Novel approaches for screening of masked mycotoxins" 2010-2013 University Gent, Belgium. UGhent coordinator Prof. De Saeger S., Russian coordinator - Prof. Goryacheva I.Yu. BOF bilateraal project Rusland 01SB3210, B/10997/02
- Грант РФФИ Комплекс иммунохимических методов для детектирования токсикантов в продуктах питания и объектах окружающей среды 10-03-91168-ГФЕН_а 2010 – 2011.
- Грант РФФИ Разработка биосовместимых наноструктурированных элементов для иммуносенсоров и тест-систем на микотоксины 11-03-93963 ЮАР_а 2011-2012
- Chinese ministure of science and education “Development of the complex of immunochemical methods for the detection of toxic chemicals in food and environmental samples” 2012-2013 Russian coordinator - Prof. Goryacheva I.Yu. Chinese coordinator – Prof. Shou Wang.
- Грант РФФИ Иммунохимические тест-методы на основе наноразмерных меток для определения биотоксикантов в продуктах питания и объектах окружающей среды 12-03-91167-ГФЕН_а. 2012 - 2013.
- Грант РНФ 14-13-00229 Разработка безреагентных систем для клинической диагностики на основе фотонно-кристаллических волноводов, включающих флуоресцентные квантовые точки и платформы гигантского комбинационного рассеяния Development of reagent-free systems for clinical diagnosis based on photonic crystal fibers, including fluorescent quantum dots and SERS platforms. 2014-2016.
- Грант МОН 4.1708.2014/K Люминесцентные полупроводниковые наночастицы (квантовые точки) в качестве зондов микроокружения 2014-2016.
- ФЦП 14.574.21.0128. Разработка высокочувствительных биосенсорных систем для осуществления эффективного оперативного контроля выбросов промышленных предприятий в водные среды 2014 – 2016.
- Горячева И.Ю., Сперанская Е.С. Состав для повышения стабильности водного раствора квантовых точек, покрытых меркаптокислотой. Патент на изобретение № 2484116 Дата приоритета 09.06.2011.
- Гребенников Е.П., Белоглазова Н.В., Горячева И.Ю., Курбангалеев В.Р., Сперанская Е.С., Шмелин П.С. Способ определения уровня токсикантов в воде, продуктах питания или физиологических жидкостях и тест-система Патент на изобретение № 2506586. Дата приоритета 01.10.2012
- Способ выделения и очистки квантовых точек, заключенных в оболочки оксида кремния Горячева И.Ю., Гофтман В.В., Сперанская Е.С., Сухоруков Г.Б. Патент на изобретение № 2570830. Дата приоритета 17.04.2014.
- Грант МОН 4.1063.2017/ПЧ Трансформации энергии возбуждения в люминесцентных наносистемах как фундаментальная основа создания нового поколения многофункциональных наносенсоров. 2017-2019.
- Грант РФФИ 17-53-49002 «Разработка наносенсора на основе люминесцентных квантовых точек для детектирования циркулирующих микро-РНК при диагностике рака легких» 2017-2019.
- РНФ 14-13-00229 2014-2016, 2017-1028 «Разработка безреагентных систем для клинической диагностики на основе фотонно-кристаллических волноводов, включающих флуоресцентные квантовые точки и платформы гигантского комбинационного рассеяния»
- Грант Министерства образования и науки 4.1063.2017/ПЧ «Трансформации энергии возбуждения в люминесцентных наносистемах как фундаментальная основа создания нового поколения многофункциональных наносенсоров» 2017-2019
- Грант РФФИ (международный) 17-53-49002 (РФФИ-Индия) «Разработка наносенсора на основе люминесцентных квантовых точек для детектирования циркулирующих микро-РНК при диагностике рака легких» 2017-2019
- Грант РФФИ 19-32-90126 Модификация фотонно кристаллических волноводов полимерным и фотолюминесцентным покрытием на основе квантовых точек 2019 – 2021
- Грант РФФИ 19-33-90159 Разработка высокочувствительных методов экспрессного определения маркеров воспаления на основе многофункциональных люминесцентных и плазмонных наноструктур 2019 – 2021
- Грант РНФ 20-13-00195 «Разработка высокочувствительных аналитических систем на основе люминесцентных и гибридных наночастиц для экспрессного определения кардиомаркеров в крови» 2020-2022
- Грант Министерства образования и науки FSRR-2020-0002 «Многофункциональные наноразмерные и наноструктурированные системы для аналитической химии и тераностики» 2020-2022
Научные стажировки и сотрудничество
- Laboratory of Food Analysis, Faculty of Pharmaceutical Sciences, Ghent University, Belgium (2005-2006). 2007 – till now Several months per year Prof. Sarah De Saeger
- Chair for Analytical Chemistry, Institute of Hydrochemistry and Chemical Balneology, Technische Universitat Munchen, Germany (2008, 2 months; 2009, 2 months; 2011, 1 month). Prof. Dietmar Knopp
- Department of Analytical Chemistry, Faculty of Sciences, University of Cordoba, Spain (2005, 3 months). Prof. Dolores Perez-Bendito
- Institute for Hygiene and Technology of Food of Animal Origin, Ludwig-Maximilians University, Oberschleißheim, Germany. Prof. Erwin Märtlbauer
- Key Laboratory of Analysis and Detection for Food Safety of Ministry of Education, College of Chemistry and Chemical Engineering, Fuzhou University, Fuzhou, China, Prof. Dianping Tang
- Tianjin University of Science & Technology, Prof. Shuo Wang
- Ghent University, Ghent, Belgium
- Fuzhou University, Fuzhou, China
- National Institute for Research in Environmental Health (NIREH), Bhopal, India
- Technical University, Dresden, Germany
- University of Turin, Turin, Italy
Руководитель научных проектов:
1. Грант РНФ 14-13-00229 Разработка безреагентных систем для клинической диагностики на основе фотонно-кристаллических волноводов, включающих флуоресцентные квантовые точки и платформы гигантского комбинационного рассеяния Development of reagent-free systems for clinical diagnosis based on photonic crystal fibers, including fluorescent quantum dots and SERS platforms. 2014-2016.
2. Грант МОН 4.1708.2014/K Люминесцентные полупроводниковые наночастицы (квантовые точки) в качестве зондов микроокружения 2014-2016.
3. ФЦП 14.574.21.0128. Разработка высокочувствительных биосенсорных систем для осуществления эффективного оперативного контроля выбросов промышленных предприятий в водные среды 2014 – 2016.