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Научни приноси на д-р Гергана Радулова

Author ID (SCOPUS):55062218900
Научен проект
1 Гергана Радулова, "Sulfonated methyl esters in home and personal care applications", "Свойства на сърфактанти и емулсии получени от природни продукти", Член, KLK Malaysia 2024
2 Гергана Радулова, "Clean Future biodegradable encap suspension systems for HC formats' Изследване и моделиране на икономични биоразградими суспендиращи системи", Член, Unilever, UK 2023
3 Гергана Радулова, "Механизми на омокряне и миещо действие на нано-хетерогенни мицеларни фази - роля на летливите компоненти и на повърхността", Член, ФНИ, МОН 2023
4 Гергана Радулова, „Изследвания върху физико-химичните механизми на взаимодействията и стабилността във формулировки с измиващо и почистващо действие, с цел оптимизация на тяхната ефективност”, Член, S.C.Johnson & Son, Inc, САЩ 2021
5 Гергана Радулова, Оптимизиране на формулировки за професионално почистване, Член, "Доверие - грижа" ЕАД 2021
6 Гергана Радулова, "Разработване на пасти за зъби на не-водна основа" , "Engineering of anhydrous toothpaste chassis" , Член, Unilever, Англия, Номер на договора:3400 2020
7 Гергана Радулова, Изследване на гигантски мицеларни структури в смесени разтвори на сърфактанти, техните взаимодействия и реологични свойства, Член, МОН 2020
8 Гергана Радулова, "Свойства на сърфактанти и емулсии получени от природни продукти", Sulfonated methyl esters in home and personal care applications, Член, KLK OLEO, Малайзия, Номер на договора:3372 2019
9 Гергана Радулова, „Разработване на теоретични модели“, Theoretical model training for CAFE4DM, Член, Unilever, Англия, Номер на договора:3364 2019
10 Гергана Радулова, Разработване на модел за предсказване свойствата на течности за почистване, "Predictive modelling of HHC chassis", Член, Unilever, Холандия, Номер на договора:3282 2018
11 Гергана Радулова, „Изследване на ефекта от отлагане на частици и молекули при миещи препарати“, "To get a deeper understanding of the interaction among complex systems including surfactant, polymer, particle or small molecule during the different dilution stages from the formulation to substrate surface, and using that understanding to develop design rules for deposition efficacy", Член, Unilever, Китай, Номер на договора:3188 2016
12 Гергана Радулова, Разработване на нови видове мултифункционални микро- и нанокапсули със специфичен химичен състав и морфолофия, и оптимизация на техните свойства., Член, МОН, Номер на договора:2773 2016
13 Гергана Радулова, Комплексна реология на суспензии, подсилена от капилярни мостове, “Complex rheology of suspensions enhanced by capillary bridging”, Член, Unilever,Холандия, Номер на договора:3092 2013
Статия в научно списание
1 T.G. Slavova, G.M. Radulova, K.D. Danov, Saturated Micellar Networks: Phase Separation and Nanoemulsification Capacity, Colloids and Interfaces, vol:8, 2024, pages:11-0, ISSN (print):25045377, doi:10.3390/colloids8010011, Ref, IR , SCOPUS, SJR (0.457 - 2022), SCOPUS Quartile: Q3 (2024), PhD 2024
2 K. Danov, G. Radulova, M. Georgiev, P. Kralchevsky, Growth of Giant Micellar Aggregates: Quantitative Theory vs Experiments, J. Technical Univ. Gabrovo, vol:66, 2023, pages:24-28 2023
3 K. D. Danov, K. G. Marinova, G. M. Radulova, M. T. Georgiev, Analytical Modeling of Micelle Growth. 5. Molecular Thermodynamics of Micelles From Zwitterionic Surfactants, J. Colloid Interface Sci., vol:627, 2022, pages:469-482, ISSN (print):0021-9797, ISSN (online):1095-7103, doi:10.1016/j.jcis.2022.07.087, Ref, IR , SCOPUS, SJR (1.4 - 2021), SCOPUS Quartile: Q1 (2022) 2022
4 T.N. Stancheva, M.T. Georgiev, G.M. Radulova, K.D. Danov, K.G. Marinova, Rheology of Saturated Micellar Networks: Wormlike Micellar Solutions vs. Bicontinuous Micellar Phases, Colloids Surf. A, vol:625, 2022, pages:129927-0, ISSN (print):0927-7757, ISSN (online):1873-4359, doi:10.1016/j.colsurfa.2022.129927, Ref, IR , SCOPUS, SJR (0.76 - 2021), SCOPUS Quartile: Q2 (2022) 2022
5 T.G. Slavova, G.M. Radulova, P.A. Kralchevsky, K.D. Danov, Encapsulation of fragrances and oils by core-shell structures from silica nanoparticles, surfactant and polymer: Effect of particle size, Colloids and Surfaces A, Phys. Chem. Eng. Asp., 2020, pages:125558-0, doi:10.1016/j.colsurfa.2020.125558, Ref, Web of Science, IF (3.99 - 2019), Web of Science Quartile: Q1 (2020), SCOPUS, SJR (0.78 - 2019), SCOPUS Quartile: Q1 (2020), MSc 2020
6 V.I. Yavrukova, G.M. Radulova, K.D. Danov, P.A. Kralchevsky, H. Xu, Y.W. Ung, J.T. Petkov, Rheology of mixed solutions of sulfonated methyl esters and betaine in relation to the growth of giant micelles and shampoo applications, Adv. Colloid Interface Sci., vol:275, 2020, pages:1-18, doi:10.1016/j.cis.2019.102062, Ref, Web of Science, IF (8.243 - 2018), Web of Science Quartile: Q1 (2020), SCOPUS, SJR (1.787 - 2018), SCOPUS Quartile: Q1 (2020), International, PhD 2020
7 E.S. Basheva, K.D. Danov, G.M. Radulova, P.A. Kralchevsky, H. Xu, Y.W. Ung, J.T. Petkov, Properties of the micelles of sulfonated methyl esters determined from the stepwise thinning of foam films and by rheological measurements, J. Colloid Interface Sci., том:538, 2019, стр.:660-670, doi:10.1016/j.jcis.2018.12.034, Ref, Web of Science, SCOPUS Quartile: Q1 (2019), в сътрудничество с чуждестранни учени 2019
8 G.M. Radulova, T.G. Slavova, P.A. Kralchevsky, E.S. Basheva, K.G. Marinova, K.D. Danov, Encapsulation of Oils and Fragrances by Core-in-Shell Structures from Silica Particles, Polymers and Surfactants: The Brick-and-Mortar Concept, Colloids and Surfaces A, том:559, 2018, стр.:351-364, doi:10.1016/j.colsurfa.2018.09.079, Ref, IR , SCOPUS, SJR (0.76 - 2020), SCOPUS Quartile: Q1 (2018), MSc 2018
9 K.D. Danov, M.T. Georgiev, P.A. Kralchevsky, G.M. Radulova, T.D. Gurkov, S.D. Stoyanov, E.G. Pelan, Hardening of Particle/Oil/Water Suspensions Due to Capillary Bridges: Experimental Yield Stress and Theoretical Interpretation, Adv. Colloid Interface Sci., vol:251, issue:80-96, 2018, doi:10.1016/j.cis.2017.11.004, Ref, IR , SCOPUS, SJR (1.787 - 2018), SCOPUS Quartile: Q1 (2018), International, PhD 2018
10 K.D. Danov, P.A. Kralchevsky, G.M. Radulova, E.S. Basheva, S.D. Stoyanov, E.G. Pelan, Shear Rheology of Mixed Protein Adsorption Layers vs Their Structure Studied by Surface Force Measurements, Adv. Colloid Interface Sci. , vol:222, 2015, pages:148-161, doi:10.1016/j.cis.2014.04.009, Ref, Web of Science, SCOPUS Quartile: Q1 (2015), International, PhD 2015
11 G.M. Radulova, K.D. Danov, P.A. Kralchevsky, J.T. Petkov, S.D. Stoyanov, Shear Rheology of Hydrophobin Adsorption Layers at Oil/Water Interfaces and Data Interpretation in Terms of a Viscoelastic Thixotropic Model, Soft Matter, том:10, брой:31, 2014, стр.:5777-5786, doi:10.1039/C4SM00901K, Ref, Web of Science, SCOPUS Quartile: Q1 (2014), в сътрудничество с чуждестранни учени, PhD 2014
12 G.M. Radulova, K. Golemanov, K.D. Danov, P.A. Kralchevsky, S.D. Stoyanov, L.N. Arnaudov, T.B.J. Blijdenstein, E.G. Pelan, A. Lips, Surface shear rheology of adsorption layers from the protein HFBII hydrophobin: effect of added beta–casein, Langmuir, vol:28, 2012, pages:4168-4177, doi:10.1021/la205113w, Ref, IR , SCOPUS, SJR (2.179 - 2012), SCOPUS Quartile: Q1 (2012), International, PhD 2012
13 K.D. Danov, G. Radulova, P.A. Kralchevsky, K. Golemanov, S. Stoyanov, Surface shear rheology of hydrophobin adsorption layers: laws of viscoelastic behavior with applications to long-term foam stability, Faraday Discussions, vol:158, 2012, pages:195-221, doi:10.1039/c2fd20017a, Ref, IR , SCOPUS, SJR (1.751 - 2012), SCOPUS Quartile: Q1 (2012), PhD 2012
Студия в научно списание
Danov, Krassimir D., Radulova, Gergana M., Kralchevsky, Peter A., Golemanov, Konstantin, Kralchevski, Surface shear rheology of hydrophobin adsorption layers: laws of viscoelastic behaviour with applications to long-term foam stability, FARADAY DISCUSSIONS, vol:158, 2012, pages:195-221, ISSN (print):1359-6640, ISSN (online):1364-5498, doi:10.1039/c2fd20017a 2012
Участие в конференция
1 Постер, T. Slavova, G. Radulova, K. Danov, Saturated micellar networks: Phase separation and nanoemulsification capacity 2024
2 Секционен доклад, T. Slavova, G. Radulova, K. Danov, Saturated Micellar Networks: Phase Separation and Nanoemulsification Capacity 2024
3 Постер, G. Radulova, K. Danov, J. Petkov, Y. Ung, A. Suan, Strong Gel Formation of Mixed Methyl Ester Sulfonates and Cocamidopropyl Betaine Solutions 2024
4 Секционен доклад, Т. Славова, Г. Радулова, К. Данов, Биконтинуални мицеларни фази: фазово разделяне и капацитет на наноемулгиране 2024
5 Секционен доклад, T. Slavova, G. Radulova, M. Georgiev, K. Danov, Investigation of giant micellar structures in mixed surfactant solutions: emulsification properties and rheology 2023
6 Секционен доклад, G. Radulova, K. Danov, K. Marinova, M. Georgiev, Critical micelle concentration, size and aggregation number of zwitterionic surfactant micelles: Theory vs. Experiments 2023
7 Секционен доклад, M. Georgiev, K. Danov, G. Radulova, S. Stoyanov, E. Pelan, Phase separation of saturated micellar network and its potential applications for nanoemulsification; Hardening of particle/water/oil three-phase dispersions due to capillary bridges with applications for new products and materials 2023
8 Секционен доклад, G. Radulova, K. Danov, K. Marinova, M. Georgiev, Critical micelle concentration, size and aggregation number of zwitterionic surfactant micelles: Theory vs. Experiments 2023
9 Секционен доклад, G. Radulova, K. Danov, T. Stancheva, Rheological properties of micellar solutions and bicontinuous micellar phases 2022
10 Постер, V. Yavrukova , G. Radulova , K. Danov, Hui Xu , Y.W. Ung, J. Petkov, Rheology of mixed solutions of sulfonated methyl esters and betaine in relation to the growth of giant micelles 2022
11 Секционен доклад, K.D. Danov, K.G. Marinova, G.M. Radulova, M.T. Georgiev, Molecular thermodynamics of micelles from zwitterionic surfactants 2022
12 Секционен доклад, Gergana Radulova, Tatiana Slavova and Krassimir Danov, Encapsulation of fragrances and oils by core-shell structures from silica nanoparticles, surfactant and polymer: Theory 2021
13 Секционен доклад, G. Radulova, Encapsulation of ois and fragrances by core-shell structures from silica particles, polymers and surfactants: the brick-and-mortar concept 2019
14 Постер, G. Radulova, Rheology of adsorption layers from the protein hydrophobin and its mixtures with other proteins: experiment and theoretical model 2019
15 Секционен доклад, G. Radulova, V. Yavrukova, P. Kralchevsky, Kr. Danov1, H. Xu, Y. W. Ung, Rheology of concentrated micellar solutions with sulfonated methyl esters: synergism upon mixing in detergent formulations 2019
16 Секционен доклад, Radulova G.M., Danov K.D., Kralchevsky P.A., Rheology of adsorption layers from the protein hydrophobin and its mixtures with other proteins: experiment and theoretical model 2017
17 Секционен доклад, G.M. Radulova, K.D. Danov, P.A. Kralchevsky, E.S. Basheva, S.D. Stoyanov, Surface shear rheology of adsorption layers from the protein hydrophobin and its mixtures with other proteins: experiment and theoretical model 2017
18 Постер, Radulova G.M., Danov K.D., Kralchevsky P.A., Petkov J.T., Stoyanov S.D., Shear rheology of hydrophobin adsorption layers at oil/water interfaces and data interpretation in terms of a viscoelastic thixotropic model 2015
19 Постер, Radulova G.M., Danov K.D., Kralchevsky P.A., Basheva E.S., Stoyanov S.D., Pelan, E.G, Shear rheology of mixed adsorption layers with hydrophobin vs their structure studied by surface force measurements 2014
20 Постер, Radulova G.M., Golemanov, K., Danov K.D., Kralchevsky P.A., Stoyanov S.D., Arnaudov, L.N., Blijdenstein, T.B.J., Pelan, E.G., Lips, A. , Surface shear rheology of adsorption layers from the protein HFBII hydrophobin; effect of added Beta-Casein 2013
21 Постер, Radulova G.M., Golemanov, K., Danov K.D., Kralchevsky P.A., Stoyanov S.D., Arnaudov, L.N., Blijdenstein, T.B.J., Pelan, E.G., Lips, A., Surface Shear Rheology of Adsorption Layers from the Protein HFBII Hydrophobin; Effect of Added beta-Casein 2013
22 Постер, Radulova G.M., Danov K.D.,Kralchevsky P.A., Golemanov K.,Stoyanov S.D., Surface shear rheology of hydrophobin adsorption layers:laws of viscoelastic behaviour with applications to foam stability 2012