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Ãë. àñ. ä-ð . Èðèíà Ðóìåíîâà Éîòîâà
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 ðåôåðèðàíè èçäàíèÿ
| Öèòèðàíèÿ
| Koleva, V., I. Yotova, A. Dragoeva, D. Enchev (2021) Synthesis, cytotoxicity, and promising anticancer potential of novel beta-amino- and beta-iminophosphonates. Journal of Applied Pharmaceutical Science, 11(07):080-088. DOI: 10.7324/JAPS.2021.110708, ISSN 2231-3354, (Scopus, Web of Science, 2025-Q1, SJR2025-0.670)
Öèòèðàíà â:
1. Tarasov MV, Gryaznova TV, Ivshin K, Katsyuba SA, Lenina OA, Lyubina AP, Parfenov AA, Voloshina AD, Budnikova YH. Antiproliferative Activity and Acute Toxicity of alfa beta-Bis(diphenylphosphine Oxide)ethanes Obtained by Bisphosphorylation of Acetylenes: Electrosynthesis Under Mild Conditions Versus Improved Superbasic Medium Synthesis. ChemMedChem. 2026, 28; 21(8): e70285. (Scopus, 2021-Q2, SJR2021-1.575) doi: 10.1002/cmdc.70285. PMID: 42035247.
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15.05.2026 |
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Ãë. àñ. ä-ð . Èðèíà Ðóìåíîâà Éîòîâà
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Ñ èìïàêò ôàêòîð
| Öèòèðàíèÿ
| Dragoeva A.P., V. P. Koleva, Zh. D. Nanova, M. Zh. Kaschieva, I. R. Yotova, 2014. Allelopathic and Cytotoxic Activity of Origanum vulgare ssp. vulgare Growing Wild in Bulgaria. Chemistry: Bulgarian Journal of Science Education, Volume 23, Number 6, p. 914-924.
Öèòèðàíà â:
1. Poveda J., I. Zunzunegui, O. Santamaria, J. Martin-Garcia, 2026. Aromatic crops as resources for new sustainable bioherbicides: Allelopathic activity of industrial products, by-products and wastes. Industrial Crops and Products, Volume 239, January 2026, 122500. (Scopus, SJR=0.974)
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04.02.2026 |
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Ãë. àñ. ä-ð . Èðèíà Ðóìåíîâà Éîòîâà
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Ñ èìïàêò ôàêòîð
| Öèòèðàíèÿ
| Yotova I., Ts. Ignatova-Ivanova, 2015. In vitro study of antifungal activity of oregano (Origanum vulgare). International Journal of Current Microbiology and Applied Sciences, 2015, Vol. 4, No. 3, 321-326.
Öèòèðàíà â:
Rodriguez-Canales Ì., A. B. Hernandez-Hernandez, U. Nava-Solis, M. A. Rodriguez-Monroy, M. M. Canales-Martinez, 2025. Targeting Candida albicans Pathogenicity: A Multifactorial Approach Using Lippia graveolens Essential Oil. Int. J. Mol. Sci. 2026, 27(1), 166; https://doi.org/10.3390/ijms27010166. (IF=4.9)
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04.02.2026 |
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Ãë. àñ. ä-ð . Èðèíà Ðóìåíîâà Éîòîâà
|
 íàó÷íî ñïèñàíèå
| Öèòèðàíèÿ
| Yotova I., Ts. Ignatova-Ivanova, 2015. In vitro study of antifungal activity of oregano (Origanum vulgare). International Journal of Current Microbiology and Applied Sciences, 2015, Vol. 4, No. 3, 321-326.
Öèòèðàíà â:
Esin Basim 2025. Determination of Chemical Components in Different Essential Oils and Their In Vitro Antifungal Effects on Wet Bubble Disease (Mycogone perniciosa) in Cultivated Mushroom (Agaricus bisporus). International Journal of Food, Agriculture and Animal Sciences, Volume: 5 Issue: 2, 11 – 25.
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04.02.2026 |
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Ãë. àñ. ä-ð . Èðèíà Ðóìåíîâà Éîòîâà
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Ñ èìïàêò ôàêòîð
| Öèòèðàíèÿ
| Cavdar, Yunus Emre, Stoyan Karakashev, Stanislav Donchev, Irina Yotova, Orhan Ozdemir, 2025. Ion-specific effects on the bubble coalescence in aqueous medium. Physicochemical Problems of Mineral Processing, 2025, Vol 61, Issue 3, p1. (IF 2022=1.5)
Öèòèðàíà â:
Shamukuni Thabang, Malibongwe S. Manono, Lisa L. October, Kirsten Claire Corin, 2025. Calcium and sulfate Ions on flotation performance of a Cu-Ni-PGM ore in the presence of anionic polyacrylamide and carboxymethyl cellulose. Minerals Engineering 234:109708, DOI: 10.1016/j.mineng.2025.109708. (IF=5.0)
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05.12.2025 |
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Ãë. àñ. ä-ð . Èðèíà Ðóìåíîâà Éîòîâà
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Ñ èìïàêò ôàêòîð
| Öèòèðàíèÿ
| Cavdar, Yunus Emre; Karakashev, Stoyan I.; Donhev, Stanislav; Yotova, Irina; Ozdemir, Orhan, 2025. Ion-specific effects on the bubble coalescence in aqueous medium. Physicochemical Problems of Mineral Processing, 2025, Vol 61, Issue 3, p1. (IF 2022=1.5)
Öèòèðàíà â:
Cavdar, Y. E., Asil, I., Muse, S. M., Boylu, F., & Ozdemir, O., 2025. Effect of Frother Type on Surface Properties and Flotation Performance of Galena: A Comparative Study of EH, PPG250, and MIBC. Minerals, 15(10), 1044. https://doi.org/10.3390/min15101044. (IF = 2.2)
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05.12.2025 |
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Ãë. àñ. ä-ð . Èðèíà Ðóìåíîâà Éîòîâà
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Ñ èìïàêò ôàêòîð
| Öèòèðàíèÿ
| Cavdar, Yunus Emre; Karakashev, Stoyan I.; Donhev, Stanislav; Yotova, Irina; Ozdemir, Orhan, 2025. Ion-specific effects on the bubble coalescence in aqueous medium. Physicochemical Problems of Mineral Processing, 2025, Vol 61, Issue 3, p1. (IF 2022 1.5)
Öèòèðàíà â:
Shaoqi Zhou, Rui Gu, Xiangning Bu, Ugur Ulusoy, Guangyuan Xie, 2025. In-depth investigation of fine quartz slurry containing bulk micro-nano bubbles by PSD and fractal analysis: The effect of ionic strength. Colloids and Surfaces A: Physicochemical and Engineering Aspects, Volume 726, Part 1, 137794. (IF=5.4)
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05.12.2025 |
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Ãë. àñ. ä-ð . Èðèíà Ðóìåíîâà Éîòîâà
|
 ñáîðíèê
| Äîêëàäè
| Ñòåëà Àñåíîâà, Ìèãëåíà Áàíêîâà, Èðèíà Éîòîâà, Äèëÿíà Èâàíîâà-Ñòàí÷åâà, Ñòîÿí Êàðàêàøåâ. Îòíîñíî éîí-ñïåöèôè÷íèòå åôåêòè âúðõó ïåííè ôèëìè è ïÿíà. Íàöèîíàëíà êîíôåðåíöèÿ ñ ìåæäóíàðîäíî ó÷àñòèå “Ïðèðîäíè íàóêè”, 10-12.10.2025, Øóìåí. |
05.12.2025 |
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Ãë. àñ. ä-ð . Èðèíà Ðóìåíîâà Éîòîâà
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 ñáîðíèê
| Äîêëàäè
| Ñòîÿí Êàðàêàøåâ, Äèëÿíà Èâàíîâà-Ñòàí÷åâà, Ñòàíèñëàâ Äîí÷åâ, Èðèíà Éîòîâà. Âðúçêà ìåæäó îòðèöàòåëíèÿ çàðÿä íà ìåõóð÷åòàòà è ñòðóêòóðàòà íà ïîâúðõíîñòíèÿ ñëîé âîäíè ìîëåêóëè. Íàöèîíàëíà êîíôåðåíöèÿ ñ ìåæäóíàðîäíî ó÷àñòèå “Ïðèðîäíè íàóêè”, 10-12.10.2025, Øóìåí. |
05.12.2025 |
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Ãë. àñ. ä-ð . Èðèíà Ðóìåíîâà Éîòîâà
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 íàó÷íî ñïèñàíèå
| Ñòàòèè
| Stoyan I. Karakashev, Nikolay A. Grozev, Dilyana Stancheva-Ivanova, Irina Yotova, Stanislav Donchev, 2025. On the Nature of the Air/Water Interface. Chemistry and Biochemistry: Research Progress Vol. 2, 19–51. https://doi.org/10.9734/bpi/cbrp/v2/3239 ISBN: 978-93-49238-03-9. |
17.11.2025 |
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Ãë. àñ. ä-ð . Èðèíà Ðóìåíîâà Éîòîâà
|
 íàó÷íî ñïèñàíèå
| Öèòèðàíèÿ
| Yotova, I., Ts. Ignatova-Ivanova, 2015. In vitro studu of antibacterial activity of Oregano (Origanum Vulgare). International Journal of Research Studies in Biosciences (IJRSB) Volume 3, Issue 4, April 2015, PP 65-69 ISSN 2349-0357.
Öèòèðàíà â:
Merita Rumano, Rexhep Shkurti, Bledar Myrtaj, Aida Dervishi, 2025. Pharmacological potential of bioactive compounds in origanum species. International Journal of Ecosystems and Ecology Science (IJEES) 15(5):373-384, DOI: 10.31407/ijees15.546.
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17.11.2025 |
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Ãë. àñ. ä-ð . Èðèíà Ðóìåíîâà Éîòîâà
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 ñáîðíèê
| Ñòàòèè
| Nikolova V., Stela Asenova, Roberta Ruseva, Irina Yotova, Dilyana Ivanova-Stancheva, Stanislav Donchev, Stoyan Karakashev, Effect of Surfactant Adsorption and Surface properties on Emulsion Film Drainage, Proceedings of the National Conference with International Participation “Natural Sciences”, 10-12.10.2025, Shumen, University Publishing House “Episkop Konstantin Preslavsky”, Shumen, 2025, pp. 16-25. |
11.11.2025 |
|
Ãë. àñ. ä-ð . Èðèíà Ðóìåíîâà Éîòîâà
|
 ñáîðíèê
| Ñòàòèè
| Bankova M., Stanislava Stamenova, Ivan Georgiev, Irina Yotova, Dilyana Ivanova-Stancheva, Stanislav Donchev, Stoyan Karakashev, Limitations of Foam drainage theory. Proceedings of the National Conference with International Participation “Natural Sciences”, 10-12.10.2025, Shumen, University Publishing House “Episkop Konstantin Preslavsky”, Shumen, 2025, pp. 7-15. |
11.11.2025 |
|
Ãë. àñ. ä-ð . Èðèíà Ðóìåíîâà Éîòîâà
|
Ñ èìïàêò ôàêòîð
| Ñòàòèè
| Cavdar, Yunus Emre; Karakashev, Stoyan I.; Donhev, Stanislav; Yotova, Irina; Ozdemir, Orhan, 2025. Ion-specific effects on the bubble coalescence in aqueous medium. Physicochemical Problems of Mineral Processing, 2025, Vol 61, Issue 3, p1. (IF 2022=1.5) |
10.11.2025 |
|
Ãë. àñ. ä-ð . Èðèíà Ðóìåíîâà Éîòîâà
|
Ñ èìïàêò ôàêòîð
| Öèòèðàíèÿ
| Cavdar, Yunus Emre; Karakashev, Stoyan I.; Donhev, Stanislav; Yotova, Irina; Ozdemir, Orhan, 2025. Ion-specific effects on the bubble coalescence in aqueous medium. Physicochemical Problems of Mineral Processing, 2025, Vol 61, Issue 3, p1. (IF 2022 1.5)
Öèòèðàíà â:
Thabang O. Shamukuni, Malibongwe S. Manono, Lisa L. October, Kirsten C. Corin, 2025. Calcium and sulfate Ions on flotation performance of a Cu-Ni-PGM ore in the presence of anionic polyacrylamide and carboxymethyl cellulose. Minerals Engineering, Volume 234, 109681. (IF=5.0)
|
09.09.2025 |
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Ãë. àñ. ä-ð . Èðèíà Ðóìåíîâà Éîòîâà
|
Ñ èìïàêò ôàêòîð
| Öèòèðàíèÿ
| Yotova, I., Ts. Ignatova-Ivanova, 2016. In vitro study of biological activity essential oil of Origanum vulgare L. subsp. vulgare L. Journal of Chemical and Pharmaceutical Research, 2016, 8(7): 958-962.
ÖÈÒÈÐÀÍÀ Â:
Lyubomira Radeva, Maya M. Zaharieva, Sevda Naydenska, Krassimira Yoncheva, 2025. Loading of Oregano Oil in Natural Nanogel and Preliminary Studies on Its Antiviral Activity on Betacoronavirus 1. Molecules 30(9):1939; DOI: 10.3390/molecules30091939. (IF=4.6)
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09.09.2025 |
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Ãë. àñ. ä-ð . Èðèíà Ðóìåíîâà Éîòîâà
|
Ñ èìïàêò ôàêòîð
| Öèòèðàíèÿ
| Yotova, I., Ts. Ignatova-Ivanova, 2016. In vitro study of biological activity essential oil of Origanum vulgare L. subsp. vulgare L. Journal of Chemical and Pharmaceutical Research, 2016, 8(7): 958-962.
ÖÈÒÈÐÀÍÀ Â:
Renata Nurzynska-Wierdak, Magdalena Walasek-Janusz, 2025. Chemical Composition, Biological Activity, and Potential Uses of Oregano (Origanum vulgare L.) and Oregano Essential Oil. Pharmaceuticals 2025, 18(2), 267; https://doi.org/10.3390/ph18020267. (IF=4.8)
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09.09.2025 |
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Ãë. àñ. ä-ð . Èðèíà Ðóìåíîâà Éîòîâà
|
 ðåôåðèðàíè èçäàíèÿ
| Öèòèðàíèÿ
| Nanova, Zh., A. Dragoeva, V. Koleva, N. Chipev, B. Georgiev, I. Yotova, M. Ivanov (2015) Study on the current use of four important medicinal plants of Lamiaceae in Bulgaria. // Acta Scientifica Naturalis, 2(1):23-30. doi: 10.1515/asn-2015-0003 ISSN: 2603-347X (ProQuest)
ÖÈÒÈÐÀÍÀ Â:
Todorov, K., P. Stoyanov, R. Mladenov, D. Gyuzeleva, Tz. Radoukova, Dzh. Selyami, S. Zhelyazkova, Ts. Mladenova (2025) Analysis of medicinal plants from the regions of the Strandzha mountain and southern Black Sea Coast, Bulgaria. // Ecologia Balkanica, 17(1):066-078. ISSN 1313-9940; (Scopus; Web of Science; Q4; SJR2024=0.192).
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09.09.2025 |
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Ãë. àñ. ä-ð . Èðèíà Ðóìåíîâà Éîòîâà
|
Ñ èìïàêò ôàêòîð
| Öèòèðàíèÿ
| Dragoeva A.P., V. P. Koleva, Zh. D. Nanova, M. Zh. Kaschieva, I. R. Yotova, 2014. Allelopathic and Cytotoxic Activity of Origanum vulgare ssp. vulgare Growing Wild in Bulgaria. Chemistry: Bulgarian Journal of Science Education, Volume 23, Number 6, p. 914-924.
ÖÈÒÈÐÀÍÀ Â:
D. Nicuta, L. Grosu, Oana-Irina Patriciu, Roxana-Elena Voicu, Irina-Claudia Alexa, 2025. The Allium cepa Model: A Review of Its Application as a Cytogenetic Tool for Evaluating the Biosafety Potential of Plant Extracts. Methods Protoc., 8(4), 88; https://doi.org/10.3390/mps8040088. (IF=2.0)
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09.09.2025 |
|
Ãë. àñ. ä-ð . Èðèíà Ðóìåíîâà Éîòîâà
|
 ñáîðíèê
| Ñòàòèè
| ßêóá Ãþëäæàí, Èðèíà Éîòîâà, Èâàéëî Ïàðóøåâ, Äæåìèëå Õàëèì, Âèòàí Êîíñóëîâ. Ôóíêöèîíàëíè àêðèëàìèäíè ñúïîëèìåðè è ïîëèìåðíè õèäðîãåëîâå – ïîëó÷àâàíå è ïðèëîæåíèå. Ñáîðíèê ñ äîêëàäè îò Íàöèîíàëíà êîíôåðåíöèÿ ñ ìåæäóíàðîäíî ó÷àñòèå “Ïðèðîäíè íàóêè”, 29-30.09.2023, Øóìåí, Óíèâåðñèòåòñêî èçäàòåëñòâî „Åïèñêîï Êîíñòàíòèí Ïðåñëàâñêè“, Øóìåí, 2023, ñòð. 40-47. |
12.01.2025 |
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Ãë. àñ. ä-ð . Èðèíà Ðóìåíîâà Éîòîâà
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Äðóãè
| Äðóãè ïóáëèêàöèè
| Enchev, D., Irina R. Yotova - Ïîñòåð 1,2-Alkadienephosphonates in Pauson-Khand Reaction. 23rd lnternational Conference on Phosphorus Chemistry (ICPC-23), Czgstochowa Poland, July 04 - 09.2021. |
06.12.2024 |
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Ãë. àñ. ä-ð . Èðèíà Ðóìåíîâà Éîòîâà
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Äðóãè
| Äðóãè ïóáëèêàöèè
| Éîòîâà, Èðèíà, Íèäåëèíà Ïåòêîâà, Ñòîÿí Êàðàêàøåâ, Äèëÿíà Èâàíîâà – Ñòàí÷åâà - Ïîñòåð Éîí
ñïåöèôè÷íè åôåêòè âúðõó ïÿíà. XX Íàöèîíàëíà êîíôåðåíöèÿ ñ ìåæäóíàðîäíî ó÷àñòèå ”Ïðèðîäíè
íàóêè 2022”, Øóìåí, Áúëãàðèÿ, 30.09-01.10.2022. |
06.12.2024 |
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Ãë. àñ. ä-ð . Èðèíà Ðóìåíîâà Éîòîâà
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 ñáîðíèê
| Äðóãè ïóáëèêàöèè
| ßêóá, Ã., È. Éîòîâà, È. Ïàðóøåâ, Äæ. Õàëèì, Â. Êîíñóëîâ - Ïîñòåð Ôóíêöèîíàëíè àêðèëàìèäíè
ñúïîëèìåðè è ïîëèìåðíè õèäðîãåëîâå – ïîëó÷àâàíå è ïðèëîæåíèå. XXI Íàöèîíàëíà êîíôåðåíöèÿ ñ
ìåæäóíàðîäíî ó÷àñòèå ”Ïðèðîäíè íàóêè 2023”, Øóìåí, Áúëãàðèÿ, 29.09-30.09.2023.
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06.12.2024 |
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Ãë. àñ. ä-ð . Èðèíà Ðóìåíîâà Éîòîâà
|
 ñáîðíèê
| Ñòàòèè
| Èâàíîâà-Ñòàí÷åâà Ä., Ñò. È. Êàðàêàøåâ, È. Éîòîâà, Âëèÿíèå íà BaCl2 âúðõó ïåíëèâîñòòà íà íàòðèåâ äîäåöèë ñóëôàò, Ñáîðíèê ñ äîêëàäè îò Íàöèîíàëíà êîíôåðåíöèÿ ñ ìåæäóíàðîäíî ó÷àñòèå “Ïðèðîäíè íàóêè”, 27-28.09.2024, Øóìåí, Óíèâåðñèòåòñêî èçäàòåëñòâî „Åïèñêîï Êîíñòàíòèí Ïðåñëàâñêè“, Øóìåí, 2024, ñòð. 6-12. |
11.11.2024 |
|
Ãë. àñ. ä-ð . Èðèíà Ðóìåíîâà Éîòîâà
|
Äðóãè
| Äðóãè ïóáëèêàöèè
| Êàðàêàøåâ Ñò., Äèëÿíà È. Ñòàí÷åâà, Èðèíà Éîòîâà, Ñòàíèñëàâ Äîí÷åâ, Íèêîëàé Ãðîçåâ, Êðèñòèíà Ìèð÷åâà. Ïîñòåð: Íåîðãàíè÷íè ñîëè êàòî õèìè÷íè ïåíî-ãàñèòåëè, Íàöèîíàëíà êîíôåðåíöèÿ ñ ìåæäóíàðîäíî ó÷àñòèå “Ïðèðîäíè íàóêè”, 27-28.09.2024, Øóìåí. |
11.11.2024 |
|
Ãë. àñ. ä-ð . Èðèíà Ðóìåíîâà Éîòîâà
|
Ñ èìïàêò ôàêòîð
| Öèòèðàíèÿ
| V. Koleva, I. Yotova, A. Dragoeva, M. Draganov, D. Enchev, 2021. Synthesis, cytotoxity and anticancer potential of novel b-amino- and b-iminophosphonates. Journal of Applied Pharmaceutical Science, 11, 7, p. 080-088. DOI: 10.7324/JAPS.2021.110708, ISSN 2231-3354.
Öèòèðàíà â:
Ahmed M. Abu-Dief, Tarek El-Dabea, Rafat M. El-Khatib, Aly Abdou, Ibrahim Omar Barnawi, Hassan A. H. Alschehri, Khalaf Al-Ghamdi, Mahmoud Abd El Aleem Ali Ali El-Remaily, 2024. Fabrication, physicochemical characterization and theoretical studies of some new mixed ligands complexes based on N-(1H-benzimidazol-2-yl)-guandine and 1, 10-phenanthroline: DNA interaction, biological applications and molecular docking approach. Journal of Molecular structure, Volume 1310. (IF 4.0) |
29.10.2024 |
|
Ãë. àñ. ä-ð . Èðèíà Ðóìåíîâà Éîòîâà
|
 íàó÷íî ñïèñàíèå
| Öèòèðàíèÿ
| Dragoeva, A., V. Koleva, Zh. Nanova, M. Kaschieva, I. Yotova, 2014. Allelopathic ànd cytotoxic activity of Origanum vulgare ssp. vulgare growing wild in Bulgaria. Chemistry: Bulgarian Journal of Science Education, 23(6):914-924. ISSN 08619255, IF2014-0.348, (Scopus, 2014-Q3)
Öèòèðàíà â:
1. Nicuta, D.; Grosu, L.; Alexa, I.-C.; Finaru, A.-L., 2024. Sustainable Characterization of Some Extracts of Origanum vulgare L. and Biosafety Evaluation Using Allium cepa Assay. Horticulturae., 10, 504. https://doi.org/10.3390/horticulturae 10050504. (IF 3.1)
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26.10.2024 |
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Ãë. àñ. ä-ð . Èðèíà Ðóìåíîâà Éîòîâà
|
 íàó÷íî ñïèñàíèå
| Öèòèðàíèÿ
| V. Koleva, I. Yotova, A. Dragoeva, M. Draganov, D. Enchev, 2021. “Synthesis, cytotoxicity and anticancer potential of novel b-amino- and b-iminophosphonates”. Journal of Applied Pharmaceutical Science, 11, ¹ 7, p. 080 – 088. DOI: 10.7324/JAPS.2021.110708, ISSN 2231-3354.
Öèòèðàíà â:
1. Ahmed M. Abu-Dief, Omran A. Omran, Mehran Feizi-Dehnayebi, Abdulmajeed Alqurashi, Inam Omar, Dalal Alhashmialameer, Ahmad Desoky M. Mohamad, 2024. Fabrication, structural elucidation and DFT calculation of some new hydrophilic metal chelates based on N N-(1-methyl-2-oxoindolin-3-ylidene)benzohydrazide ligand: Pharmaceutical studies and molecular docking approach. Applied organometallic chemistry, Volume 38, Issue 9.
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22.10.2024 |
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Ãë. àñ. ä-ð . Èðèíà Ðóìåíîâà Éîòîâà
|
 íàó÷íî ñïèñàíèå
| Öèòèðàíèÿ
| V. Koleva, I. Yotova, A. Dragoeva, M. Draganov, D. Enchev, 2021. “Synthesis, cytotoxicity and anticancer potential of novel b-amino- and b-iminophosphonates”. Journal of Applied Pharmaceutical Science, 11, ¹ 7, p. 080 – 088. DOI: 10.7324/JAPS.2021.110708, ISSN 2231-3354.
Öèòèðàíà â:
1. Aljohani, F. S., Tarek El-Dabea, Rafat M. El-Khatib, Aly Abdou, Seraj Alzahrani, Ibrahim Omar Barnawi, Mahmoud Abd El Aleem Ali Ali El-Remaily, Ahmed M. Abu-Dief, 2024. Innovation, structural inspection for new mixed complexes: DNA binding,biomedical applications and molecular docking approaches. JOURNAL OF TAIBAH UNIVERSITY FOR SCIENCE2024, VOL. 18, NO. 1, 2350087https://doi.org/10.1080/16583655.2024.2350087.
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22.10.2024 |
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Ãë. àñ. ä-ð . Èðèíà Ðóìåíîâà Éîòîâà
|
 íàó÷íî ñïèñàíèå
| Öèòèðàíèÿ
| V. Koleva, I. Yotova, A. Dragoeva, M. Draganov, D. Enchev, 2021. “Synthesis, cytotoxicity and anticancer potential of novel b-amino- and b-iminophosphonates”. Journal of Applied Pharmaceutical Science, 11, ¹ 7, p. 080 – 088. DOI: 10.7324/JAPS.2021.110708, ISSN 2231-3354.
Öèòèðàíà â:
Koleva, Vanya, Dragoeva, Asya. Dimitrova, Zheni; Toshkova, Stefani, Rogova, Mariya. 2023. Anticancer activity of Achillea thracica Velen. methanol extracts. Acta Scientifica Naturalis, Vol 10, Issue 3, pp 21.
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22.10.2024 |
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Ãë. àñ. ä-ð . Èðèíà Ðóìåíîâà Éîòîâà
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 íàó÷íî ñïèñàíèå
| Öèòèðàíèÿ
| V. Koleva, I. Yotova, A. Dragoeva, M. Draganov, D. Enchev, 2021. “Synthesis, cytotoxicity and anticancer potential of novel b-amino- and b-iminophosphonates”. Journal of Applied Pharmaceutical Science, 11, ¹ 7, p. 080 – 088. DOI: 10.7324/JAPS.2021.110708, ISSN 2231-3354.
Öèòèðàíà â:
1. Racheal O. Awolope, Ikechukwu P. Ejidike, Hadley S. Clayton, 2023. Schiff base metal complexes as a dual antioxidant and antimicrobial agents, Journal of Applied Pharmaceutical Science Vol. 13(03), pp 132-140. (Q2, Scopus, SJR 0.26).
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22.10.2024 |
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Ãë. àñ. ä-ð . Èðèíà Ðóìåíîâà Éîòîâà
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 íàó÷íî ñïèñàíèå
| Öèòèðàíèÿ
| V. Koleva, I. Yotova, A. Dragoeva, M. Draganov, D. Enchev, 2021. “Synthesis, cytotoxicity and anticancer potential of novel b-amino- and b-iminophosphonates”. Journal of Applied Pharmaceutical Science, 11, ¹ 7, p. 080 – 088. DOI: 10.7324/JAPS.2021.110708, ISSN 2231-3354.
Öèòèðàíà â:
Sneh D. Sonkamble, Dinesh D. Rishipathak, Laxman A. Kawale, Vandana S. Nade, 2023. Design, Synthesis and Evaluation of CNS Depressant Activity of 2-(Substituted Aryl)- Piperazine -3-Phenyl -4(3H)-Quinazolinone. International Journal of Pharmaceutical Sciences and Drug Research, 2023;15(2):209-213.
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22.10.2024 |
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Ãë. àñ. ä-ð . Èðèíà Ðóìåíîâà Éîòîâà
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 íàó÷íî ñïèñàíèå
| Öèòèðàíèÿ
| V. Koleva, I. Yotova, A. Dragoeva, M. Draganov, D. Enchev, 2021. “Synthesis, cytotoxicity and anticancer potential of novel b-amino- and b-iminophosphonates”. Journal of Applied Pharmaceutical Science, 11, ¹ 7, p. 080 – 088. DOI: 10.7324/JAPS.2021.110708, ISSN 2231-3354.
Öèòèðàíà â:
1. I.P. Ejidike, M. O. Bamigboye, D. A. Fadare, J. B. Adetunji, J. A. Obaleye, 2022. Antimalarial and Antimicrobial Activities of some Heteroleptic Metal(II) Complexes of Sulfadiazine–Vitamin C: Synthesis and Spectroscopic Studies. Tanzania Journal of Science, Vol. 48, ¹ 4, DOI: 10.4314/tjs.v48i4.22.
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22.10.2024 |
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Ãë. àñ. ä-ð . Èðèíà Ðóìåíîâà Éîòîâà
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Ñ èìïàêò ôàêòîð
| Öèòèðàíèÿ
| Yotova, I., Ts. Ignatova-Ivanova, 2015. In vitro Study of Antifungal Activity of Oregano (Origanum vulgare). Int. J. Curr. Microbiol. App. Sci, Volume 4, Number 3.
Öèòèðàíà â:
G.O. de Elguea-Culebras, L.A. Panama-Tapia, E. Melero-Bravo, N. Cerro-Ibanez, A. Calvo-Martinez, R. Sanchez-Vioque, 2023. Comparison of the phenolic composition and biological capacities of wastewater from Origanum vulgare L., Rosmarinus officinalis L., Salvia lavandulifolia Vahl. and Thymus mastichina L. resulting from two hydrodistillation systems: Clevenger and MAE. Journal of Applied Research on Medicinal and Aromatic Plants, Volume 34, 100480. (Scopus, IF 3.8).
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22.10.2024 |
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Ãë. àñ. ä-ð . Èðèíà Ðóìåíîâà Éîòîâà
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Ñ èìïàêò ôàêòîð
| Öèòèðàíèÿ
| Yotova, I., Ts. Ignatova-Ivanova, 2015. In vitro Study of Antifungal Activity of Oregano (Origanum vulgare). Int. J. Curr. Microbiol. App. Sci, Volume 4, Number 3.
Öèòèðàíà â:
1. Marin-Tinoco, Ruben I., Angie Tatiana Ortega-Ramirez, Maricela Esteban-Mendez, Oscar Silva-Marrufo, Laura E. Barragan-Ledesma, Luis M. Valenzuela-Nunez, Edwin A. Briceno-Contreras, Maria A. Sarinana-Navarrete, Abelardo Camacho-Luis, and Cayetano Navarrete-Molina, 2023. Antioxidant and Antibacterial Activity of Mexican Oregano Essential Oil, Extracted from Plants Occurring Naturally in Semiarid Areas and Cultivated in the Field and Greenhouse in Northern Mexico. Molecules 28, no. 18: 6547. https://doi.org/10.3390/molecules28186547. (Scopus, IF 4.2).
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22.10.2024 |
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Ãë. àñ. ä-ð . Èðèíà Ðóìåíîâà Éîòîâà
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 íàó÷íî ñïèñàíèå
| Öèòèðàíèÿ
| Yotova, I., Ts. Ignatova-Ivanova, 2015. In vitro Studu of Antibacterial Activity of Oregano (Origanum vulgare). IJRSB, Volume 3, Issue 4, PP 65- 69.
Öèòèðàíà â:
1. Hassan, Ì.À., Nahla S. Abdel-Naeim, Mahmoud Mabrok, Amina A. Dessouki, Ahmed M. Hassan, 2022. Isolation and identification of Enterococcus faecalis from cultured Oreochromis niloticus and Mugil cephalus with a special emphasis on a possible integrated control strategy. Aquaculture research. https://doi.org/10.1111/are.16034.
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22.10.2024 |
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Ãë. àñ. ä-ð . Èðèíà Ðóìåíîâà Éîòîâà
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 íàó÷íî ñïèñàíèå
| Öèòèðàíèÿ
| Dragoeva, A., V. Koleva, Zh. Nanova, M. Kaschieva, I. Yotova, 2014. Allelopathic ànd cytotoxic activity of Origanum vulgare ssp. vulgare growing wild in Bulgaria. Chemistry: Bulgarian Journal of Science Education, 23(6):914-924. ISSN 08619255, IF2014-0.348, (Scopus, 2014-Q3)
Öèòèðàíà â:
1. Husic, L., Adisa Paric, Aner Mesic, 2023. Allelopathic and toxicological effects of Origanum vulgare L. essential oil. Caryologia 76(1): 97-102. doi: 10.36253/caryologia-2132.
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22.10.2024 |
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Ãë. àñ. ä-ð . Èðèíà Ðóìåíîâà Éîòîâà
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Ñ èìïàêò ôàêòîð
| Öèòèðàíèÿ
| Dragoeva, A., V. Koleva, Zh. Nanova, M. Kaschieva, I. Yotova, 2014. Allelopathic ànd cytotoxic activity of Origanum vulgare ssp. vulgare growing wild in Bulgaria. Chemistry: Bulgarian Journal of Science Education, 23(6):914-924. ISSN 08619255, IF2014-0.348, (Scopus, 2014-Q3)
Öèòèðàíà â:
1. Asqarova Nasiba Qurbonvoy qizi, Axmedov Egamyor Toshboyevich, 2023. Origanum majorana ning etnotibbiy qo‘llanilishi va farmakologik xususiyatlari, 2023, International scientific journal \"Science and innovation\" Special issue: “Sustainable forestry”.
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22.10.2024 |
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Ãë. àñ. ä-ð . Èðèíà Ðóìåíîâà Éîòîâà
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 ñáîðíèê
| Äîêëàäè
| Koleva, V., I. Yotova, A. Dragoeva, Dobromir Enchev, 2021. Synthesis, cytotoxicity, and promising anticancer potential of novel b-amino- and b-iminophosphonates. 2nd INTERNATIONAL MODERN SCIENTIFIC RESEARCH CONGRESS, Istanbul, Turkey, 23-25.12.2021. |
22.10.2024 |
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Ãë. àñ. ä-ð . Èðèíà Ðóìåíîâà Éîòîâà
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Ñ èìïàêò ôàêòîð
| Öèòèðàíèÿ
| Dragoeva, A., V. Koleva, Zh. Nanova, M. Kaschieva, I. Yotova (2014) Allelopathic ànd cytotoxic activity of Origanum vulgare ssp. vulgare growing wild in Bulgaria. // Chemistry: Bulgarian Journal of Science Education, 23(6):914-924. ISSN 08619255, IF2014-0.348, (Scopus, 2014-Q3) ÖÈÒÈÐÀÍÀ Â: Yankova-Tsvetkova, E., M. Nikolova, I. Aneva, T. Stefanova, S. Berkov (2020) Germination inhibition bioassay of extracts and essential oils from plant species. // Comptes rendus de lAcademie bulgare des Sciences, 73(9):1254-1259. DOI: 10.7546/CRABS.2020.09.09, ISSN 13101331, IF2020-0.424, (Web of Science, Scopus, 2020-Q2) |
09.11.2022 |
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Ãë. àñ. ä-ð . Èðèíà Ðóìåíîâà Éîòîâà
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Ñ èìïàêò ôàêòîð
| Öèòèðàíèÿ
| Dragoeva, A., V. Koleva, Zh. Nanova, M. Kaschieva, I. Yotova (2014) Allelopathic ànd cytotoxic activity of Origanum vulgare ssp. vulgare growing wild in Bulgaria. // Chemistry: Bulgarian Journal of Science Education, 23(6):914-924. ISSN 08619255, IF2014-0.348, (Scopus, 2014-Q3) ÖÈÒÈÐÀÍÀ Â: Islam, A. K. M. M., T. Suttiyut, M. P.Anwar, A.S. Juraimi, H. Kato-Noguchi (2022) Allelopathic Properties of Lamiaceae Species: Prospects and Challenges to Use in Agriculture. // Plants, 11:1478. https://doi.org/10.3390/plants11111478, ISSN 2223-7747, IF2021-4.848, (Web of Science, Scopus, 2021-Q1) |
09.11.2022 |
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Ãë. àñ. ä-ð . Èðèíà Ðóìåíîâà Éîòîâà
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Äðóãè
| Ó÷åáíè ïîìàãàëà
| Òîìîâà Ð., Ñëàâîâà Ì., ßêóá Ã., Éîòîâà È., Àíàëèòè÷íà õèìèÿ - Ïðîòîêîëè çà êîëè÷åñòâåí àíàëèç, Óíèâåðñèòåòñêî èçä. \\\"Åïèñêîï Êîíñòàíòèí Ïðåñëàâñêè\\\", Øóìåí 2021, ISBN 978-619-201-488-9. |
09.11.2022 |
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Ãë. àñ. ä-ð . Èðèíà Ðóìåíîâà Éîòîâà
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 ñáîðíèê
| Äîêëàäè
| Irina Yotova, Vanya Koleva, Asya Dragoeva, Dobromir Enchev, 2020. Determination of toxicity of aminoderivatives of 1,2 – alkadienephosphonates on Triticum aestivum L. VIII Ñòóäåíòñêà íàó÷íà êîíôåðåíöèÿ „Åêîëîãèÿ è îêîëíà ñðåäà“, Øóìåí. |
09.11.2022 |
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Ãë. àñ. ä-ð . Èðèíà Ðóìåíîâà Éîòîâà
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Ñ èìïàêò ôàêòîð
| Ñòàòèè
| Koleva, V., I. Yotova, A. Dragoeva, D. Enchev (2021) Synthesis, cytotoxicity, and promising anticancer potential of novel beta-amino- and beta-iminophosphonates. // Journal of Applied Pharmaceutical Science, 11(07):080-088. DOI: 10.7324/JAPS.2021.110708, ISSN 2231-3354, IF2021-1.566, (Scopus, 2021-Q2) |
09.11.2022 |
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Ãë. àñ. ä-ð . Èðèíà Ðóìåíîâà Éîòîâà
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Ñ èìïàêò ôàêòîð
| Öèòèðàíèÿ
| I. Yotova, Ignatova-Ivanova Ts., 2016. In vitro study of biological activity of Origanum vulgare L. subsp. vulgare L. Journal of Chemical and Pharmaceutical Research, 2016, 8(7): 958-962.
Öèòèðàíà â:
1. Yoncheva, Krassimira, Niko Benbassat, Maya M. Zaharieva, Lyudmila Dimitrova, Alexander Kroumov, Ivanka Spassova, Daniela Kovacheva, and Hristo M. Najdenski. 2021. \"Improvement of the Antimicrobial Activity of Oregano Oil by Encapsulation in Chitosan—Alginate Nanoparticles\" Molecules 26, no. 22: 7017. https://doi.org/10.3390/molecules26227017.
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04.02.2022 |
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Ãë. àñ. ä-ð . Èðèíà Ðóìåíîâà Éîòîâà
|
 íàó÷íî ñïèñàíèå
| Öèòèðàíèÿ
| I. Yotova, Ignatova-Ivanova Ts., 2015,In vitro Study of Antifungal Activity of Oregano (Origanum vulgare). Int. J. Curr. Microbiol. App. Sci, Volume 4, Number 3.
Öèòèðàíà â:
Khadija Salim AL-Yasiri, Nidaa Shihab Hamed, 2021. Study the Effecte of Oreganum Vulgare L. Extratct Against Some Pathogenic Fungi. Annals of the Romanian Society for Cell Biology, 25(6), 9243–9252.
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04.02.2022 |
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Ãë. àñ. ä-ð . Èðèíà Ðóìåíîâà Éîòîâà
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Ñ èìïàêò ôàêòîð
| Öèòèðàíèÿ
| Dragoeva A.P., V. P. Koleva, Zh. D. Nanova, M. Zh. Kaschieva, I. R. Yotova, 2014. Allelopathic and Cytotoxic Activity of Origanum vulgare ssp. vulgare Growing Wild in Bulgaria. Chemistry: Bulgarian Journal of Science Education, Volume 23, Number 6, p. 914-924.
F. El-Shintinawy, S. Elfiky, M. A. El-Esawy, Sh. Abo-Hamad, 2021. Phytochemical analysis of Origanum majorana leaf extract and its effect on flax seedling growth. Egypt. J. Exp. Biol. (Bot.), 17(1): 11 – 19.
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04.02.2022 |
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Ãë. àñ. ä-ð . Èðèíà Ðóìåíîâà Éîòîâà
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 íàó÷íî ñïèñàíèå
| Öèòèðàíèÿ
| Dragoeva A.P., V. P. Koleva, Zh. D. Nanova, M. Zh. Kaschieva, I. R. Yotova, 2014. Allelopathic and Cytotoxic Activity of Origanum vulgare ssp. vulgare Growing Wild in Bulgaria. Chemistry: Bulgarian Journal of Science Education, Volume 23, Number 6, p. 914-924.
Öèòèðàíà â:
1. M. Nikolova, M. Yovkova, E. Yankova-Tsvetkova, B. Traikova, T. Stefanova, I. Aneva, S. Berkov, 2021. Biocidal Activity of Origanum vulgare subsp. hirtum Essential Oil. Acta Univ. Agric. Silvic. Mendelianae Brun. 2021, 69(5), 569-578 | DOI: 10.11118/actaun.2021.051.
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04.02.2022 |
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Ãë. àñ. ä-ð . Èðèíà Ðóìåíîâà Éîòîâà
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Ñ èìïàêò ôàêòîð
| Ñòàòèè
| Dobromir D. Enchev, Irina R. Yotova, 2020. 1, 2 – alkadienephosphonates in Pauson-Khand reaction. Comptes rendus de l’Academie bulgare des Sciences, Tome 73, ¹ 4. |
23.06.2021 |
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Ãë. àñ. ä-ð . Èðèíà Ðóìåíîâà Éîòîâà
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 íàó÷íî ñïèñàíèå
| Öèòèðàíèÿ
| Ignatowa-Ivanova T., Yotova I., Ivanov R., 2016. In vitro study of biological activity essential oil of Origanum vulgare L. subsp. vulgare L. J Chem Pharm. Res. 2016: 8(7): 958-62. ÖÈÒÈÐÀÍÀ Â: T Baj, Biernasiuk A., Wrobel R., Malm A., 2020. Chemical composition and in vitro activity of Origanum vulgare L. Satureja hortensis L, Thymus serpyllum L. and Thymus vulgaris L. essential oils towards oral isolates of Candida albicans and Candida glabrata. Open Chem., 2020; 18(1): 108-118. |
29.04.2021 |
