PMC/PubMed Indexed Articles
Indexed In
- Open J Gate
- Genamics JournalSeek
- Academic Keys
- JournalTOCs
- ResearchBible
- China National Knowledge Infrastructure (CNKI)
- Scimago
- Ulrich's Periodicals Directory
- Electronic Journals Library
- RefSeek
- Hamdard University
- EBSCO A-Z
- OCLC- WorldCat
- SWB online catalog
- Virtual Library of Biology (vifabio)
- Publons
- MIAR
- Scientific Indexing Services (SIS)
- Euro Pub
- Google Scholar
Useful Links
Share This Page
Journal Flyer
Open Access Journals
- Agri and Aquaculture
- Biochemistry
- Bioinformatics & Systems Biology
- Business & Management
- Chemistry
- Clinical Sciences
- Engineering
- Food & Nutrition
- General Science
- Genetics & Molecular Biology
- Immunology & Microbiology
- Medical Sciences
- Neuroscience & Psychology
- Nursing & Health Care
- Pharmaceutical Sciences
Articles published in Journal of Nanomedicine & Nanotechnology have been cited by esteemed scholars and scientists all around the world. Journal of Nanomedicine & Nanotechnology has got h-index 49, which means every article in Journal of Nanomedicine & Nanotechnology has got 49 average citations.
Following are the list of articles that have cited the articles published in Journal of Nanomedicine & Nanotechnology.
| 2022 | 2021 | 2020 | 2019 | 2018 | |
|---|---|---|---|---|---|
Total published articles |
62 | 71 | 34 | 20 | 41 |
Conference proceedings |
53 | 21 | 0 | 44 | 369 |
Citations received as per Google Scholar, other indexing platforms and portals |
1184 | 1267 | 1095 | 929 | 906 |
| Journal total citations count | 10577 |
| Journal impact factor | 1.68 |
| Journal 5 years impact factor | 2.78 |
| Journal cite score | 25.25 |
| Journal h-index | 49 |
Important citations
Ibrahim H, Osman G, Hezma AE, Maleki M (2016) Facile one-pot synthesis of silver nanoparticles mediated by polyacrylamide and its antibacterial activity. IET Nanobiotechnology.
Arasoglu T, Derman S, Mansuroglu B (2015) Comparative evaluation of antibacterial activity of caffeic acid phenethyl ester and PLGA nanoparticle formulation by different methods. Nanotechnology 27: 025103.
Verma DK, Hasan SH, Banik RM (2016) Photo-catalyzed and phyto-mediated rapid green synthesis of silver nanoparticles using herbal extract of Salvinia molesta and its antimicrobial efficacy. Journal of Photochemistry and Photobiology B: Biology 155: 51-59.
Nishikant D, Shiva S, Rishu T (2016) Nanotechnology as a Targeted Drug Delivery System to Brain. Nano Sci Nano Technol 10: 105.
Basha SM, Shawky HA, Hanafi R RADIOGRAPHICAL AND IMMUNOHISTOCHEMICAL EVALUATION OF SILVER NANOPARTICLES IN TREATMENT OF INTRA-OSSEUS DEFECTS. AN ANIMAL STUDY.
Habiba K, Bracho-Rincon DP, Gonzalez-Feliciano JA, Villalobos-Santos JC, Makarov VI, Applied Materials Today.
Dong X, Yang L (2015) Dual functional nisin-multi-walled carbon nanotubes coated filters for bacterial capture and inactivation. Journal of biological engineering 9: 20.
Habiba K, Bracho-Rincon DP, Gonzalez-Feliciano JA, Villalobos-Santos JC, Makarov VI, et al. (2015) Synergistic antibacterial activity of PEGylated silver–graphene quantum dots nanocomposites. Applied Materials Today1: 80-87.
Faramarzi M, Heidarinasab A, Panahi H, Kazemi K, Tamaddon AM Loading, release, and solid phase extraction of sorafenib using smart nanoparticles.
Giuffrida MC, Spoto G ( 2017) Integration of isothermal amplification methods in microfluidic devices: Recent advances. Biosensors and Bioelectronics 90:174-186.
Aroonnual A, Janvilisri T, Ounjai P, Chankhamhaengdecha S (2017) Microfluidics: innovative approaches for rapid diagnosis of antibiotic-resistant bacteria. Essays In Biochemistry 61: 91-101.
Hosic S, Murthy SK, Koppes AN (2015) Microfluidic sample preparation for single cell analysis. Analytical chemistry88: 354-380.
Sobreira FW (2017) Correlações fortes em nanoplasmônica (Doctoral dissertation, Universidade de São Paulo).
楊于葶 (2016) 奈米氧化鋅微粒å°ä¸æ¨žç¥žç¶“å½±éŸ¿ä¹‹ç ”ç©¶. 臺ç£å¤§å¸è·æ¥é†«å¸èˆ‡å·¥æ¥è¡›ç”Ÿç ”究所å¸ä½è«–æ–‡ 1-80.
Milani NC (2016). Utilizacao de zinco, na forma de óxido de zinco nanoparticulado, em dietas para leitões recém-desmamados (Doctoral dissertation, Escola Superior de Agricultura “Luiz de Queiroz).
Khorsandi L, Mansouri E, Orazizadeh M, Jozi Z (2016) Curcumin Attenuates Hepatotoxicity Induced by Zinc Oxide Nanoparticles in Rats. Balkan Medical Journal 33: 252.
Devasena T (2017) Nanotoxicity and Risk Assessment. InTherapeutic and Diagnostic Nanomaterials, Springer Singapore. (pp. 53-59).
Shanmugasundaram T, Balagurunathan R (2016) Bio-medically active zinc oxide nanoparticles synthesized by using extremophilic actinobacterium, Streptomyces sp.(MA30) and its characterization. Artificial Cells, Nanomedicine, and Biotechnology 29: 1-9.
Milani NC, Sbardella M, Ikeda NY, Arno A, Mascarenhas BC, et al. (2017) Dietary zinc oxide nanoparticles as growth promoter for weanling pigs. Animal Feed Science and Technology.
Krishna PG, Ananthaswamy PP, Trivedi P, Chaturvedi V, Mutta NB, et al. (2017) Antitubercular activity of ZnO nanoparticles prepared by solution combustion synthesis using lemon juice as bio-fuel. Materials Science and Engineering: C. 2017 Jun 1;75:1026-33.Krishna PG, Ananthaswamy PP, Trivedi P, Chaturvedi V, Mutta NB, Sannaiah A, Erra A, Yadavalli T. Antitubercular activity of ZnO nanoparticles prepared by solution combustion synthesis using lemon juice as bio-fuel. Materials Science and Engineering: C. 75: 1026-1233.