American Journal of Advanced Drug Delivery Open Access

  • ISSN: 2321-547X
  • Journal h-index: 22
  • Journal CiteScore: 9.36
  • Journal Impact Factor: 5.76
  • Average acceptance to publication time (5-7 days)
  • Average article processing time (30-45 days) Less than 5 volumes 30 days
    8 - 9 volumes 40 days
    10 and more volumes 45 days
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Articles published in American Journal of Advanced Drug Delivery have been cited by esteemed scholars and scientists all around the world. American Journal of Advanced Drug Delivery has got h-index 22, which means every article in American Journal of Advanced Drug Delivery has got 22 average citations.

Following are the list of articles that have cited the articles published in American Journal of Advanced Drug Delivery.

  2021 2020 2019 2018 2017

Total published articles

31 18 25 9 14

Conference proceedings

0 0 61 0 0

Citations received as per Google Scholar, other indexing platforms and portals

253 232 219 180 151
Journal total citations count 1671
Journal impact factor 5.76
Journal 5 years impact factor 9.29
Journal cite score 9.36
Journal h-index 22
Important citations

Oladipo, I. C., Lateef, A., Azeez, M. A., Asafa, T. B., Yekeen, T. A., Ogunsona, S. B., ... & Abbas, S. H. (2020, March). Characterization and biomedical application of phytosynthesized gold nanoparticles from Datura stramonium seed extract. In IOP Conference Series: Materials Science and Engineering (Vol. 805, No. 1, p. 012021). IOP Publishing.

Singh, B. (Ed.). (2018). NanoNutraceuticals. CRC Press.

Thakur, N. S., Thakur, A., & Kumar, P. (2020). Effect of different drying modes on phenolics and antioxidant potential of different parts of wild pomegranate fruits. Scientia Horticulturae, 274, 109656.

Kalaki, Z. A., Safaeijavan, R., & Ortakand, M. M. (2017). Biosynthesis of silver nanoparticles using Mentha longifolia (l.) hudson leaf extract and study its antibacterial activity. Archives of Advances in Biosciences, 8(2), 24-30.

Rajmohan, D., Saranya, D., Logankumar, K., Ranjithkumar, R., & Chandrashekar, B. (2015). Biomimetic Synthesis and Characterization of Silver Nanoparticles (AgNPs) Using Vinca rosea Aqueous Extract. Kongunadu Research Journal, 2(2), 1-5.

Rawat, V., Sharma, A., Bhatt, V. P., Singh, R. P., & Maurya, I. K. (2020). Sunlight mediated green synthesis of silver nanoparticles using Polygonatum graminifolium leaf extract and their antibacterial activity. Materials Today: Proceedings, 29, 911-916.

Dhawan, S., Hooda, P., & Nanda, S. (2018). Herbal Nano formulations: patent and regulatory overview. Applied Clinical Research, Clinical Trials and Regulatory Affairs, 5(3), 159-180.

Poinern, G. E. J., Shah, M., Thomsen, G., & Fawcett, D. (2016). Microscopy study of Xanthorrhoea glauca leaves and preliminary investigation into biogenic synthesis of silver nanoparticles. International Journal of Sciences, 2(03), 58-62.

Alothman, M., & Abd-El-Aziz, A. R. M. (2019). Effect of green synthesis silver nanoparticles from five fruits peel on protein capped and anti-fungal properties. Int. J. Adv. Res. Biol. Sci, 6(2), 156-165.

Mishra, R. C., Kumari, R., & Yadav, J. P. (2018). Comparative study of antidandruff efficacy of Punica granatum peel and its biosynthesized silver nanoparticles. Journal of Bionanoscience, 12(4), 508-514.

Oladipo, I. C., Lateef, A., Azeez, M. A., Asafa, T. B., Yekeen, T. A., Ogunsona, S. B., ... & Abbas, S. H. (2020, March). Antidiabetic properties of phytosynthesized gold nanoparticles (AuNPs) from Datura stramonium seed. In IOP Conference Series: Materials Science and Engineering (Vol. 805, No. 1, p. 012035). IOP Publishing.

Kumar, H., Bhardwaj, K., Dhanjal, D. S., Nepovimova, E., ?en, F., Regassa, H., ... & Ku?a, K. (2020). Fruit extract mediated green synthesis of metallic nanoparticles: A new avenue in pomology applications. International journal of molecular sciences, 21(22), 8458.

Magangana, T. P., Makunga, N. P., Fawole, O. A., & Opara, U. L. (2020). Processing factors affecting the phytochemical and nutritional properties of pomegranate (Punica granatum L.) peel waste: A review. Molecules, 25(20), 4690.

Govindappa, M., Tejashree, S., Thanuja, V., Hemashekhar, B., Srinivas, C., Nasif, O., ... & Raghavendra, V. B. (2021). Pomegranate fruit fleshy pericarp mediated silver nanoparticles possessing antimicrobial, antibiofilm formation, antioxidant, biocompatibility and anticancer activity. Journal of Drug Delivery Science and Technology, 61, 102289.

Abu-Dalo, M., Jaradat, A., Albiss, B. A., & Al-Rawashdeh, N. A. (2019). Green synthesis of TiO2 NPs/pristine pomegranate peel extract nanocomposite and its antimicrobial activity for water disinfection. Journal of Environmental Chemical Engineering, 7(5), 103370.

Nagajyothi, P. C., & Sreekanth, T. V. M. (2015). Green synthesis of metallic and metal oxide nanoparticles and their antibacterial activities. In Green processes for nanotechnology (pp. 99-117). Springer, Cham.

Ijaz, M., Zafar, M., & Iqbal, T. (2020). Green synthesis of silver nanoparticles by using various extracts: a review. Inorganic and Nano-Metal Chemistry, 51(5), 744-755.

Narayanamma, A., Rani, A., & Raju, M. E. (2016). Natural synthesis of silver nanoparticles by banana peel extract and as an antibacterial agent. Journal of Polymer and Textile Engineering, 3(1), 17-25.

Kumar, H., Bhardwaj, K., Sharma, R., Nepovimova, E., Ku?a, K., Dhanjal, D. S., ... & Kumar, D. (2020). Fruit and vegetable peels: Utilization of high value horticultural waste in novel industrial applications. Molecules, 25(12), 2812.

Halevas, E. G., & Pantazaki, A. A. (2018). Copper nanoparticles as therapeutic anticancer agents. Nanomed. Nanotechnol. J, 2(1), 119-139.