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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

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

Year wise published articles

 31 18 25 9 14

Year wise citations received

 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
Journal Impact Factor 2020 formula
IF= Citations(y)/{Publications(y-1)+ Publications(y-2)} Y= Year
Journal 5-year Impact Factor 2020 formula
Citations(2016 + 2017 + 2018 + 2019 + 2020)/
{Published articles(2016 + 2017 + 2018 + 2019 + 2020)}
Journal citescore
Citescorey = Citationsy + Citationsy-1 + Citationsy-2 + Citations y-3 / Published articlesy + Published articlesy-1 + Published articlesy-2 + Published articles y-3
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Important citations
Alshora, D. H., Ibrahim, M. A., Ezzeldin, E., & Iqbal, M. (2020). Optimized flurbiprofen sustained-release matrix pellets prepared by extrusion/spheronization. Journal of Drug Delivery Science and Technology, 59, 101902.
Vyas, S., & Jain, A. (2019). Pelletization Techniques: A review. International Journal of Pharmacy & Life Sciences, 10(3).
Alkazzaz, S. Z. M., & Ali, W. K. UK Journal of Pharmaceutical and Biosciences Available at www. ukjpb. com.
Ramesh, K., Shekar, B. C., Khadgapathi, P., & Bhikshapathi, D. V. R. N. (2015). Design and evaluation of tolvaptan solid dispersions using hot-melt extrusion and spray drying technique–A comparative study. Pharm Lett, 7, 218-31.
Ramesh, K., Shekar, B. C., Khadgapathi, P., & Bhikshapathi, D. V. R. N. (2015). Design and evaluation of tolvaptan solid dispersions using hot-melt extrusion and spray drying technique–A comparative study. Pharm Lett, 7, 218-31.
Vemula, S. K., & Reddy, S. G. (2015). Formulation and pharmacokinetics of flurbiprofen sublimated fast dissolving tablets. Open Pharmaceutical Sciences Journal, 2(1).
Vemula, S. K., & Katkum, R. (2014). Development and physical characterization of meclizine hydrochloride solid dispersions by using polyethylene glycol 8000. Science, Technology and Arts Research Journal, 3(1), 48-52.
Alkazzaz, S. Z. M., & Ali, W. K. (2015). Design and in-vitro evaluation of colon targeted prednisolone solid dispersion tablets. Pharmaceutical and Biosciences Journal, 30-41.
Bahmani, K., & Singla, Y. (2018). ENHANCED SOLUBILITY OF ANTIHYPERTENSIVE DRUG USING HYDROPHILIC CARRIER BASED POTENT SOLID DISPERSION SYSTEMS. studies, 3, 110.
Dhall, M., & Madan, A. K. (2016). Steep improvement in dissolution profile of ezetimibe through co-inclusion in urea. Journal of Pharmaceutical Investigation, 46(5), 433-451.
Vemula, S. K., & Vangala, M. (2014). Formulation development and characterization of meclizine hydrochloride sublimated fast dissolving tablets. International scholarly research notices, 2014.
Lüdeker, D., & Brunklaus, G. (2015). NMR crystallography of ezetimibe co-crystals. Solid state nuclear magnetic resonance, 65, 29-40.
Saeed, B. M., Al-Jadaan, S. A., & Abbas, B. A. (2020, November). Synthesis, Characterization of a Novel 1, 1’-[1, 4-phenylenebis (1, 3, 4-thiadiazol-5, 2-diyl)] bis (3-chloro-4-(4-hydroxyphenyl) azetidin-2-one and evaluation its Biological activities. In IOP Conference Series: Materials Science and Engineering (Vol. 928, No. 6, p. 062024). IOP Publishing.
Hanoon, H. D., Abd Al Hussain, H. A., & Abass, S. K. (2021, November). Synthesis and characterization of azetidin-2-one and 1, 3-oxazepine derivatives using Schiff bases derived from 1, 1’-biphenyl-4, 4’-diamine. In Journal of Physics: Conference Series (Vol. 2063, No. 1, p. 012010). IOP Publishing.
Jaffer, N. D. (2019). Production of New Monomers from Cyclic derivatives and study of their (Chemical, Physical, Thermal Characterizations and Biological Effects). Research Journal of Pharmacy and Technology, 12(9), 4149-4154.
Jaffer, N. D. (2019). Production of New Monomers from Cyclic derivatives and study of their (Chemical, Physical, Thermal Characterizations and Biological Effects). Research Journal of Pharmacy and Technology, 12(9), 4149-4154.
Jaffer, N. D. (2019). Production of New Monomers from Cyclic derivatives and study of their (Chemical, Physical, Thermal Characterizations and Biological Effects). Research Journal of Pharmacy and Technology, 12(9), 4149-4154.
Busic, V., Vrandecic, K., Siber, T., Roca, S., & Gaso-Sokac, D. (2019). A rapid microwave induced synthesis of isonicotinamide derivatives and their antifungal activity. Croatica Chemica Acta, 92(1), 125-136.
Petrillo, G., Tavani, C., Bianchi, L., Benzi, A., Cavalluzzi, M. M., Salvagno, L., ... & Lentini, G. (2021). Densely functionalized 2-Methylideneazetidines: Evaluation as antibacterials. Molecules, 26(13), 3891.
Aderibigbe, B. A. (2018). Nanobiomaterials for Drug Delivery. In Nanoconjugate Nanocarriers for Drug Delivery (pp. 29-70). Apple Academic Press.
Awards Nomination 0.329+ Million Readerbase
PMC/PubMed Indexed Articles
Google Scholar citation report
Citations : 1671

American Journal of Advanced Drug Delivery received 1671 citations as per Google Scholar report

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