+44 1478 350008Journal of Physical Chemistry & Biophysics : Citations & Metrics Report
Articles published in Journal of Physical Chemistry & Biophysics have been cited by esteemed scholars and scientists all around the world. Journal of Physical Chemistry & Biophysics has got h-index 19, which means every article in Journal of Physical Chemistry & Biophysics has got 19 average citations.
Following are the list of articles that have cited the articles published in Journal of Physical Chemistry & Biophysics.
| 2022 | 2021 | 2020 | 2019 | 2018 | |
|---|---|---|---|---|---|
Year wise published articles |
28 | 36 | 42 | 11 | 13 |
Year wise citations received |
159 | 211 | 153 | 162 | 130 |
| Journal total citations count | 1236 |
| Journal impact factor | 6.63 |
| Journal 5 years impact factor | 6.70 |
| Journal cite score | 6.39 |
| Journal h-index | 19 |
| Journal h-index since 2018 | 16 |
Important citations (605)
improved uptake of steroid hormone from aqueous solution using ?-fe2o3/nio nanocomposites |
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biotransformation and chemotaxis of 4-chloro-2-nitrophenol by pseudomonas sp. jhn |
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adsorption of phenol in wastewater using nano grapheme oxide-chitosan-bentonite absorbent |
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amino siloxane oligomer-linked graphene oxide as an efficient adsorbent for removal of pb(ii) from wastewater |
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Thorat sa, thakur sd study of substituted 3, 5-diaryl isoxazolines complexes in 70% dioxane solvent media ph-metrically. |
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Bastone s, martino df, renda v, saladino ml, poggi g, et al. (2017) alcoholic nanolime dispersion obtained by the insolubilisation-precipitation method and its application for the deacidification of ancient paper. colloids and surfaces a: physicochemical and engineering aspects 513: 241-249. |
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Konopacka-Åyskawa d, koÅ›cielska b, karczewski j (2015) effect of some organic solvent–water mixtures composition on precipitated calcium carbonate in carbonation process. journal of crystal growth 418: 25-31. |
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Marracino p, casciola m, liberti m, apollonio f (2015) evaluation of protein electrostatic potential from molecular dynamics simulations in the presence of exogenous electric fields: the case study of myoglobin. incomputational electrostatics for biological applications pp: 255-270. |
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Beebe sj (2015) considering effects of nanosecond pulsed electric fields on proteins. bioelectrochemistry. 103: 52-59. |
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Olaposi oi. construction of homology modeling of transmembrane protein lpa1 receptor analysis of atomic level interaction of lpa / lpa1 from virtual three-dimensional structure and consideration of signal transduction mechanism by molecular structure conversion molecule examination of simulation: comparative experiment of antagonist activity of lpa1 mutant construction of a system applicable to large-scale in silico inhibitor screening screening. |
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Omotuyi io (2014) computer-aided modeling and ligand-binding dynamics of lysophosphatidic acid receptor 1: the signature receptor of neuropathic pain. |
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graphene oxide-metal oxide nanocomposites for on-target enrichment and analysis of phosphorylated biomolecules |
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technological aspects for tb3+-doped luminescent sol–gel nanomaterials |
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Hashim ak, mohammed ej (2016) measurement of radon concentration and the effective dose rate in the soil of the city of karbala, iraq. |
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Elzain ae (2015) estimation of soil gas radon concentration and the effective dose rate by using ssntds. international journal of scientific and research publications. |
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Duggal v, rani a, mehra r (2014) measurement of soil-gas radon in some areas of northern rajasthan, india. journal of earth system science 123: 1241-1247. |
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Gulati p, shukla v, singh h (2015) rationally engineered biodegradable nano particles for the delivery of ccisplatin in solid tumors. |
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Mcmullen rl (2016) maleic anhydride applications in personal care. inhandbook of maleic anhydride based materials pp: 441-507. |
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López-miranda e, cortés j (2016) etirinotecan pegol for the treatment of breast cancer. expert opinion on pharmacotherapy. 17: 727-734. |
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Raj r, das s (2016) prospects of bacteriotherapy with nanotechnology in nanoparticledrug conjugation approach for cancer therapy. current medicinal chemistry 23: 1477-1494. |
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