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2. Mahmood, S., P. Bhattarai, N.R. Khan, Z. Subhan and G. Razaque, et al., 2022. An investigation for skin tissue regeneration enhancement/augmentation by curcumin-loaded self-emulsifying drug delivery system (SEDDS). Polymers, Vol. 14. 10.3390/polym14142904.
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3. Lu, H., M. Kong, J. Jia, N.R. Khan, H.M. Basit, N.M. Marwat and Abdul Wahab, 2022. Resveratrol loaded ionically cross-linked hydrogel film for burn wound healing potential in animals. Int. J. Pharm., 18: 122-132.
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4. Gul, A., Abdul Wahab, F. Fozia, S.M. Shah and R. Gul, et al., 2022. Protein kinase inhibition, antibacterial activity, and characterization of phytoextract-mediated silver nanoparticles using aqueous extracts of Ifloga spicata. J. Nanomater., 10.1155/2022/4447857.
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5. Ali, M., N.R. Khan, Z. Subhan, S. Mehmood and A. Amin, et al., 2022. Novel curcumin-encapsulated α-tocopherol nanoemulsion system and its potential application for wound healing in diabetic animals. BioMed Res. Int., 10.1155/2022/7669255.
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6. Albarqi, H.A. Abdulsalam A. Alqahtani, I. Ullah, N.R. Khan, H.M. Basit, T. Iftikhar, Abdul Wahab, M. Ali and M. Badar, 2022. Microwave-assisted physically cross-linked chitosan-sodium alginate hydrogel membrane doped with curcumin as a novel wound healing platform. AAPS PharmSciTech., Vol. 23. 10.1208/s12249-022-02222-y.
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7. Ullah, A., N.R. Khan, M.H. Khan, S. Mehmood and J. Khan, et al., 2021. Formulation of microwave-assisted natural-synthetic polymer composite film and its physicochemical characterization. Int. J. Polym. Sci., 10.1155/2021/9961710.
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8. Tayyab, M., M. Hanif, A. Rafey, Amanullah and M. Mohibullah et al., 2021. UHPLC, ATR-FTIR profiling and determination of 15 LOX, α-glucosidase, ages inhibition and antibacterial properties of citrus peel extracts. Pharm. Chem. J., 55: 176-186.
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9. Basit, H.M., M. Ali, M.M. Shah, S.U. Shah and A. Wahab et al., 2021. Microwave enabled physically cross linked sodium alginate and pectin film and their application in combination with modified chitosan-curcumin nanoparticles. a novel strategy for 2nd degree burns wound healing in animals. Polymers, Vol. 13. 10.3390/polym13162716.
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10. Basit, H.M., M.C.I.M. Amin, S.F. Ng, H. Katas, S.U. Shah and N.R. Khan, 2020. Formulation and evaluation of microwave-modified chitosan-curcumin nanoparticles—a promising nanomaterials platform for skin tissue regeneration applications following burn wounds. Polymer., Vol. 12. 10.3390/polym12112608.
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11. Ali, M., N.R. Khan, H.M. Basit and S. Mahmood, 2020. Physico-chemical based mechanistic insight into surfactant modulated sodium carboxymethylcellulose film for skin tissue regeneration applications. J. Polym. Res., Vol. 27. 10.1007/s10965-019-1987-y.
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12. Khan, N.R. and T.W. Wong, 2018. 5-fluorouracil ethosomes-skin deposition and melanoma permeation synergism with microwave. Artif. Cells, Nanomed., Biotechnol., 46: 568-577.
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13. Khan, N., Z.R. Niazi, N.R. Khan, K. Shah and K. Rehman et al., 2018. Simulation studies and dynamic interaction of venom peptides with ion channels. Protein Pept. Lett., 25: 652-662.
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14. Khan, N.R. and T.W. Wong, 2016. Microwave-aided skin drug penetration and retention of 5-fluorouracil-loaded ethosomes. Expert Opin. Drug Delivery, 13: 1209-1219.
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15. Khan, N., M. Harun, A. Nawaz, N. Harjoh and T. Wong, 2015. Nanocarriers and their actions to improve skin permeability and transdermal drug delivery. Curr. Pharm. Des., 21: 2848-2866.
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