کامپوزیت پلی مرهای زیست تخریب پذیر و نانو ذرات در هیدروژل ها: بررسی و عملکرد آنها

مراجع و منابع این مقاله:

• Ullah, F., et al., Classification, processing and application of hydrogels: ...
• Akhtar, M.F., M. Hanif, and N.M. Ranjha, Methods of synthesis ...
• Zhang, Y.S. and A. Khademhosseini, Advances in engineering hydrogels. Science, ...
• Bari, S.S., A. Chatterjee, and S. Mishra, Biodegradable polymer nanocomposites: ...
• Sani, I.K. and M. Alizadeh, Isolated mung bean protein-pectin nanocomposite ...
• Carrillo-Inungaray, M.L., et al., Use of nanoparticles in the food ...
• Naseer, B., et al., Importance and health hazards of nanoparticles ...
• Luksiene, Z., Nanoparticles and their potential application as antimicrobials in ...
• Rasul, N.H., et al., Development of antimicrobial/antioxidant nanocomposite film based ...
• Sani, I.K., et al., Cold plasma technology: Applications in improving ...
• Khodaei, S.M., et al., Application of intelligent packaging for meat ...
• Keerthiga, G., P. Gupta, and T.S. Santra, Hydrogels: Biomaterials for ...
• Omidian, H. and K. Park, Introduction to hydrogels. Biomedical applications ...
• Nagam, S.P., et al., A comprehensive review on hydrogels. Int. ...
• Wang, K. and Z. Han, Injectable hydrogels for ophthalmic applications. ...
• Su, J., Thiol-mediated chemoselective strategies for in situ formation of ...
• Lyu, S., et al., Optically controlled reversible protein hydrogels based ...
• Mironi-Harpaz, I., et al., Photopolymerization of cell-encapsulating hydrogels: crosslinking efficiency ...
• Kurnia, J.C., E. Birgersson, and A.S. Mujumdar, Analysis of a ...
• Nguyen, Q.V., J.H. Park, and D.S. Lee, Injectable polymeric hydrogels ...
• Li, Y., et al., A biodegradable starch hydrogel synthesized via ...
• Guaresti, O., et al., Synthesis of stimuli–responsive chitosan–based hydrogels by ...
• Mathew, A.P., et al., Injectable hydrogels for delivering biotherapeutic molecules. ...
• Bai, R., et al., Fatigue fracture of tough hydrogels. Extreme ...
• Riederer, M.S., et al., Injectable and microporous scaffold of densely-packed, ...
• Barba, B.J.D., C. Tranquilan-Aranilla, and L.V. Abad, Hemostatic potential of ...
• Li, X., et al., Low-temperature ionic conductivity enhanced by disrupted ...
• Ahmed, E.M., Hydrogel: Preparation, characterization, and applications: A review. Journal ...
• Khansari, M.M., et al., Classification of hydrogels based on their ...
• Li, L., et al., Natural hydrogels for cartilage regeneration: Modification, ...
• Nur, M. and T. Vasiljevic, Can natural polymers assist in ...
• Xue, J., et al., Study on the degradation performance and ...
• Nasrullah, A., et al., High surface area mesoporous activated carbon-alginate ...
• Pirsa, S., et al., Hydrogels and biohydrogels: investigation of origin ...
• Kekes, T. and C. Tzia, Adsorption of indigo carmine on ...
• Farhadnejad, H., et al., Facile preparation and characterization of pH ...
• Hossieni-Aghdam, S.J., et al., Facile fabrication and characterization of a ...
• Farhoudian, S., M. Yadollahi, and H. Namazi, Facile synthesis of ...
• Lowe, B., et al., Preparation and characterization of chitosan-natural nano ...
• da Silva Fernandes, R., et al., Thermal, microstructural, and spectroscopic ...
• Xu, Y., J. Han, and H. Lin, Fabrication and characterization ...
• Makhado, E., S. Pandey, and J. Ramontja, Microwave-assisted green synthesis ...
• Makhado, E., et al., Preparation and characterization of xanthan gum-cl-poly ...
• Pandey, S., A comprehensive review on recent developments in bentonite-based ...
• Yadollahi, M., et al., Facile synthesis of chitosan/ZnO bio-nanocomposite hydrogel ...
• Yadollahi, M., S. Farhoudian, and H. Namazi, One-pot synthesis of ...
• Zare-Akbari, Z., et al., PH-sensitive bionanocomposite hydrogel beads based on ...
• biological macromolecules, ۲۰۱۶. ۹۳: p. ۱۳۱۷-۱۳۲۷ ...
• Gan, L., et al., Graphene oxide incorporated alginate hydrogel beads ...
• Cardelli, C., et al., The role of directional interactions in ...
• Garg, S., A. Garg, and R. Vishwavidyalaya, Hydrogel: classification, properties, ...
• Ahmadi, F., et al., Chitosan based hydrogels: characteristics and pharmaceutical ...
• Kim, S., et al., Comprehensive examination of mechanical and diffusional ...
• Quan, W.-Y., et al., Mussel-inspired catechol-functionalized hydrogels and their medical ...
• Yang, S., et al., Preparation of highly porous metal–organic framework ...
• Muñoz-Bonilla, A., et al., Chemical Hydrogels Bearing Thiazolium Groups with ...
• Tran, M., et al., Release Kinetics and Antimicrobial Properties of ...
• Wang, H., et al., Preparation and characterization of multilayer films ...
• Pereira, I., et al., Regeneration of critical-sized defects, in a ...
• Bardajee, G.R., et al., Synthesis of magnetic multi walled carbon ...
• Eivazzadeh-Keihan, R., et al., A novel biocompatible core-shell magnetic nanocomposite ...
• Kurdtabar, M., et al., Biocompatible magnetic hydrogel nanocomposite based on ...
• Yegappan, R., et al., Carrageenan based hydrogels for drug delivery, ...
• Sun, X., et al., pH-sensitive ZnO/carboxymethyl cellulose/chitosan bio-nanocomposite beads for ...
• Chen, W., et al., Self-assembly of the polymer brush-grafted silica ...
• Dsouza, S.D., et al. Plasma Induced Non-Equilibrium Electrochemistry for Synthesis ...
• Igweh, C., P. Patra, and A. Petryk, Biocompatibility of Graphene ...
• ۶۷. Reshma, V. and P. Mohanan, Quantum dots: Applications and ...
• Erol, O., et al., Transformer hydrogels: a review. Advanced Materials ...
• Chen, N., et al., Cellulose-based injectable hydrogel composite for pH-responsive ...
• Chen, Y., et al., Highly mechanical properties nanocomposite hydrogels with ...
• Llorens-Gámez, M., B. Salesa, and Á. Serrano-Aroca, Physical and biological ...
• Nie, K., et al., Enzyme-crosslinked electrospun fibrous gelatin hydrogel for ...
• Munekata, P.E., et al., Satiety from healthier and functional foods. ...
• Gharibzahedi, S.M.T. and B. Smith, Legume proteins are smart carriers ...
• Gregorova, A., et al., Hydrothermal effect and mechanical stress properties ...
• Qi, X., et al., Facile formation of salecan/agarose hydrogels with ...
• Sani, I.K., et al., Value-added utilization of fruit and vegetable ...
• Hassani, D., I.K. Sani, and S. Pirsa, Nanocomposite Film of ...
• Rogovina, S., Biodegradable polymer composites based on synthetic and natural ...
• Dziadek, M., E. Stodolak-Zych, and K. Cholewa-Kowalska, Biodegradable ceramic-polymer composites ...
• Smith, R., Biodegradable polymers for industrial applications. ۲۰۰۵: CRC press ...
• Sandhya, P., M. Sreekala, and S. Thomas, Nanobased Biodegradable Hydrogel ...
• ۸۳. Srivastava, N. and A.R. Choudhury, Recent advances in composite ...
• Buwalda, S.J., Bio-based composite hydrogels for biomedical applications. Multifunctional Materials, ...
• Das, R., et al., Geometrical control of degradation and cell ...
• Vinchhi, P., S.U. Rawal, and M.M. Patel, Biodegradable hydrogels, in ...
• Ao, B., et al., A review on synthesis and antibacterial ...
• Eremeeva, N.B., Nanoparticles of metals and their compounds in films ...
• Adeyemi, J.O. and O.A. Fawole, Metal-based nanoparticles in food packaging ...
• Ozcakir, G., Applications of Nanomaterials in Food Industry: A Review. ...
• Singh, R., et al., Future of nanotechnology in food industry: ...
• Zhang, S., et al., Conductive hydrogels incorporating carbon nanoparticles: A ...
• Zhivkov, A.M., T.T. Popov, and S.H. Hristova, Composite Hydrogels with ...
• Tropp, J., et al., Conducting polymer nanoparticles with intrinsic aqueous ...
• Yue, Y., Nanocomposite Hydrogels for Strain Sensing Based on Optical ...
• Mohammed, A.A., et al., Nanocomposite Hydrogels with Polymer Grafted Silica ...
• Moreno Ruiz, Y.P., et al., Advanced Hydrogels Combined with Silver ...
• Doan, V.S., et al., Confinement-dependent diffusiophoretic transport of nanoparticles in ...
• Baik, J.S., et al., Colloidal supraballs of mesoporous silica nanoparticles ...
• Ullah, F., et al., Classification, processing and application of hydrogels: ...
• Akhtar, M.F., M. Hanif, and N.M. Ranjha, Methods of synthesis ...
• Zhang, Y.S. and A. Khademhosseini, Advances in engineering hydrogels. Science, ...
• Bari, S.S., A. Chatterjee, and S. Mishra, Biodegradable polymer nanocomposites: ...
• Sani, I.K. and M. Alizadeh, Isolated mung bean protein-pectin nanocomposite ...
• Carrillo-Inungaray, M.L., et al., Use of nanoparticles in the food ...
• Naseer, B., et al., Importance and health hazards of nanoparticles ...
• Luksiene, Z., Nanoparticles and their potential application as antimicrobials in ...
• Rasul, N.H., et al., Development of antimicrobial/antioxidant nanocomposite film based ...
• Sani, I.K., et al., Cold plasma technology: Applications in improving ...
• Khodaei, S.M., et al., Application of intelligent packaging for meat ...
• Keerthiga, G., P. Gupta, and T.S. Santra, Hydrogels: Biomaterials for ...
• Omidian, H. and K. Park, Introduction to hydrogels. Biomedical applications ...
• Nagam, S.P., et al., A comprehensive review on hydrogels. Int. ...
• Wang, K. and Z. Han, Injectable hydrogels for ophthalmic applications. ...
• Su, J., Thiol-mediated chemoselective strategies for in situ formation of ...
• Lyu, S., et al., Optically controlled reversible protein hydrogels based ...
• Mironi-Harpaz, I., et al., Photopolymerization of cell-encapsulating hydrogels: crosslinking efficiency ...
• Kurnia, J.C., E. Birgersson, and A.S. Mujumdar, Analysis of a ...
• Nguyen, Q.V., J.H. Park, and D.S. Lee, Injectable polymeric hydrogels ...
• Li, Y., et al., A biodegradable starch hydrogel synthesized via ...
• Guaresti, O., et al., Synthesis of stimuli–responsive chitosan–based hydrogels by ...
• Mathew, A.P., et al., Injectable hydrogels for delivering biotherapeutic molecules. ...
• Bai, R., et al., Fatigue fracture of tough hydrogels. Extreme ...
• Riederer, M.S., et al., Injectable and microporous scaffold of densely-packed, ...
• Barba, B.J.D., C. Tranquilan-Aranilla, and L.V. Abad, Hemostatic potential of ...
• Li, X., et al., Low-temperature ionic conductivity enhanced by disrupted ...
• Ahmed, E.M., Hydrogel: Preparation, characterization, and applications: A review. Journal ...
• Khansari, M.M., et al., Classification of hydrogels based on their ...
• Li, L., et al., Natural hydrogels for cartilage regeneration: Modification, ...
• Nur, M. and T. Vasiljevic, Can natural polymers assist in ...
• Xue, J., et al., Study on the degradation performance and ...
• Nasrullah, A., et al., High surface area mesoporous activated carbon-alginate ...
• Pirsa, S., et al., Hydrogels and biohydrogels: investigation of origin ...
• Kekes, T. and C. Tzia, Adsorption of indigo carmine on ...
• Farhadnejad, H., et al., Facile preparation and characterization of pH ...
• Hossieni-Aghdam, S.J., et al., Facile fabrication and characterization of a ...
• Farhoudian, S., M. Yadollahi, and H. Namazi, Facile synthesis of ...
• Lowe, B., et al., Preparation and characterization of chitosan-natural nano ...
• da Silva Fernandes, R., et al., Thermal, microstructural, and spectroscopic ...
• Xu, Y., J. Han, and H. Lin, Fabrication and characterization ...
• Makhado, E., S. Pandey, and J. Ramontja, Microwave-assisted green synthesis ...
• Makhado, E., et al., Preparation and characterization of xanthan gum-cl-poly ...
• Pandey, S., A comprehensive review on recent developments in bentonite-based ...
• Yadollahi, M., et al., Facile synthesis of chitosan/ZnO bio-nanocomposite hydrogel ...
• Yadollahi, M., S. Farhoudian, and H. Namazi, One-pot synthesis of ...
• Zare-Akbari, Z., et al., PH-sensitive bionanocomposite hydrogel beads based on ...
• biological macromolecules, ۲۰۱۶. ۹۳: p. ۱۳۱۷-۱۳۲۷ ...
• Gan, L., et al., Graphene oxide incorporated alginate hydrogel beads ...
• Cardelli, C., et al., The role of directional interactions in ...
• Garg, S., A. Garg, and R. Vishwavidyalaya, Hydrogel: classification, properties, ...
• Ahmadi, F., et al., Chitosan based hydrogels: characteristics and pharmaceutical ...
• Kim, S., et al., Comprehensive examination of mechanical and diffusional ...
• Quan, W.-Y., et al., Mussel-inspired catechol-functionalized hydrogels and their medical ...
• Yang, S., et al., Preparation of highly porous metal–organic framework ...
• Muñoz-Bonilla, A., et al., Chemical Hydrogels Bearing Thiazolium Groups with ...
• Tran, M., et al., Release Kinetics and Antimicrobial Properties of ...
• Wang, H., et al., Preparation and characterization of multilayer films ...
• Pereira, I., et al., Regeneration of critical-sized defects, in a ...
• Bardajee, G.R., et al., Synthesis of magnetic multi walled carbon ...
• Eivazzadeh-Keihan, R., et al., A novel biocompatible core-shell magnetic nanocomposite ...
• Kurdtabar, M., et al., Biocompatible magnetic hydrogel nanocomposite based on ...
• Yegappan, R., et al., Carrageenan based hydrogels for drug delivery, ...
• Sun, X., et al., pH-sensitive ZnO/carboxymethyl cellulose/chitosan bio-nanocomposite beads for ...
• Chen, W., et al., Self-assembly of the polymer brush-grafted silica ...
• Dsouza, S.D., et al. Plasma Induced Non-Equilibrium Electrochemistry for Synthesis ...
• Igweh, C., P. Patra, and A. Petryk, Biocompatibility of Graphene ...
• ۶۷. Reshma, V. and P. Mohanan, Quantum dots: Applications and ...
• Erol, O., et al., Transformer hydrogels: a review. Advanced Materials ...
• Chen, N., et al., Cellulose-based injectable hydrogel composite for pH-responsive ...
• Chen, Y., et al., Highly mechanical properties nanocomposite hydrogels with ...
• Llorens-Gámez, M., B. Salesa, and Á. Serrano-Aroca, Physical and biological ...
• Nie, K., et al., Enzyme-crosslinked electrospun fibrous gelatin hydrogel for ...
• Munekata, P.E., et al., Satiety from healthier and functional foods. ...
• Gharibzahedi, S.M.T. and B. Smith, Legume proteins are smart carriers ...
• Gregorova, A., et al., Hydrothermal effect and mechanical stress properties ...
• Qi, X., et al., Facile formation of salecan/agarose hydrogels with ...
• Sani, I.K., et al., Value-added utilization of fruit and vegetable ...
• Hassani, D., I.K. Sani, and S. Pirsa, Nanocomposite Film of ...
• Rogovina, S., Biodegradable polymer composites based on synthetic and natural ...
• Dziadek, M., E. Stodolak-Zych, and K. Cholewa-Kowalska, Biodegradable ceramic-polymer composites ...
• Smith, R., Biodegradable polymers for industrial applications. ۲۰۰۵: CRC press ...
• Sandhya, P., M. Sreekala, and S. Thomas, Nanobased Biodegradable Hydrogel ...
• ۸۳. Srivastava, N. and A.R. Choudhury, Recent advances in composite ...
• Buwalda, S.J., Bio-based composite hydrogels for biomedical applications. Multifunctional Materials, ...
• Das, R., et al., Geometrical control of degradation and cell ...
• Vinchhi, P., S.U. Rawal, and M.M. Patel, Biodegradable hydrogels, in ...
• Ao, B., et al., A review on synthesis and antibacterial ...
• Eremeeva, N.B., Nanoparticles of metals and their compounds in films ...
• Adeyemi, J.O. and O.A. Fawole, Metal-based nanoparticles in food packaging ...
• Ozcakir, G., Applications of Nanomaterials in Food Industry: A Review. ...
• Singh, R., et al., Future of nanotechnology in food industry: ...
• Zhang, S., et al., Conductive hydrogels incorporating carbon nanoparticles: A ...
• Zhivkov, A.M., T.T. Popov, and S.H. Hristova, Composite Hydrogels with ...
• Tropp, J., et al., Conducting polymer nanoparticles with intrinsic aqueous ...
• Yue, Y., Nanocomposite Hydrogels for Strain Sensing Based on Optical ...
• Mohammed, A.A., et al., Nanocomposite Hydrogels with Polymer Grafted Silica ...
• Moreno Ruiz, Y.P., et al., Advanced Hydrogels Combined with Silver ...
• Doan, V.S., et al., Confinement-dependent diffusiophoretic transport of nanoparticles in ...
• Baik, J.S., et al., Colloidal supraballs of mesoporous silica nanoparticles ...
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