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مراجع و منابع این مقاله:

• Behabtu, H.A., et al., A review of energy storage technologies’ ...
• Dar, M.A., et al., Advancements in Supercapacitor electrodes and perspectives ...
• Ambrosi, A., et al., Electrochemistry of graphene and related materials. ...
• Whittingham, M.S., History, evolution, and future status of energy storage. ...
• Ahmad, F., et al., Advances in graphene-based electrode materials for ...
• Liang, R., et al., Transition metal oxide electrode materials for ...
• محققی, ح.ت.م.ب., نانوکامپوزیتهای سیلیکون، کربن و گرافن؛ نسل جدید آند ...
• Zheng, M., et al., Hierarchically nanostructured transition metal oxides for ...
• Novoselov, K.S., et al., Electric field effect in atomically thin ...
• Bai, L., et al., Graphene for energy storage and conversion: ...
• Yang, Y., et al., From materials to devices: Graphene toward ...
• Zafar, M., et al., Graphene-based polymer nanocomposites for energy applications: ...
• Tahriri, M., et al., Graphene and its derivatives: Opportunities and ...
• Velasco Davoise, L., A.M. Díez-Pascual, and R. Peña Capilla, Application ...
• Bellier, N., et al., Recent biomedical advancements in graphene oxide-and ...
• : p. https://www.differencebetween.com/what-is-the-difference-between-graphene-and-graphene-oxide/ ...
• Dalal, M., A Textbook of Inorganic Chemistry–Volume ۱. ۲۰۱۷: Dalal ...
• Ali, M., Manufacturing and Modeling of an Organic Thin Film ...
• Catania, F., et al., A review on recent advancements of ...
• Rhouma, M.B., Modeling and simulation of composite plasmonic structures based ...
• Sharma, N., et al., Study of optical and electrical properties ...
• Abdillah, O.B., et al., Recent progress on reduced graphene oxide ...
• Jayachandiran, J., et al., Synthesis and electrochemical studies of rGO/ZnO ...
• Ejaz, Y., et al., Development of cost-efficient BaMnO۳/rGO nanocomposite as ...
• Maharsi, R., et al., Electrochemical properties of TiO x/rGO composite ...
• Athira, A. and T. Xavier, A study on surfactant-modified polypyrrole/rGO/Co۳O۴ ...
• Kalia, S., et al., Synergistic effects of Ag nanoparticles in ...
• Sivaram, H., et al., Enhanced electrochemical properties of PbO-rGO nanocomposite ...
• Bagde, A., et al., Flexible solid-state asymmetric supercapacitor based on ...
• Abdullah, M., et al., Fabrication of Nd۲S۳ based rGO nanohybrid ...
• Lu, Z., et al., Porous SnO۲/graphene composites as anode materials ...
• Xu, H., Z. Sun, and J. Chen, Graphene-based anode materials ...
• Rosaiah, P., et al., Carbon based manganese oxide (MnO۲, MnO۲/MWCNT ...
• Yoo, H., et al., Enhanced reversible reaction of hexagonal SnS۲@ ...
• Mokaripoor, E., I. Kazeminezhad, and R. Daneshtalab, Improving the electrochemical ...
• Ali, A., et al., The role of graphene in rechargeable ...
• Abharana, N., et al., Exploration of the Lithiation/de-lithiation Mechanisms of ...
• Peng, J., et al., Synthesis of mesoporous layered iron oxide/rGO ...
• Liu, Z., et al., Applications of graphene-based composites in the ...
• Yang, Y., et al., Using Sandwiched Silicon/Reduced Graphene Oxide Composites ...
• Behabtu, H.A., et al., A review of energy storage technologies’ ...
• Dar, M.A., et al., Advancements in Supercapacitor electrodes and perspectives ...
• Ambrosi, A., et al., Electrochemistry of graphene and related materials. ...
• Whittingham, M.S., History, evolution, and future status of energy storage. ...
• Ahmad, F., et al., Advances in graphene-based electrode materials for ...
• Liang, R., et al., Transition metal oxide electrode materials for ...
• محققی, ح.ت.م.ب., نانوکامپوزیتهای سیلیکون، کربن و گرافن؛ نسل جدید آند ...
• Zheng, M., et al., Hierarchically nanostructured transition metal oxides for ...
• Novoselov, K.S., et al., Electric field effect in atomically thin ...
• Bai, L., et al., Graphene for energy storage and conversion: ...
• Yang, Y., et al., From materials to devices: Graphene toward ...
• Zafar, M., et al., Graphene-based polymer nanocomposites for energy applications: ...
• Tahriri, M., et al., Graphene and its derivatives: Opportunities and ...
• Velasco Davoise, L., A.M. Díez-Pascual, and R. Peña Capilla, Application ...
• Bellier, N., et al., Recent biomedical advancements in graphene oxide-and ...
• : p. https://www.differencebetween.com/what-is-the-difference-between-graphene-and-graphene-oxide/ ...
• Dalal, M., A Textbook of Inorganic Chemistry–Volume ۱. ۲۰۱۷: Dalal ...
• Ali, M., Manufacturing and Modeling of an Organic Thin Film ...
• Catania, F., et al., A review on recent advancements of ...
• Rhouma, M.B., Modeling and simulation of composite plasmonic structures based ...
• Sharma, N., et al., Study of optical and electrical properties ...
• Abdillah, O.B., et al., Recent progress on reduced graphene oxide ...
• Jayachandiran, J., et al., Synthesis and electrochemical studies of rGO/ZnO ...
• Ejaz, Y., et al., Development of cost-efficient BaMnO۳/rGO nanocomposite as ...
• Maharsi, R., et al., Electrochemical properties of TiO x/rGO composite ...
• Athira, A. and T. Xavier, A study on surfactant-modified polypyrrole/rGO/Co۳O۴ ...
• Kalia, S., et al., Synergistic effects of Ag nanoparticles in ...
• Sivaram, H., et al., Enhanced electrochemical properties of PbO-rGO nanocomposite ...
• Bagde, A., et al., Flexible solid-state asymmetric supercapacitor based on ...
• Abdullah, M., et al., Fabrication of Nd۲S۳ based rGO nanohybrid ...
• Lu, Z., et al., Porous SnO۲/graphene composites as anode materials ...
• Xu, H., Z. Sun, and J. Chen, Graphene-based anode materials ...
• Rosaiah, P., et al., Carbon based manganese oxide (MnO۲, MnO۲/MWCNT ...
• Yoo, H., et al., Enhanced reversible reaction of hexagonal SnS۲@ ...
• Mokaripoor, E., I. Kazeminezhad, and R. Daneshtalab, Improving the electrochemical ...
• Ali, A., et al., The role of graphene in rechargeable ...
• Abharana, N., et al., Exploration of the Lithiation/de-lithiation Mechanisms of ...
• Peng, J., et al., Synthesis of mesoporous layered iron oxide/rGO ...
• Liu, Z., et al., Applications of graphene-based composites in the ...
• Yang, Y., et al., Using Sandwiched Silicon/Reduced Graphene Oxide Composites ...
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