A Comprehensive Review of the Multidimensional Nanostructural Properties of Graphene Carbon Nitride as a Supercapacitor Electrode

Mahdi Saadati Pour; Mona Zamani Pedram

A Comprehensive Review of the Multidimensional Nanostructural Properties of Graphene Carbon Nitride as a Supercapacitor Electrode

محل انتشار: مجله انرژی تجدیدپذیر و محیط زیست، دوره: 11، شماره: 3

سال انتشار: 1403

نوع سند: مقاله ژورنالی

زبان: انگلیسی

مشاهده: 122

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لینک ثابت به این مقاله:

https://civilica.com/doc/2092963

شناسه ملی سند علمی:

JR_JREE-11-3_014

تاریخ نمایه سازی: 14 مهر 1403

چکیده مقاله:

This abstract offers a comprehensive review of recent advancements in Graphene Carbon Nitride (GCN) as a highly promising electrode material for supercapacitors. GCN boasts exceptional advantages, including abundant availability, a metal-free composition, high nitrogen content, and remarkable environmental sensitivity. These unique characteristics have positioned GCN at the forefront of research in energy storage and supercapacitor electrode materials. However, despite its potential, GCN faces challenges concerningin terms of limited specific capacity and energy density. To address these limitations, this review, article as the first and most comprehensive in its field,review article focuses on innovative and novel development methods, particularly the strategic formation of nanostructures in ۱, ۲, and ۳ dimensions. AOne notable finding of this review is the tremendous promise of ۳D structures in enhancingelevating the electrochemical properties of GCN as a supercapacitor electrode. A criticalAcritical research gap in other review articles is the absence of comprehensive and innovative literature (investigating nanostructures (۱D, ۲D, and ۳D) with novelnovelty synthesis methods for) on using GCN as a supercapacitor electrode. This underscores the pressing need for further scholarly investigation in this area, as addressed by like this review article. Overall, this professional review article not only provides a comprehensive overview of the advancements in GCN as a supercapacitor electrode material but also offers valuable guidance for researchers in the field. It highlightsSuch as the importanceutilization of utilizing environmentally friendly synthesis techniques for fabricatingthe fabrication of multidimensional nanostructures, illuminating. It illuminates novel research directions and highlights pioneering investigations. This empowers, empowering researchers to further advance the utilization of GCN in energy storage applications.

کلیدواژه ها:

Energy Storage ، Supercapacitor ، nanostructure materials ، graphene carbon nitride

نویسندگان

Mahdi Saadati Pour

Faculty of Mechanical Engineering-Energy Division, K.N. Toosi University of Technology, P.O. Box: ۱۹۳۹۵-۱۹۹۹, Tehran, Iran.

Mona Zamani Pedram

Faculty of Mechanical Engineering-Energy Division, K.N. Toosi University of Technology, P.O. Box: ۱۹۳۹۵-۱۹۹۹, Tehran, Iran.

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Ali, B. A., Biby, A. H., & Allam, N. K. ...
Ansari, S. A., & Cho, M. H. (۲۰۱۷). Growth of ...
Antil, B., Kumar, L., Das, M. R., & Deka, S. ...
Arora, R., Dhanda, M., Malik, R., Ahlawat, S., Yadav, M., ...
Ashritha, M., & Hareesh, K. (۲۰۲۰). A review on Graphitic ...
Bai, L., Huang, H., Yu, S., Zhang, D., Huang, H., ...
Bakr, A. E. A., El Rouby, W. M., Khan, M. ...
Barman, S., & Sadhukhan, M. (۲۰۱۲). Facile bulk production of ...
Butt, F. K., Hauenstein, P., Kosiahn, M., Garlyyev, B., Dao, ...
Chen, H., Hu, L., Chen, M., Yan, Y., & Wu, ...
Chen, J., Mao, Z., Zhang, L., Wang, D., Xu, R., ...
Chen, P., Liu, F., Chen, S., Guo, J.-K., Shen, S., ...
Choi, C., Ashby, D. S., Butts, D. M., DeBlock, R. ...
Dong, B., Li, M., Chen, S., Ding, D., Wei, W., ...
Dong, F., Wang, Z., Sun, Y., Ho, W.-K., & Zhang, ...
Duan, Y., Li, X., Lv, K., Zhao, L., & Liu, ...
Farrag, H. H., Abbas, A. A., Sayed, S. Y., Alalawy, ...
Gao, X., Feng, J., Su, D., Ma, Y., Wang, G., ...
Ghanem, L. G., Sayed, D. M., Ahmed, N., Ramadan, M., ...
Idris, M. B., & Devaraj, S. (۲۰۱۹). Mesoporous graphitic carbon ...
Isacfranklin, M., Ravi, G., Yuvakkumar, R., Kumar, P., Velauthapillai, D., ...
Isacfranklin, M., Yuvakkumar, R., Ravi, G., Hong, S., Velauthapillai, D., ...
Jiang, J., Zhang, Y., Nie, P., Xu, G., Shi, M., ...
Karuppaiah, M., Akilan, R., Sakthivel, P., Asaithambi, S., Shankar, R., ...
Khaladkar, S. R., Maurya, O., Gund, G., Sinha, B., Dubal, ...
Khan, M. D., Awan, S. U., Zequine, C., Zhang, C., ...
King, S. T., Barber, K. E., Parham, J. J., & ...
Kumar, A., Banerjee, K., & Liljeroth, P. (۲۰۱۷). Molecular assembly ...
Kumar, A., & Khanuja, M. (۲۰۲۱). Template-free graphitic carbon nitride ...
Kumar, S., Saeed, G., Zhu, L., Hui, K. N., Kim, ...
Li, C., Li, M., Yin, S., Zeng, L., & Zhang, ...
Li, G., Sun, T., Fu, Y., Lei, L., & Zhuo, ...
Li, M., Zheng, X., Xie, L., Yu, Y., & Jiang, ...
Li, R., Ren, Y., Zhao, P., Wang, J., Liu, J., ...
Li, X., Xiong, J., Gao, X., Huang, J., Feng, Z., ...
Liang, Q., Shao, B., Tong, S., Liu, Z., Tang, L., ...
Liang, Q., Ye, L., Xu, Q., Huang, Z.-H., Kang, F., ...
Lin, T., Chen, I.-W., Liu, F., Yang, C., Bi, H., ...
Liu, Y., Wen, G.-L., Chen, X., Weerasooriya, R., Hong, Z.-Y., ...
Lu, X., Wang, C., Favier, F., & Pinna, N. (۲۰۱۷). ...
Luo, Y., Yan, Y., Zheng, S., Xue, H., & Pang, ...
Mahzoon, S., Nowee, S. M., & Haghighi, M. (۲۰۱۸). Synergetic ...
Maruthasalamoorthy, S., Aishwarya, K., Thenmozhi, R., Nirmala, R., Nagarajan, C., ...
Meroueh, L., Eagar, T. W., & Hart, D. P. (۲۰۲۰). ...
Mo, Z., Xu, H., Chen, Z., She, X., Song, Y., ...
Mustaqeem, M., Naikoo, G. A., Rahimi, F., Pedram, M. Z., ...
Mustaqeem, M., Naikoo, G. A., Yarmohammadi, M., Pedram, M. Z., ...
Naikoo, G. A., Bano, M., Hassan, I. U., Ayyub, M. ...
Nazari, M., Rahmanifar, M. S., Noori, A., Li, W., Zhang, ...
Ngo, Y.-L. T., Choi, W. M., Chung, J. S., & ...
Niu, X., Wang, X., Guan, K., Wei, Q., & Liu, ...
Ong, W.-J., Tan, L.-L., Ng, Y. H., Yong, S.-T., & ...
Pallavolu, M. R., Banerjee, A. N., Joo, S. W., & ...
Rahman, M. M., Joy, P. M., Uddin, M. N., Mukhlish, ...
Rangaraj, V. M., Yoo, J.-I., Song, J.-K., & Mittal, V. ...
Rono, N., Kibet, J. K., Martincigh, B. S., & Nyamori, ...
Sevilla, M., & Mokaya, R. (۲۰۱۴). Energy storage applications of ...
She, X., Xu, H., Xu, Y., Yan, J., Xia, J., ...
Si, H., Deng, Q., Yin, C., Zhou, J., Zhang, S., ...
Sriram, B., Sathiyan, A., Wang, S.-F., Elanthamilan, E., Joseph, X. ...
Tahir, M., Cao, C., Butt, F. K., Idrees, F., Mahmood, ...
Thomas, A., Fischer, A., Goettmann, F., Antonietti, M., Müller, J.-O., ...
Vattikuti, S. P., Reddy, B. P., Byon, C., & Shim, ...
Wang, J., Zhang, C., Shen, Y., Zhou, Z., Yu, J., ...
Wang, Q., Jiao, L., Du, H., Wang, Y., & Yuan, ...
Wang, S. (۲۰۱۹). g-C۳N۴ nanosheets as “on-off-on” selective fluorescence biosensor ...
Wang, T. J., Wollert, K. C., Larson, M. G., Coglianese, ...
Wang, X., Wang, S., Su, D., Xu, S., Cao, S., ...
Wang, Y.-J., Fang, B., Li, H., Bi, X. T., & ...
Wang, Y., Liu, L., Ma, T., Zhang, Y., & Huang, ...
Xiao, Y., Tian, G., Li, W., Xie, Y., Jiang, B., ...
Yu, F., Wang, L., Xing, Q., Wang, D., Jiang, X., ...
Yuan, Y.-J., Shen, Z., Wu, S., Su, Y., Pei, L., ...
Zhang, L., Jia, P., Guo, Z., Cai, Q., Li, Z., ...
Zhang, R., Zhang, W., Shi, M., Li, H., Ma, L., ...
Zhang, W., Zhang, J., Dong, F., & Zhang, Y. (۲۰۱۶). ...
Zhao, P., Jin, B., Yan, J., & Peng, R. (۲۰۲۱). ...
Zhao, S., Zhang, Y., Zhou, Y., Wang, Y., Qiu, K., ...
Zhu, B., Cheng, B., Zhang, L., & Yu, J. (۲۰۱۹). ...
Zhu, B., Zhang, L., Cheng, B., & Yu, J. (۲۰۱۸). ...
Zou, X., Sun, Z., & Hu, Y. H. (۲۰۲۰). gC ...

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