Muhammad Sajjad    博士，中文名穆罕穆德·萨佳德。男，1989年04月生，巴基斯坦籍外籍教师，校聘副教授。2020年06月获云南大学理学博士学位。2020年7月至2024年6月分别在云南大学和浙江师范大学从事博士后研究工作。2025年01月加入黄冈师范学院化学化工学院。目前从事锂离子电池和正负极材料、超级电容器材料的研究工作。

教育及工作经历：

2025/01—至今    特聘副教授黄冈师范学院化学化工学院

2022/08—2024/07  博士后    浙江师范大学化学材料学院

2020/07—2022/07  博士后    云南大学化学材料学院

2017/09—2020/06  博士     云南大学化学材料学院材料学

2014/10—2016/03  硕士     Hazara University巴基斯坦应用物理

2008/10—2012/03  学士     Islamia College University 巴基斯坦应用物理

办公室：化学楼211A室

Email: sajjadfisica@gmail.com

近年来论文发表情况：近5年来共发表SCI论文80余篇，其中第一作者或者通讯作者发表论文共50余篇。

代表性文章发表情况：

2025年：

1. Muhammad Sajjad, Shah, M. Z. U., Zhang, J., & Mao, Z. The synergistic storm: unveiling the potential of the CuSe-MoS2 composite in extrinsic pseudocapacitor and understanding their charge storage mechanism. Journal of Alloys and Compounds, 1014, (2025), 178773. (IF = 5.8).

2. Shah, M. Z. U., Feng, J. *, Shah, A., Muhammad Sajjad*, Tirth, V., & Shah, M. S. (2025). Wet-chemical synthesis of SnO2-Co3O4 microflower electrode for high energy density in aqueous asymmetric supercapacitors. Journal of Energy Storage, 108, 115081. (IF = 8.9).

3. Shah, M. Z. U., Feng, J.*, BiBi, F., Muhammad Sajjad*, Qureshi, M. T., Shah, A.& Salem, M. S. Enhanced energy storage with TiO₂/NiO/ZnO core-shell heterostructures in hybrid battery-supercapacitor applications. Journal of Alloys and Compounds, 1013 (2025), 178548. (IF = 5.8).

2024年：

4. Shah, Muhammad Zia Ullah, Jamal Shah, Khizar Hayat, S. K. Shah, Iftikhar Hussain, Afaq Ullah Khan, Muhammad Sanaullah Shah, Muhammad Sajjad*, Optimizing performance: Achieving high capacitance and cycling durability in alkaline electrolyte with SnO2/SnSe|| AC/KOH-based aqueous hybrid supercapacitor. Journal of Energy Storage 75 (2024): 109662. (IF = 8.9).

2023年：

5. Muhammad Sajjad, Zhang, J., Mao*, Z., & Chen, Z*. A review on iron-nitride (Fe2N) based nanostructures for electrochemical energy storage applications: Research progress, and future perspectives. Journal of Alloys and Compounds, 976 (2023), 172626. (IF = 5.8).

6. Ahmad, Syed Awais, Muhammad Zia Ullah Shah, Muhammad Arif, Ehsan Ullah, Shams ur Rahman, Muhammad Sana Ullah Shah, Syed M. Eldin, Peng Song, Muhammad Sajjad*, and A. Shah. High power aqueous hybrid asymmetric supercapacitor based on zero-dimensional ZnS nanoparticles with two-dimensional nanoflakes CuSe₂ nanostructures. Ceramics International 49 (2023): 20007-20016. (IF = 5.1).

7. Ahmad, Syed Awais, Muhammad Zia Ullah Shah, Iftikhar Hussain, Muhammad Arif, Peng Song*, Sameerah I. Al-Saeedi, Muhammad Sajjad* CoSe2@ZnS microsphere arrays with remarkable electrochemical performance for hybrid asymmetric supercapacitor. Journal of Energy Storage 73 (2023): 109090. (IF = 8.9).

8. Ahmad, Syed Awais, Muhammad Zia Ullah Shah, Muhammad Arif, Muhammad Sana Ullah Shah, Ehsan Ullah, A. Shah, Muhammad Sajjad*, Jamshed Aftab, and Peng Song. Rational design of a novel MnO2-FeSe₂ nanohybrid with nanowires/cubic architecture as promising supercapattery electrode materials. Journal of Electroanalytical Chemistry 936 (2023): 117318. (IF = 4.1).

9. Hayat, Mudassir, Yuxue Zhou, Muhammad Zia Ullah Shah, Muhammad Bilal Hanif, Hongying Hou, Umar Arif, Shaukat Khan, Muhammad Sajjad* et al. Exploring the electrochemical properties of CuSe-decorated NiSe2 nanocubes for battery-supercapacitor hybrid devices. Chemosphere 340 (2023): 139720. (IF = 8.1).

10. Shah, Muhammad Sana Ullah, Xiaoqing Zuo*, A. Shah, Sameerah I. Al-Saeedi, Muhammad Zia Ullah Shah*, Eman A. Alabbad, Muhammad Sajjad*, Hongying Hou et al. CoSe nanoparticles supported NiSe2 nanoflowers cathode with improved energy storage performance for advanced hybrid supercapacitors. Journal of Energy Storage 65 (2023): 107267. (IF = 8.9).

11. Ullah, Ehsan, Muhammad Zia Ullah Shah, Syed Awais Ahmad, Muhammad Sajjad*, Shaukat Khan, Fatimah M. Alzahrani, Adel EM Yahya et al. Hydrothermal assisted synthesis of hierarchical SnO2 micro flowers with CdO nanoparticles-based membrane for energy storage applications. Chemosphere 321 (2023): 138004. (IF = 8.1).

12. Sajjad Muhammad, Jing Zhang, Shiwen Zhang, Jieqing Zhou, Zhiyu Mao*, and Zhongwei Chen*. Long‐Life Lead‐Carbon Batteries for Stationary Energy Storage Applications. The Chemical Record (2023): e202300315. (IF = 7.0). 

13. Shah, Muhammad Zia Ullah, Muhammad Sajjad*, Muhammad Sanaullah Shah, Muhammad Rahim, Shams ur Rahman, Hongying Hou*, Afaq Ullah Khan, and A. Shah. Wet-chemical assisted synthesis of MnSe/ZnO nanostructures as low-resistance robust novel cathode material for advanced hybrid supercapacitors. New Journal of Chemistry 47, no. 17 (2023): 8002-8012. (IF = 2.7).

14. Arif, Muhammad, Muhammad Zia Ullah Shah, Syed Awais Ahmad, Muhammad Sanaullah Shah, A. Shah, Ehsan Ullah, Taihong Huang, Jianhong Yi, Muhammad Sajjad*, and Peng Song. CdS Nanoparticles Decorated on Carbon Nanofibers as the First Ever Utilized as an Electrode for Advanced Energy Storage Applications. Journal of Inorganic and Organometallic Polymers and Materials 33, no. 4 (2023): 969-980. (IF = 3.9).

15. Ullah, Ehsan, Muhammad Zia Ullah Shah, Syed Awais Ahmad, Muhammad Arif, Muhammad Ibrar Khan, Ming Hou, Shenghui Guo, A. Shah, and Muhammad Sajjad*. Fabrication of 1.6 V asymmetric supercapacitor in an aqueous electrolyte using a CuO-SnO2 composite and activated carbon electrodes. Materials Today Communications 37 (2023): 106889. IF = 3.7).

16. Mubeen, Khalida, Muhammad Zia Ullah Shah, Muhammad Sajjad*, Afshan Irshad, Zahid Ali, Zainab Zafar, and A. Shah. Boosting the electrochemical performance of ZnO nanomaterials through a conductive CuS matrix for aqueous supercapacitors. New Journal of Chemistry 47, no. 16 (2023): 7819- 7829. (IF = 2.7).

17. Shah, Muhammad Zia Ullah, Hongying Hou, Muhammad Sajjad*, Muhammad Sanaullah Shah, Kashif Safeen, and A. Shah. Iron-selenide-based titanium dioxide nanocomposites as a novel electrode material for asymmetric supercapacitors operating at 2.3 V. Nanoscale Advances (2023). (IF = 4.6).

18. Shah, Muhammad Sana Ullah, Xiaoqing Zuo*, Muhammad Zia Ullah Shah, Hongying Hou, M. Kalimullah Shah, Iqtidar Ahmad, Muhammad Sajjad*, A. Shah*. Nickel selenide nano-cubes anchored on cadmium selenide nanoparticles: First-ever designed as electrode material for advanced hybrid energy storage applications. Journal of Energy Storage 63 (2023): 107065. (IF = 8.9).

2022年：

19. Shah, Muhammad Zia Ullah, Muhammad Sajjad*, Hongying Hou, Shagufta BiBi, and A. Shah. Hydrothermal synthesis of ZnO@ ZnS heterostructure on Ni foam: A binder-free electrode for high power and stable hybrid supercapacitors Materials Letters 326 (2022): 132910. (IF = 2.7).

20. Abbas, Qasim, Abdul Mateen, Abdul Jabbar Khan, Gaber E. Eldesoky, Asim Idrees, Awais Ahmad, Elsayed Tag Eldin, Himadri Tanaya Das, Muhammad Sajjad*, and Muhammad Sufyan Javed. Binder- Free Zinc–Iron Oxide as a High-Performance Negative Electrode Material for Pseudocapacitors. Nanomaterials 12, no. 18 (2022): 3154. (IF = 4.4).

21. Khan, Kamran, Muhammad Zia Ullah Shah, Uzma Aziz, Khizar Hayat, Muhammad Sajjad*, Ishaq Ahmad, Syed Awais Ahmad, Said Karim Shah, and A. Shah. Development of 1.6 V hybrid supercapacitor based on ZnO nanorods/MnO2 nanowires for next-generation electrochemical energy storage. Journal of Electroanalytical Chemistry 922 (2022): 116753. (IF = 4.1).

22. Ismail, Javaid, Muhammad Sajjad*, Muhammad Zia Ullah Shah, Rafaqat Hussain, Basit Ali Khan, Rabia Maryam, A. Shah, Arshad Mahmood, and Shams ur Rahman. Comparative capacitive performance of MnSe encapsulated GO based nanocomposites for an advanced electrochemical capacitor with rapid charge transport channels. Materials Chemistry and Physics 284 (2022): 126059. (IF = 4.3).

23. Shah, Muhammad Sana Ullah, Xiaoqing Zuo, Muhammad Zia Ullah Shah, Hongying Hou, Syed Awais Ahmad, Tauseef Ul Haq, Jamshed Aftab, Muhammad Sajjad*, and A. Shah. Supercapacitive performance of a novel binary nanocomposite of metal chalcogenides for advanced hybrid supercapacitor. Journal of Energy Storage 65 (2023): 107268. (IF = 8.9).

24. Khan, B.A., Hussain, R., Shah, A., Mahmood, A., Shah, M.Z.U., Ismail, J., ur Rahman, S., Muhammad Sajjad*, Assiri, M.A., Imran, M. and Javed, M.S., 2022. NiSe2 nanocrystals intercalated rGO sheets as a high- performance asymmetric supercapacitor electrode. Ceramics International, 48(4) (2022), 5509-5517. (IF = 5.1).

25. Abbas, Qasim, Abdul Mateen, Abdul Jabbar Khan, Gaber E. Eldesoky, Asim Idrees, Awais Ahmad, Elsayed Tag Eldin, Himadri Tanaya Das, Muhammad Sajjad*, and Muhammad Sufyan Javed. Bind c–Iron Oxide as a High-Performance Negative Electrode Material for Pseudocapacitors. Nanomaterials 12 (2022): 3154. (IF = 4.4).

26. Khan, Kamran, Muhammad Zia Ullah Shah, Uzma Aziz, Khizar Hayat, Muhammad Sajjad*, Ishaq Ahmad, Syed Awais Ahmad, Said Karim Shah, and A. Shah*. Development of 1.6 V hybrid supercapacitor based on ZnO nanorods/MnO2 nanowires for next-generation electrochemical energy storage. Journal of Electroanalytical Chemistry, 922 (2022): 116753. (IF = 4.1).

27. BiBi, Shagufta, Muhammad Zia Ullah Shah, Muhammad Sajjad*, Hafiz Zahid Shafi, B. Amin, Majed Bajaber, and A. Shah*. A new ZnO-ZnS-CdS heterostructure on Ni substrate: A binder-free electrode for advanced asymmetric supercapacitors with improved performance. Electrochimica Acta, 430 (2022): 141031. (IF = 5.5).

28. Ahmad, Syed Awais, Muhammad Zia Ullah Shah, Shams ur Rahman, Muhammad Arif, Jiansheng Lu, Taihong Huang, Awais Ahmad, Muhammad Sajjad* Facile synthesis of hierarchical ZnS@FeSe₂ nanostructures as new energy-efficient cathode material for advanced asymmetric supercapacitors. Journal of Science: Advanced Materials and Devices, 7, no. 4 (2022): 100489. (IF = 6.7).

29. Arif, Muhammad, Muhammad Zia Ullah Shah, Syed Awais Ahmad, Muhammad Sanaullah Shah, A. Shah, Ehsan Ullah, Taihong Huang, Jianhong Yi, Muhammad Sajjad*, and Peng Song. CdS Nanoparticles Decorated on Carbon Nanofibers as the First Ever Utilized as an Electrode for Advanced Energy Storage Applications. Journal of Inorganic and Organometallic Polymers and Materials (2023): 1-12. (IF = 3.9).

30. Shah, Muhammad Zia Ullah, Muhammad Sajjad*, Hongying Hou, Shagufta BiBi, and A. Shah. Hydrothermal synthesis of ZnO@ ZnS heterostructure on Ni foam: A binder-free electrode for high power and stable hybrid supercapacitors. Materials Letters 326 (2022): 132910. (IF = 2.7).

31. Shah, Muhammad Zia Ullah, Muhammad Sufyan Javed, Muhammad Sajjad*, A. Shah, Muhammad Sanaullah Shah, Shams ur Rahman, Arshad Mahmood, M. A. Ahmad, Mohammed A. Assiri, Hongying Hou. A Novel TiO2/CuSe Based Nanocomposite for High-Voltage (2.2 V) Asymmetric Supercapacitors. Journal of Science: Advanced Materials and Devices (2022): 100418. (IF = 6.7).

32. Sajjad, Muhammad, Abdul Jabbar Khan, Sayed M. Eldin, Asma A. Alothman, Mohamed Ouladsmane, Patrizia Bocchetta, Waqas Ul Arifeen, Muhammad Sufyan Javed, and Zhiyu Mao. A New CuSe-TiO2-GO Ternary Nanocomposite: Realizing a High Capacitance and Voltage for an Advanced Hybrid Supercapacitor. Nanomaterials 13 (2022), 123. (IF = 4.4).

2021年：

33. Sajjad Muhammad, Muhammad Zia Ullah Shah, Fazal Mahmood, Muhammad Sufyan Javed, Rabia Maryam, Furqan Ahmad, A. Shah et al. CdO nanocubes decorated on rGO sheets as novel high conductivity positive electrode material for hybrid supercapacitor. Journal of Alloys and Compounds 938 (2023), 168462. (IF = 5.8).

34. Muhammad Sajjad, Muhammad Zia Ullah Shah, Muhammad Sufyan Javed, Muhammad Sanullah Shah, Shah, Wen Lu, and Zhiyu Mao. A novel high-performance all-solid-state asymmetric supercapacitor based on CuSe nanoflakes wrapped on vertically aligned TiO2 nanoplates nanocomposite synthesized via a wet-chemical method. Journal of Energy Storage 55 (2022),105304. (IF = 8.9).

35. Muhammad Sajjad, Azhar Iqbal, M. Zia Ullah Shah, A. Shah, Sumreen Asim, Shaukat Khan, Mohammed A. Assiri, Muhammad Sufyan Javed, and Wen Lu. Low-temperature synthesis of 3D copper selenide micro-flowers for high-performance supercapacitors. Materials Letters (2022): 131857. (IF = 2.7).

36. Muhammad Sajjad, Khan MI, Cheng F, Lu W. A review on selection criteria of aqueous electrolytes performanceevaluation for advanced asymmetric supercapacitors. Journal of Energy Storage, 2021; 40:102729. (IF = 8.9).

37. Muhammad Sajjad, Lu W. Covalent organic frameworks-based nanomaterials: Design, synthesis, and current status for supercapacitor applications: A review. Journal of Energy Storage, (IF = 8.9).

38. Muhammad Sajjad, Recent Advances in SiO2 Based Composite Electrodes for Supercapacitor Applications. Journal of Inorganic Organometallic Polymers Materials 2021:1-19, (IF = 3.9).

39. Muhammad Sajjad, Fang Cheng, and Wen Lu. Research progress in transition metal chalcogenide-based anodesfor K-ion hybrid capacitor applications: a mini-review. RSC Advances 11, no. 41 (2021): 25450-25460. (IF = 3.9).

40. Muhammad Sajjad, & Lu, W. Honeycomb‐based heterostructures: An emerging platform for advanced energy applications: A review on energy systems: Electrochemical Science Advances, (2021), e202100075.

41. Muhammad Sajjad, Amin, M., Javed, M. S., Imran, M., Hu, W., Mao, Z., & Lu, W. Recent trends in transition metal diselenides (XSe2: X= Ni, Mn, Co) and their composites for high energy faradic supercapacitors. Journal of Energy Storage, 43 (2021), 103176. (IF = 8.9).

42. Muhammad Sajjad, Muhammad Sufyan Javed, Muhammad Imran, and Zhiyu Mao. CuCo2O4 nanoparticles wrapped in an rGO aerogel composite as an anode for a fast and stable Li-ion capacitor with an ultra-high specific energy. New Journal of Chemistry 45 (2021): 20751-20764. (IF = 2.7).

43. Muhammad Sajjad, & Lu, W. Regulating high specific capacitance NCS/α-MnO2 cathode and a wide potential window α-Fe2O3/rGO anode for the construction of 2.7 V for high-performance aqueous asymmetric supercapacitors. Journal of Energy Storage, 44 (2021), 103343, (IF = 8.9).

44. Muhammad Sajjad, Kang, K., Wu, Z., Ma, Y., Tao, R., & Qiu, L. Phosphine-based porous organic polymer/rGO composite anode and α-MnO2 nanowire cathode cooperatively enabling high- voltage aqueous asymmetric supercapacitors. Journal of Energy Storage, 40 (2021), 102772, (IF = 8.9).

45. Muhammad Sajjad, Ismail, J., Shah, A., Mahmood, A., Shah, M. Z. U., ur Rahman, S., & Lu, W. Fabrication of a 1.6 V hybrid supercapacitor developed using MnSe2/rGO positive electrode and phosphine based covalent organic frameworks as a negative electrode enables superb stability up to 28,000 cycles. Journal of Energy Storage, 44 (2021), 103318, (IF = 8.9).

46. Muhammad Sajjad, Tao R, Kang K, Luo S, Qiu L. Phosphine-Based Porous Organic Polymer/rGO Aerogel Composites for High-Performance Asymmetric Supercapacitor. ACS Applied Energy Materials, 4 (2021) 828-838. (IF = 5.4).

47. Muhammad Sajjad, Khan, Y., & Lu, W. One-pot Synthesis of 2D SnS2 Nanorods with High Energy Density and Long-Term Stability for High-Performance Hybrid Supercapacitor. Journal of Energy Storage, 35 (2021), 102336. (IF = 8.9).

48. Muhammad Sajjad, Tao R, Qiu L. Phosphine based covalent organic framework as an advanced electrode material for electrochemical energy storage. Journal of Materials Science: Materials in Electronics, 32 (2021), 1602-1615. (IF = 2.8).

49. Muhammad Sajjad, et al. Bismuth Yttrium Oxide (Bi3YO6), A New Electrode Material for Asymmetric Aqueous Supercapacitors. Journal of Inorganic and Organometallic Polymers and Materials 31 (2021), 1260-1270.(IF = 3.9).

50. Muhammad Sajjad, Rational Design of Self-supported Ni3S2 Nanoparticles as a Battery Type Electrode Materialfor High-Voltage (1.8 V) Symmetric Supercapacitor Applications, CrystEngComm, 23 (2021), 2869-2879. (IF = 2.6).