2.     Thin film design and fabrication

3.     Advanced electrochemical storage systems

4.     Materials synthesis and characterization

5.     Renewable energy resources

6.     Materials fabrication processes

7.     Heat treatment of materials

8.     Machine design and troubleshooting

9.     System synthesis and project organization

Current Designation:

MSc. : Mechanical Engineering

BSc. : Materials Engineering

Research Scientist

0558255342/0503145557

2.     Thin film design and fabrication

3.     Advanced electrochemical storage systems

4.     Materials synthesis and characterization

5.     Renewable energy resources

6.     Materials fabrication processes

7.     Heat treatment of materials

8.     Machine design and troubleshooting

9.     System synthesis and project organization

1. 1M EMI-BF4 modified electrolyte and Al₂O₃/PVDF-HFP modified PE separator couple achieves high capacitance retention and cycle stability in super-capacitors
2. The role of functional QDs materials in extending the life cycle performance of Li-S

Trainings Attended

1. Grant proposal writing workshop at Ghana Communication Technology University.

1. Boateng, B., Zhang, X., Zhen, C., Chen, D., Han, Y., Feng, C., Chen, N. and He, W., 2021. Recent advances in separator engineering for effective dendrite suppression of Li‐metal anodes. Nano Select, 2(6), pp.993-1010.
2. Boateng, B., Han, Y., Zhen, C., Zeng, G., Chen, N., Chen, D., Feng, C., Han, J., Xiong, J., Duan, X. and He, W. Organosulfur compounds enable uniform lithium plating and long-term battery cycling stability. ACS Nano Letters, 2020, 10.1021. 10.1021/acs.nanolett.0c00074
3. Shi, X., Sun, Q., Boateng, B., Niu, Y., Han, Y., Lv, W. and He, W. A quasi-solid composite separator with high ductility for safe and high-performance lithium-ion batteries. Journal of Power Sources 414 (2019): 225-232.
4. Han, Y., Ye, L., Boateng, B., Sun, Q., Zhen, C., Chen, N., Shi, X., Dickerson, J.H., Li, X. and He, W. Direct electrophoretic deposition of an ultra-strong separator on an anode in a surfactant-free colloidal system for lithium ion batteries. Journal of Materials Chemistry A. (2019): 1410-1417.
5. Boateng, B., Zhu, G., Lv, W., Chen, D., Feng, C., Waqas, M., Ali, S., Wen, K. and He, W. An efficient, scalable route to robust PVDF-co-HFP/SiO₂ separator for long‐cycle lithium ion batteries. Physica status solidi (RRL)–Rapid Research Letters 12, no. 10 (2018): 1800319.
6. Liu, J., Shi, X., Boateng, B., Han, Y., Chen, D. and He, W. A highly stable separator from an instantly reformed gel with direct post-solidation for long-cycle high-rate lithium-ion batteries. ChemSusChem (2019): 908-914.
7. Zhao, J., Chen, D., Boateng, B., Zeng, G., Han, Y., Zhen, C., Goodenough, J.B. and He, W. Atomic interlamellar ion path in polymeric separator enables long-life and dendrite-free anode in lithium ion batteries. Journal of Power Sources 451 (2020): 227773.
8. Waqas, M., Ali, S., Chen, D., Boateng, B., Han, Y., Zhang, M., Han, J., Goodenough, J.B. and He, W., 2019. A robust bi-layer separator with Lewis acid-base interaction for high-rate capacity lithium-ion batteries. Composites Part B: Engineering, 177, p.107448.
9. Waqas, M., Tan, C., Lv, W., Ali, S., Boateng, B., Chen, W., Wei, Z., Feng, C., Ahmed, J., Goodenough, J.B. and He, W. A highly-efficient composite separator with strong ligand interaction for high-temperature lithium-ion batteries. ChemElectroChem (2018): 2722-2728.
10. Waqas, M., Ali, S., Lv, W., Chen, D., Boateng, B. and He, W. High‐performance PE-BN/PVDF-HFP bilayer separator for lithium‐ion batteries. Advanced Materials Interfaces (2019): 1801330
11. Ali, S., Tan, C., Waqas, M., Lv, W., Wei, Z., Wu, S., Boateng, B., Liu, J., Ahmed, J., Xiong, J. and Goodenough, J.B. Highly efficient PVDF-HFP/colloidal alumina composite separator for high-temperature lithium‐ion batteries. Advanced Materials Interfaces (2018): 1701147.
12. Zeng, G., Zhao, J., Feng, C., Chen, D., Meng, Y., Boateng, B., Lu, N. and He, W.A flame-retardant bi-layer separator with multi-faceted van der Waals interaction for lithium-ion batteries. ACS Applied materials interfaces (2019) 11(29)
13. Ali, S., Waqas, M., Chen, N., Chen, D., Han, Y., Boateng, B., Xiong, J., Han, J. and He, W., 2019. Three-dimensional twisted fiber composite as high-loading cathode support for lithium sulfur batteries. Composites Part B: Engineering, 174, p.107025.

14.   Heng, G.,  Pu, B., Chen, H., Yang, J., Zhou, Y., Yang, J., Boateng B., Li, H., and Niu, X. “Surfactant-assisted solvothermal synthesis of pure nickel submicron spheres with microwave-absorbing properties.” Nanoscale research letters 11, no. 1 (2016): 1-16.

https://www.linkedin.com/in/bismark-boateng-phd-9319a123

https://scholar.google.com/citations?hl=en&user=gU9LdmwAAAAJ