Surface Science Queensland

I am fascinated by 1D nanostructured hybrid materials that are super sensitive to their environment. The potential applications of such materials are;  portable miniaturized sensors of biomedical applications, gas sensors, and energy storage devices. I enjoy the opportunity to contribute to this field of research.

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Education:

Postgrad:       MS. Mechanical Engineering (Micro fabrication) - Yeungnam University

Undergrad:    BSc. Mechanical Engineering - Bahauddin Zakariya University

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Current research:

Synthesis and Characterisation of Electrospun Hybrid Nanofibers for Gas Sensing. This aim of this research is the development of low-cost miniaturized gas sensors with high performance operation at room temperature. We hope to achieve this by employing highly porous hybrid nanofibres as a sensing layer.
 

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Publications:

Muhammad, Imran, Sahar M. Sana Ullah, and Tae Jo Ko. "Selection of optimum process parameters of biomachining for maximum metal removal rate." International Journal of Precision Engineering and Manufacturing-Green Technology 2.4 (2015): 307-313.

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Ullah, Sahar M. Sana, Imran Muhammad, and Tae Jo Ko. "Optimal strategy to deal with decision making problems in machine tools remanufacturing." International Journal of Precision Engineering and Manufacturing-Green Technology 3.1 (2016): 19-26.

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Imran, Muhammad, et al. "Digital maskless lithography capabilities for surface texturing with biomachining." The International Journal of Advanced Manufacturing Technology (2016): 1-11.

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Kumaran, S. T., Ko, T. J., Uthayakumar, M., Khan, M. A., & Muhammad, Imran, (2017). Some Experimental Investigations on Drilling AA (6351)-SiC-B4C Composite. Materials and Manufacturing Processes (publication pending)

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