Muhammed Hisham

Muhammed Hisham
PhD
Cell Phone 07503830159
Location Tishk International University Erbil Branch Address 100 Meter Street and Mosul Road Erbil KRG IRAQ
Specialty Nanotechnology and applications
Pronouns He / Him / His

Muhammed Hisham

Physics Department

Position: Lecturer
Faculty : Education.
Researchgate | Google Scholar CV

BackgroundResearchPublicationsCourses
Education (PhD, MSc/MA, BSc/BA)

PhD

Teaching philosophy

 My teaching philosophy is that students learn the best when they are in a positive learning environment where they feel welcomed, comfortable, and safe with each other

Previous positions

Research Assistant

Research interests
  1. Nanotechnology
  2. Nano materials in green technology
  3. Sensitive sensors for environmental applications
Supervision

2 PhD students

1 Master student

6 bachelor students

Journals
1.       Husham, M. Hassan, Z., Mahdi, M.A., Selman, AM. (2012). Nanocrystalline CdS thin films growth on silicon substrates via microwave-assisted chemical bath deposition: synthesis and characterization, J Assoc Arab Universities for Basic and Appl Sci 11, 27-31.

2.       Al-janabi M.H., Jaafar M.S., Ramizy A., Omar K., Kassab, Y.W. (2013). Mitigation of workplace radon gas concentration using high-performance epoxy resin coating. International Journal of Low Radiation 9 (2), 119-126.

3.       Husham, M. Hassan, Z., Mahdi, M.A., Selman, AM., Ahmed, N.M. (2014). Fabrication and characterization of nanocrystalline CdS thin film-based optical sensor grown via microwave-assisted chemical bath deposition. Superlattices and Microstructures 67, 8-16.

4.       Husham, M. Hassan, Z., Mahdi, M.A., (2014). Effect of reagents molar concentration on CdS thin films properties grown by chemical bath deposition under microwave irradiation. Advanced Materials Research 925, 263-267.

5.       Selman, AM., Hassan, Z., Husham, M., Ahmed, N.M. (2014). A high-sensitivity, fast-response, rapid-recovery p–n heterojunction photodiode based on rutile TiO2 nanorod array on p-Si (1 1 1), Applied surface science 305, 445-452.

 

6.       Selman, AM., Hassan, Z., Husham, M. (2014).  Structural and photoluminescence studies of rutile TiO2 nanorods prepared by chemical bath deposition method on Si substrates at different pH values, Measurement 56, 155-162.

7.       Husham, M. Hassan, Z., Selman, AM., Allam, NK. (2015). Microwave-assisted chemical bath deposition of nanocrystalline CdS thin films with superior photodetection characteristics, Sensors and Actuators A: Physical 230, 9-16.

8.        Husham, M. Hassan, Z. (2015). Synthesis of nanocrystalline CdS thin films via microwave-assisted chemical bath deposition for highly photosensitive and rapid response photodetectors, Journal of Nanoelectronics and Optoelectronics 10 (6), 783-789.

9.       Husham, M. Hassan, Z., Selman, AM. (2016). Synthesis and characterization of nanocrystalline CdS thin films for highly photosensitive self-powered photodetector, The European Physical Journal Applied Physics 74 (1), 10101.

10.   Selman, AM, Husham, M. (2016). Calcination induced phase transformation of TiO2 nanostructures and fabricated a Schottky diode as humidity sensor based on rutile phase, Sensing and Bio-Sensing Research 11, 8-13.

11.   Husham M., Hamidon, Nizar, Paiman S., Abuelsamen A.A., Farhat O., Ahmed, Al-Dulaimi A. (2017).  Synthesis of ZnO nanorods by microwave-assisted chemical-bath deposition for highly sensitive self-powered UV detection application, Sensors and Actuators A: Physical 263, 166-173.

12.   M. Husham, Hassan, Z., AD, A. (2017).  Crystalline Lead Sulfide Thin Films using The Chemical Bath Deposition: Synthesis and Characterization, Science Letters 11 (2), 11-14.

13.   Husham M., Hamidon, Nizar, Hassan, Z., Al-Dulaimi, A. (2017).  Effect of Deposition Time on the Characteristics of Chemically Bath Deposited Nanocrystalline CdS Thin Films and Photodetection Properties, Journal of Nanoelectronics and Optoelectronics 12, 1–9.

14.   Husham M., Hamidon, Nizar, Hassan, Z., Ahmad, A.F., Al-Dulaimi, A. (2017).  Effect of Deposition Time on the Characteristics of Chemically Bath Deposited Nanocrystalline CdS Thin Films and Photodetection Properties, Journal of Nanoelectronics and Optoelectronics, 13 (4), 484-492.

15.   Thahe, Asad, A., Allam, Nageh K., Bakhtia, H., Bidin N., Hassan, Z., Qaeedd M.A., Ramizy A., Talib, Zainal A., Ahmed, M. N., Omar K., Alqaraghuli H., Husham, M. (2018). High-performance nanoporous silicon-based photodetectors, Optik, 168, 424–431.

16.   Al-Dulaimi, A., Hashim, S., Abdulrazak, L.F., Husham, M. (2018). Electrical conductive polyaniline in various nanostructures for corrosion inhibition of carbon steel, J. Mech. Eng. Sci, 12 (2), 3738-3749.

17.   Al-Dulaimi, A., Wanrosli, W.D., Abdulrazak, L.F., Husham, M. (2018). Preparation of nanocomposite polypyrrole/cellulose nanocrystals for conductive paper, Nordic Pulp & Paper Research Journal, 33 (2), 309-316.

18.   Omar F., Alkadar, M., Ganebr, M. Y., Elgwel, A. M., Husham, M. (2018). ANNEALING EFFECTS ON CHARACTERIZATIONS OF ZNO THIN FILMS ON FLEXIBLE AND NON-FLEXIBLE SUBSTRATES, Journal of Humanities and Applied Science.

Proceedings
  1. Husham, M. Hassan, Z., Mahdi, M.A., (2014). Effect of reagents molar concentration on CdS thin films properties grown by chemical bath deposition under microwave irradiation. Advanced Materials Research, 925, 263-267.
  2. Husham, M. Hassan, Z., Mahdi, M.A., Selman, AM. (2014). Nanocrystalline CdS thin films growth on silicon substrates via microwave-assisted chemical bath deposition: synthesis and characterization, International Journal of Technical Research and Applications, 2, PP. 11-13.
2020-2021
Research  Method
Semi Conductors
Technical English
General Physics
Sound and Waves
​Solid State Physics
Electronics
2019-2020
 1. Solid state physics (4th grade).
 2. Electronics (3rd grade).
  3. Technical English (2nd grade).
2018-2019
    1. Semiconductors (4th grade).
    2. Sound and waves motion (3rd grade).
  3. Research methodology (4th grade).
2017-2018