- Implemented research themes
- Study and development of nanostructured materials used in the design of gas detectors, hydrothermal synthesis.
- Functionalities and interactions of raw materials and packaging items
- Modeling and simulation in fluid mechanics
- Durable materials and vibrations
- Nanomaterials and composites
- Study of gunshot residues - application in the field of chemical ballistics
- renewable energy
- Aerodynamics, thermal transfers and nanotechnology
- Research and Technological Development Objectives
- This involves mastery of the development of microstructures by thermal projection, nanowires, modeling, nuclear analysis techniques for applications in the field of the environment, health and forensics.
- Study of the Arc-Fil thermal spraying process: Application to the deposition of protective layers”
- Thermal property of ceramic deposits made by thermal spraying.
- Antimicrobial effect of silicon nanowires
- Study of the incorporation of metals into thin layers of nano-structured Si by chemical means »
- Modeling of electromagnetic phenomena by hyperthermia induced by magnetic nanoparticles - Application to treatment by magnetic field generator in vivo on laboratory patients suffering from cancer.
- Study of ballistic shot residues (GSR: Gun Shot Residues)
- Evaluation of heavy metals using nuclear microanalysis techniques - Application to the study of atmospheric pollution
- Study of trace elements in the whole blood of patients suffering from Alzheimer's and Parkinson's pathologies using INAA technique
- Study of trace elements in the serum of patients with cancer pathologies using the XRF technique
- The use of lichens as bioindicators of air quality and their assessment as a part or segment of biodiversity:
- Qualitative and quantitative evaluation of the constituents of Pseudevernia furfuracea
- The evaluation of trace elements and selenium in particular in dates as fruits and as a staple food in Algeria
- Study on the application of magic gel for 3D dosimetry in conformal radiotherapy: case of prostate cancer.
- Adequacy of the initial program and its implementation in relation to the new scientific and technological knowledge to be acquired, mastered and developed by the laboratory:
- Mastery of knowledge in the development and characterization of nanowires and microstructures by thermal projection,
- Mastery of the application of nanowires in the environment, microbiology and oncology,
- Mastery of the evaluation of atmospheric pollution by heavy metals through bioindicators (Lichens), Mastery of GIS, Mastery of plume simulation,
- Mastery of modeling the geometry of cancerous tumors.
- Application of analysis and characterization techniques (SEM, XRF and NAA) in forensics
- Application of analysis techniques (XRF and INAA) in the field of health (Pathologies: Cancer, Alzheimer's, Parkinson's)