Engineering
LIBS for composition analysis
LIBS can be used to determine the composition of oil and water in heavy oil production by analyzing the elemental signatures of hydrogen, carbon, oxygen, and trace metals.
Field of Expertise
1. Laser Material Processing
- Advanced techniques such as laser-induced breakdown spectroscopy (LIBS), laser shock peening, and laser surface texturing.
- Laser coating, cladding, and surface modification for enhanced wear resistance and corrosion protection.
2. Nanomaterials and Microfabrication
- Synthesis and manipulation of nanomaterials, including carbon nanotubes and graphene.
- Development of micro- and nanoscale structures using precision laser technologies.
3. Functional Surface Engineering
- Laser nanotexturing for creating superhydrophobic, anti-reflective, or thermally optimized surfaces.
- Applications in enhancing material properties for industrial and scientific use.
4. Laser Spectroscopy and Imaging
- Cutting-edge diagnostics and chemical sensing using Raman spectroscopy and laser-induced fluorescence.
- Biomedical imaging and material analysis for industrial and health-related applications.
5. Energy and Environmental Applications
- Hydrogen generation, storage, and materials for extreme environments (e.g., nuclear and high-temperature systems).
- Innovative solutions for water recovery from vapor emissions and other sustainable technologies.
6. Industrial Laser Systems
- High-precision laser machining and additive manufacturing for complex geometries and advanced materials.
- Tailored laser solutions for industrial needs, including custom system design and deployment.
7. AI and Laser Integration
- Intelligent laser systems optimized with AI for real-time monitoring and adaptive control.
- Machine learning applications in inspection and diagnostics to enhance process efficiency.
8. Green and Sustainable Technologies
- Environmentally friendly applications such as laser-assisted waste treatment and energy-efficient manufacturing.
Expertise
Specialize in advanced laser technologies for material processing, nanotechnology, and sustainable solutions. Their expertise encompasses laser-induced breakdown spectroscopy (LIBS), laser shock peening, and surface nanotexturing to enhance material performance in industrial and scientific applications. They are pioneers in integrating AI-driven optimization with laser systems for precision manufacturing, diagnostics, and environmental technologies, including hydrogen generation and water recovery from vapor emissions. With a focus on innovative applications, their work bridges cutting-edge research and practical solutions for energy, aerospace, biomedical, and advanced manufacturing industries.