Ali Abo Hamad

PhD Candidate and Researcher at MIUN

As a PhD candidate and researcher at MIUN, I focus on improving silicon anodes for lithium-ion batteries, with expertise in material characterization and silicon powder production

Bakgrund

Combining my roles as a lab manager and optimization engineer, I've gained valuable insights into how materials are applied in real-world settings. With a background in chemical engineering, electrochemistry, and material characterization, I bring a wealth of knowledge to my current research at MIUN. Throughout my academic journey, I've honed my skills in tackling complex research challenges and driving innovation in the field of energy storage.

Forskningsområden

My work centers on developing and enhancing silicon-based anode materials for lithium-ion batteries, focusing on porous silicon, nanostructured silicon, silicon-carbon composites, and green silicon etching methods.

Forskning

I conduct research on the synthesis, characterization, and optimization of silicon-based anode materials to improve performance and lifespan in lithium-ion batteries.

Undervisning

In addition to research, I mentor students in their engineering physics projects to foster their development as future researchers and engineers

Övrigt

With a background as a lab manager and optimization engineer at SKF, I offer valuable expertise in laboratory management, optimization strategies, and materials characterization methods. My experience in silicon powder production and characterization has provided me with a deep understanding of material properties and processing methods. Integrating practical insights from industry into my academic work, I strive to drive impactful innovation at the nexus of industry and academia.

List of Publications:
1- Encapsulated deep eutectic solvent for esterification of free fatty acid

2- Deactivation and selectivity for electrochemical ozone production at Ni-and Sb-doped SnO2/Ti electrodes

3- The formation of hybrid carbon nanomaterial by chemical vapor deposition: an efficient adsorbent for enhanced removal of methylene blue from aqueous solution

4- Eutectic mixture-functionalized carbon nanomaterials for selective amperometric detection of nitrite using modified glassy carbon electrode

5- Functionalization of carbon nanotubes using eutectic mixtures: A promising route for enhanced aqueous dispersibility and electrochemical activity

6- Hybridizing carbon nanomaterial with powder activated carbon for an efficient removal of Bisphenol A from water: the optimum growth and adsorption condition

7- Ionic liquid-carbon nanomaterial hybrids for electrochemical sensor applications: a review

8- Functionalization of graphene using deep eutectic solvents

9- Potential applications of deep eutectic solvents in nanotechnology