Research & Publications
Advancing Sustainable Engineering Through Science, Innovation, and Applied Research
Completed Research
Research Focus Areas
I actively contribute to interdisciplinary research at the intersection of civil engineering, environmental science, nanomaterials, and sustainability. My work focuses on developing innovative materials, assessing environmental risks, and advancing sustainable construction and water resource solutions through laboratory experimentation and field-based analysis.
Nanomaterials & Advanced Composites
Circular Economy & Eco-Friendly Coatings
Physicochemical & Ecotoxicological Analysis
Physicochemical Investigation of Groundwater Within the Confinement of Sargodha City and Remediation Pathways for Contaminants
Published – Q1 (W-Category Journal)
Groundwater contamination in Sargodha city is a critical environmental and public health concern due to the presence of organic, inorganic, radioactive, and biological contaminants. This study investigates the physicochemical properties of groundwater across a large spatial region to accurately assess water quality and identify pollution sources. The research evaluates contamination pathways and proposes remediation strategies to improve groundwater sustainability and public safety.
Key Contributions
- Groundwater sampling process
- Physicochemical testing setup
- Water quality parameter analysis
- Field survey locations
Publication Links
Fatima, I., Dawood, A., Khan, A. M., Kanwal, S., Bibi, Z., & Hussain, A. (2025).
The Piezoresistive and Self-Healing Capabilities of Graphene Oxide Nano-Reinforced Lightweight Pumice Concrete Under Dynamic Loading
This research investigates the integration of graphene oxide (GO) into lightweight pumice concrete to enhance piezoresistive sensing behavior and self-healing performance under dynamic loading conditions. The study evaluates mechanical performance, crack response, electrical sensitivity, and recovery behavior, demonstrating the potential of GO-based systems for smart and resilient construction materials.
On-going Research
Enhancing Durability and Reducing Carbon Footprint of Fly Ash Mortar Using Graphene Oxide Self-Healing Coatings
This research is a quantitative and observational study that investigates the enhancement of durability, crack-healing efficiency, and overall sustainability performance of fly ash mortar systems coated with graphene oxide, focusing on improving mechanical resilience, extending service life, and reducing the environmental impact of cement-based materials through advanced self-healing nanocoatings.
Trinanophotocatalytic Paint
A novel circular economy–based development of trinano photocatalytic paint, aimed at environmental remediation, antimicrobial performance, and sustainable surface engineering.
QA of Groundwater Contamination
An advanced investigation into groundwater pollution mechanisms through soil–water–geological interactions, emphasizing contamination migration and aquifer vulnerability.
Graphene Oxide in Natural Water Systems
A combined quantitative degradation analysis and qualitative ecotoxicity assessment evaluating graphene oxide behavior after antimicrobial activity in aquatic environments.
Why Select Abdul Muneeb Khan?
Technical Expertise
Strong command over engineering tools, materials, and project execution.
Research-Driven Approach
Decisions backed by data, laboratory analysis, and peer-reviewed research.
Multidisciplinary Skills
Engineering, research, design, and consultancy under one profile.
Client-Focused Delivery
Clear communication, accountability, and quality-driven outcomes.