Mr.Aricson Pereira , Procept Biorobotics , United States.
Mr.Aricson Pereira is a chemical engineer and researcher with expertise in advanced materials, nanotechnology, and sustainable engineering. He holds a Master’s in Chemical Engineering from the University of Louisiana at Lafayette and a Bachelor’s from Pune University. Passionate about innovation, he has contributed extensively to high-impact research in metamaterials, MOFs, and nanofabrication. His work spans diverse applications, from electrorheology to AI-based thermal management in EVs. Currently pursuing a Project Management Certification at UC Berkeley, he continues to explore cutting-edge advancements in chemical engineering and material sciences. His research contributions have earned recognition in reputed journals and international conferences. 
Publication Profile
Education & Experience 
Master of Science in Chemical Engineering – University of Louisiana at Lafayette (2012-2014)
Bachelor of Engineering in Chemical Engineering – Pune University (2005-2009)
Pursuing Project Management Certification – UC Berkeley
Researcher & Author – Published in high-impact journals (Springer, De Gruyter, ES Energy & Environment)
Conference Presenter – Presented research at IEOM conferences in Washington DC, Germany, Tokyo, and Sydney
Industrial Experience – Focused on sustainable materials, AI-driven equipment monitoring, and advanced composites
Suitability Summary
Mr.Aricson Pereira, a distinguished chemical engineer, is a deserving candidate for the Manufacturing Excellence Award, recognizing his groundbreaking contributions to nanomaterials, sustainable manufacturing, and AI-driven industrial advancements. With an extensive portfolio of high-impact research publications, international conference presentations, and academic mentorship, Pereira has made significant strides in material science, energy efficiency, and smart manufacturing.
Professional Development 
Mr.Aricson Pereira is committed to professional growth through research, innovation, and continuous learning. With expertise in AI-driven chemical processes, metamaterials, and sustainable engineering, he has contributed significantly to high-impact journals and global conferences. His research on nanotechnology, electrorheology, and AI-assisted asset monitoring showcases his multidisciplinary approach. Currently advancing his knowledge through a Project Management Certification at UC Berkeley, he actively collaborates with experts worldwide. Aricson’s dedication to scientific advancements extends beyond academia, as he explores industrial applications of novel materials in energy storage, healthcare, and environmental sustainability. 
Research Focus 
Mr.Aricson Pereira research spans multiple cutting-edge domains in chemical and material engineering. His work on MOFs (Metal-Organic Frameworks) explores their potential for mitigating air pollution. In high-entropy materials, he investigates unique applications in advanced composites. His contributions to electrorheology involve nanodiamond/PDMS nanofluids and their behavior under oscillatory shear. He also explores metamaterials and AI-based predictions for selective reflective films. His research in battery thermal management for EVs and smart materials for biomedical applications underscores his multidisciplinary expertise. Aricson continues to push the boundaries of sustainable engineering, leveraging AI for innovative solutions in material science. 
Awards & Honors 
Co-Author of High-Impact Research Publications – Advanced Composites & Hybrid Materials (IF 23.1)
Recognized Speaker at International Conferences – IEOM (Washington DC, Germany, Tokyo, Sydney)
Published Research on AI-Driven Equipment Monitoring & Electrorheology in leading journals
Best Poster Presentation – AIChE Annual Meeting on Nanodiamond Rheology
Contributor to Sustainable Engineering Innovations – Transforming Waste Thermoplastics into Petrochemicals
Published Work in Top-Tier Journals – ES Energy & Environment, De Gruyter, and Springer
Publication Top Notes
- Progress of MOFs for Air Pollution Mitigation (2024) – Cited by: XX
- High-Entropy Materials and Their Unique Applications (2024) – Cited by: XX
- Electrorheology of Diamond/PDMS Nanofluids (2024) – Impact Factor: 5.6
- Effect of Absorber Layer Thickness on Perovskite Solar Cells (2025) – Cited by: XX
- A Study on Doping Silver Nanowires in Cesium Tungsten Bronze Thin Films (2025) – Cited by: XX
- From Concept to Creation: Micro/Nanobot Biomedical Applications (2024) – Cited by: XX
- Smart Manufacturing Technologies: Implementation & Review (2024) – Cited by: XX
- Artificial Intelligence-Based Thermal Management for EVs (2024) – Conference Paper
- Simulation of Selective Reflective Films Using AI (2024) – Cited by: XX
