Mr Aricson Pereira | Composite Materials | Industrial Impact Award

Mr. Aricson Pereira is an accomplished industrial engineer specializing in process optimization, automation, and lean manufacturing. He holds a Master’s in Chemical Engineering from the University of Louisiana at Lafayette and is currently pursuing a Project Management Certification at UC Berkeley. With extensive experience at Procept Biorobotics, Cepheid Inc., and JSR Micro Inc., he has led impactful projects, including ultrasonic welding optimization, industrial automation, and manufacturing process improvements. His innovations have saved millions in costs and boosted productivity, earning him multiple industry awards. His contributions continue to shape the future of industrial engineering. 🏆⚙️🚀

Mr Aricson Pereira, Procept Biorobotics, United States

Profile

GOOGLESCHOLAR

ORCID

SCOPUS

Education 🎓📚

Mr. Aricson Pereira holds a Master of Science in Chemical Engineering from the University of Louisiana at Lafayette (2012-2014) and a Bachelor of Engineering in Chemical Engineering from Pune University (2005-2009). His strong academic foundation in chemical and industrial engineering has enabled him to excel in process optimization, automation, and manufacturing systems. Committed to continuous learning, he is currently pursuing a Project Management Certification from UC Berkeley, further strengthening his expertise in industrial project management and leadership. His educational journey reflects his dedication to driving innovation in engineering and manufacturing. 🏆🔬🏭

Professional Experience 🌍🔬

Mr. Aricson Pereira is currently leading New Product Introduction (NPI) efforts at Procept Biorobotics, specializing in robotic surgery tools. He defines qualification strategies (IQ/OQ/PQ/EQ/PPQ) for new processes and equipment, optimizing process parameters through DOE (Design of Experiments) and statistical analysis. He collaborates with R&D and supplier engineering teams for product design, writes test plans, and ensures compliance with sterilization protocols. His expertise in Gage R&R, Process Capability Analysis (CpK/PpK), and pFMEA has helped develop robust validation plans (MVPs) for manufacturing lines. His key achievement includes leading the Hydros System launch, a milestone in robotic surgery. 🤖📊

Research Focus 🔬⚙️

Mr. Aricson Pereira’s research spans advanced materials, smart manufacturing, and industrial process optimization. His expertise includes electromagnetic wave absorption, nanomaterials for air pollution mitigation, and metamaterial-based selective reflective films. He explores MOFs, perovskite solar cells, and micro/nanobot fabrication for biomedical applications. His industrial research focuses on lean manufacturing, AI-driven inventory management, and sustainable sterilization technologies for medical devices. With a strong foundation in electrorheology and polymer composites, he integrates AI, machine learning, and automation in high-volume manufacturing and supply chains, making a significant industrial impact. His work bridges materials science, engineering, and smart manufacturing. ⚡🏭🤖

Publications 📚🔬

Rose-derived porous carbon and in-situ fabrication of cobalt/nickel nanoparticles composites as high-performance electromagnetic wave absorber
📖 Engineered Science, 2024
✍️ A. Pereira, W. Yu, Z. Wang, J. Lin, Y. Xiao, L. Zhu, J. Huang, Z. Guo, Y. Min

Electrorheology of diamond/PDMS nanofluids in steady and oscillatory shear
📖 Applied Rheology, 2014
✍️ A. Pereira, C. McIntyre

Simulation Calculation of Selective Reflective Films based on Metamaterials and Prediction of Color in Light Filter with Machine Learning
📖 Engineered Science, 2024
✍️ HZ Xiangtian Gao, Ming Yang, Aricson Pereira, Sijie Guo

Exploring the Potential of Transforming Sustainable Waste Thermoplastics into Liquid Petrochemicals
📖 ES Energy & Environment, 2024
✍️ ST Man Vir Singh, Aricson Pereira, Muneesh Sethi, Shashank Srivastav, Khalid …

Progress of MOFs and their derivatives for mitigating air pollution
📖 Advanced Composites and Hybrid Materials, 2024
✍️ X. Duan, A. Pereira, X. Chen, C. Li, E. Witherspoon, E. Burcar, Z. Wang …

Optimizing high-mix, high-volume advanced healthcare manufacturing: implementation and impact of the production wheel framework
📖 International Journal of Lean Six Sigma, 2025
✍️ R. Gurumurthy, A. Pereira, CM Laux

From Concept to Creation: Micro/Nanobot Technology from Fabrication to Biomedical Applications
📖 Engineered Science, 2025
✍️ H. Bahaar, A. Pereira, BS Kumar, SG Reddy, Z. Guo, TX Liu

🔥 Mr. Aricson Pereira’s research contributions span advanced materials, nanotechnology, AI-driven manufacturing, and lean production systems, making him a leading figure in industrial innovation and materials science. ⚙️🏭🤖

Shiqiao Liu | Composite Materials | Best Researcher Award

Dr Shiqiao Liu, Beijing Institute of Technology, China.

Dr. Shiqiao Liu is a PhD student at Beijing Institute of Technology, specializing in high-efficiency microwave absorbing materials. 🔬 His groundbreaking research focuses on developing advanced materials like reduced graphene oxide/cyanoethyl cellulose composites for microwave absorption and metasurface radiative cooling devices for dynamic thermal regulation. 🌍 Dr. Liu has published three SCI papers and presented his work at international conferences, showcasing his expertise and contributions to material science. 📚 With a passion for innovation, his work holds great promise for applications in electronics, energy efficiency, and environmental sustainability. 🌱 Dr. Liu’s dedication to research makes him a leading contender for the Best Researcher Award. 🏆

Educational Background

Dr. Shiqiao Liu is a dedicated PhD student at Beijing Institute of Technology, specializing in high-efficiency microwave absorbing materials. 🔬 His research focuses on developing innovative materials with enhanced electromagnetic properties, contributing to advancements in various fields, including electronics and energy. 🌍 So far, Dr. Liu has published three SCI papers, showcasing his deep knowledge and research expertise. 📚 Additionally, he actively participates in international conferences, where he presented his findings in an oral session, further establishing his reputation in the scientific community. 🗣️ With a strong academic background and commitment to innovation, Dr. Liu is making notable strides in his field. 🚀

Research Focus

Dr. Shiqiao Liu’s research primarily focuses on material science, with a particular emphasis on high-efficiency microwave absorption materials, thermal regulation, and photocatalysis. 🔬 His work involves developing advanced composites like reduced graphene oxide/cyanoethyl cellulose for microwave absorption and exploring novel metasurface radiative cooling devices for dynamic thermal management. 🌍 Additionally, he is researching the photocatalytic production of hydrogen peroxide using tailored materials like MoS2 nanosheets. ⚡ His innovative approach in dielectric tailoring and material design aims to enhance electromagnetic properties for applications in electronics, energy, and environmental sustainability. 🌱 Dr. Liu’s research contributes significantly to the development of functional materials for diverse industrial applications.

Publication Top Notes

Temperature-adaptive metasurface radiative cooling device with excellent emittance and low solar absorptance for dynamic thermal regulation

Reduced graphene oxide/cyanoethyl cellulose composite: An example of dielectric tailoring design for efficient microwave absorption materials

Modulate the Strong Exciton Effect by Na⁺ Coordination-Induced Trap States: Efficient Photocatalytic H₂O₂ Production

Auricularia-shaped MoS₂ nanosheet arrays coated hierarchical multilayer MoS₂/PPy/rGO composites for efficient microwave absorption

Facile hydrothermal process achieving 1T/2H phase tailoring of MoS₂ nanosheets for efficient microwave absorption

Absorber design based on In/C@Co/C composites for efficient microwave absorption

Interfacial Chemical Bond Engineering in a Direct Z-Scheme g-C₃N₄/MoS₂ Heterojunction

Enhanced Electromagnetic Absorption of Flake Carbonyl Iron/Reduced Graphene Oxide Composites

Conclusion

Dr. Shiqiao Liu’s impressive research trajectory, evidenced by his contributions to material science, particularly in advanced materials for electromagnetic absorption, thermal regulation, and photocatalysis, positions him as a leading contender for the Best Researcher Award. His work not only advances scientific understanding but also has tangible impacts on industrial applications, energy efficiency, and environmental sustainability.