Work with thought leaders and academic experts in physical theoretical chemistry

Companies can greatly benefit from collaborating with experts in Physical and Theoretical Chemistry. These researchers possess in-depth knowledge of chemical processes and can provide valuable insights into complex problems. Here are some ways companies can collaborate with academic researchers in this field: 1. Research and Development: Academic researchers can contribute to the development of new products and technologies by applying their expertise in Physical and Theoretical Chemistry. 2. Problem Solving: Companies facing challenges related to chemical processes can seek the assistance of experts to analyze and solve complex problems. 3. Process Optimization: Researchers can help optimize manufacturing processes by applying their knowledge of chemical reactions and thermodynamics. 4. Material Design: Academic researchers can assist in designing new materials with specific properties, such as improved durability or enhanced conductivity. 5. Data Analysis: Experts in Physical and Theoretical Chemistry can analyze large datasets to extract meaningful insights and patterns. 6. Quality Control: Researchers can contribute to quality control processes by developing analytical methods and ensuring product consistency. 7. Environmental Impact Assessment: Companies can collaborate with experts to assess the environmental impact of their processes and develop sustainable solutions. 8. Training and Education: Academic researchers can provide training and education to company employees, keeping them updated with the latest advancements in the field. By collaborating with academic researchers in Physical and Theoretical Chemistry, companies can gain a competitive edge, enhance their research capabilities, and solve industry-specific challenges.

Experts on NotedSource with backgrounds in physical theoretical chemistry include Keiran Thompson, Joshua Cohen, Aimee Eggler, Keisha Walters, Michael Hickner, Ammon Posey, Lang Qin, Ariel Aptekmann, Yuan Yang, basanti deopura, Giuliana Noratto, Mengying Li, Weijun Luo, Ph.D., Craig Hawker, Diego Bestel, Dr. Christopher Baryiames, Ph.D., Deep Jariwala, Samiul Amin, Oleg Kozlov, Ph.D., Christophe Schinckus, Sui Yang, Ryan Lefers, Zachary Schroeder, Ramesh Giri, Satya Avula, Gianfranco Santovito, Yayao Ma, Forough Jahanbazi, Matheus Ferraz, Eve Mozur, and Vartika Bisht.

Samiul Amin

Professor of Practice at University of Miami Professor of Practice and Director ECAP at University of Miami with expertise in Formulation Design, Rheology, Biosurfactants, Biopolymers and Materials Science.
Most Relevant Research Interests
Other Research Interests (60)
Complex Fluids
Protein Aggregation
Colloid and Surface Chemistry
And 55 more
With over 22 years of industry and academic experience in SoftMatter, colloids, and complex fluids, I am a Professor of Practice and Director of the Engineering Corporate Affiliate Program (ECAP) at the University of Miami. My mission is to bridge the gap between engineering education/research and industry needs, and to foster a culture of creativity, innovation, and entrepreneurship among students and faculty. I am also co-founder of FastFormulator a Formulation Design Lab developing novel sustainable formulations for a wide range of industries utilizing an integrated approach of High THroughput FOrmulation Automation/Advanced CHaracterization/AI-ML and based on deep colloid science/complex fluids insights. <br> As a leading researcher and consultant in formulation design and performance optimization of consumer, cosmetic, biopharmaceutical, and homecare products, I collaborate with multiple global companies and organizations to develop novel and sustainable solutions based on high throughput formulation, AI/ML, advanced characterization and novel sustainable materials. I also teach courses in polymers, surfactants, emulsions, rheology, tribology, and innovation management, and chair international conferences in my field of expertise. I am passionate about advancing the science and engineering of complex fluids and cosmetics, and sharing my knowledge and insights with the next generation of engineers and innovators.

Example physical theoretical chemistry projects

How can companies collaborate more effectively with researchers, experts, and thought leaders to make progress on physical theoretical chemistry?

Development of Advanced Batteries

An academic researcher in Physical and Theoretical Chemistry can collaborate with a battery manufacturing company to develop advanced battery technologies. The researcher can contribute to the design of new electrode materials, optimize the battery's performance, and analyze the electrochemical processes involved.

Drug Discovery and Design

Pharmaceutical companies can benefit from collaborating with experts in Physical and Theoretical Chemistry for drug discovery and design. These researchers can use computational methods to predict the behavior of drug molecules, optimize their properties, and accelerate the discovery process.

Catalyst Development

Companies involved in chemical manufacturing can collaborate with academic researchers to develop efficient catalysts. The researchers can use their expertise in Physical and Theoretical Chemistry to design catalysts with improved activity, selectivity, and stability, leading to more sustainable and cost-effective processes.

Environmental Remediation

Academic researchers in Physical and Theoretical Chemistry can collaborate with environmental consulting firms to develop innovative solutions for environmental remediation. They can apply their knowledge of chemical reactions and kinetics to design effective treatment methods for contaminated sites.

Optimization of Solar Cells

Renewable energy companies can collaborate with experts in Physical and Theoretical Chemistry to optimize the efficiency of solar cells. These researchers can analyze the electronic properties of materials, propose new device architectures, and improve the overall performance of solar energy conversion.