Work with thought leaders and academic experts in Catalysis

Companies can greatly benefit from collaborating with academic researchers specializing in Catalysis. These experts can provide valuable insights and expertise to enhance research and development efforts, improve process efficiency, and unlock new opportunities for innovation. By partnering with a Catalysis expert, companies can gain access to cutting-edge research, advanced technologies, and specialized knowledge in the field. This collaboration can lead to the development of new catalysts, optimization of chemical reactions, and the discovery of novel applications. Additionally, working with a Catalysis expert can help companies stay ahead of competitors, address environmental challenges, and improve sustainability in their operations.

Researchers on NotedSource with backgrounds in Catalysis include Dr. Sakshi Kabra Malpani, Edward Elliott, Ph.D., Xiaolei Wang, Dr. Fantai Kong, Ph.D., Dr. David Siderovski, Ph.D., Cassondra Brayfield, Ph.D, and Keiran Thompson.

Dr. Sakshi Kabra Malpani

Redmond, Washington, United States of America
Researcher with 10+ years expertise in Organic Chemistry, Solid Waste Management, Heterogeneous Catalysis.
Research Expertise (6)
Renewable Energy, Sustainability and the Environment
Materials Chemistry
Organic Chemistry
Health, Toxicology and Mutagenesis
And 1 more
Hello, I am Sakshi Kabra Malpani, with 10+ years of experience as a green, organic chemist and lecturer. My overarching research interests revolve around solid waste management, utilization of industrial and natural wastes in the development of heterogeneous catalysts, and their further utilization in different industrially viable organic transformations, extraction of various useful metal oxides like silica, alumina from such wastes. I favor interdisciplinary approaches to solve the aforesaid issues and have incorporated synthetic green chemistry as well as material science and conventional organic chemistry approaches in my research. Post Ph.D., I continued my research work at my workplaces in the form of different student projects at college and postgraduate levels. I also describe my interest and activities in science communication. Three of my designed catalysts have been patented on my name, my research work got published in peer-reviewed journals and books, also I presented my results at different international and national conferences. My father was a College Lecturer, so, from the early stages of my life, I want to become a teacher, saying teaching is in my DNA. Stepping to freelance consulting job, I would like to use my novel training as both an organic and environmental chemist, to investigate environmental processes on a range of temporal and spatial scales. I understand being a scientist or researcher does not mean just being successful in research. At the same time, one should be excellent in his/her interactions with the community and the students, in his/her role to lead the academic society, and in responsibilities to transform the community and society. To this end, I have been engaged in several volunteer activities, such as a volunteer in National Service Scheme and Teach For India movement, guiding and encouraging students to apply for further studies, research fellowships, competitive exams.

See Full Profile

Xiaolei Wang

Raleigh, North Carolina, United States of America
R&D Scientist in biomedical imaging and surgical microscope development
Most Relevant Research Expertise
Other Research Expertise (19)
Optical imaging system development
image analysis algorithm development
Atomic and Molecular Physics, and Optics
Mechanics of Materials
Mechanical Engineering
And 14 more
I am an R&D Optical Scientist and Expert specializing in Optical Imaging and Optical Microscope Development for biomedical and clinical applications. With a background in Physics and over 15 years of experience in optical science and imaging, I am passionate about pushing the boundaries of what light can achieve in the realm of medicine and healthcare. My journey in the world of optics has led me to become a leader in the research and development of next-generation optical imaging products that have a profound impact on surgical procedures and patient outcomes. My areas of expertise encompass optical physics, optical microscopy, optical metrology, photonics, and computational modeling and simulation. I've had the privilege of sharing my insights through multiple peer-reviewed publications in prestigious journals like ACS Nano, Optical Letter, and Advanced Materials. Additionally, I hold certifications in machine learning and deep learning for image analysis, allowing me to harness the power of cutting-edge technology in my work.
Most Relevant Publications (1+)

33 total publications

Kinase phosphorylation monitoring with i-motif DNA cross-linked SERS probes

Chemical Communications / Jan 01, 2016

Ren, W., Damayanti, N. P., Wang, X., & Irudayaraj, J. M. K. (2016). Kinase phosphorylation monitoring with i-motif DNA cross-linked SERS probes. Chemical Communications, 52(2), 410–413.

See Full Profile

Dr. Fantai Kong, Ph.D.

Dallas, Texas, United States of America

See Full Profile

Dr. David Siderovski, Ph.D.

Fort Worth
Professor of Computational Pharmacology; Chair of HSC SBS Dept. of Pharmacology & Neuroscience
Most Relevant Research Expertise
Other Research Expertise (25)
Regulator of G protein Signaling (RGS) proteins
Molecular Biology
Cellular and Molecular Neuroscience
Molecular Medicine
And 20 more
Dr. David Siderovski is a renowned scientist and academic, with a career spanning over two decades. He received his Ph.D. in Medical Biophysics from the University of Toronto in 1997, where he specialized in signal transduction and cellular signaling pathways. After completing his doctorate, Dr. Siderovski held various faculty positions at prestigious universities, including the University of North Carolina at Chapel Hill, West Virginia University School of Medicine, and the University of North Texas Health Science Center. At these institutions, Dr. Siderovski has made significant contributions to the field of pharmacology through his research on G protein-coupled receptors (GPCRs) and RGS proteins, which are key regulators of GPCR cellular signaling. His work has helped to advance the understanding of RGS proteins and their roles in various diseases, including cancer, cardiovascular disorders, and neurological disorders. In addition to his research, Dr. Siderovski is also a dedicated educator and mentor. He has taught and mentored numerous undergraduate, graduate, and medical students, and has served as a mentor for postdoctoral fellows and junior faculty members. He is known for his passion and enthusiasm for science and his ability to inspire and guide the next generation of scientists. Dr. Siderovski has received numerous awards and honors for his contributions to the scientific community. He was the recipient of the Abel Award in 2004 from the American Society of Pharmacology & Experimental Therapeutics for his pioneering discoveries of the RGS proteins and the GoLoco motif. He has also served on editorial boards of several scientific journals (including a decade at *J.Biol.Chem.*) and has been a member of various scientific committees, NIH study section panels, and pharma/biotech advisory boards, including for Inspire, Wyeth, and BellBrook Labs. Overall, Dr. David Siderovski is a highly accomplished and respected scientist and educator, whose research has had a significant impact on the field of pharmacology. His dedication and passion for science continue to inspire and influence the next generation of researchers in this field.
Most Relevant Publications (1+)

94 total publications

Computational Design of the Sequence and Structure of a Protein-Binding Peptide

Journal of the American Chemical Society / Mar 09, 2011

Sammond, D. W., Bosch, D. E., Butterfoss, G. L., Purbeck, C., Machius, M., Siderovski, D. P., & Kuhlman, B. (2011). Computational Design of the Sequence and Structure of a Protein-Binding Peptide. Journal of the American Chemical Society, 133(12), 4190–4192.

See Full Profile

Cassondra Brayfield, Ph.D

Plantsville, CT, Connecticut, United States of America
Freshly minted doctor of Material Science and Engineering with industry and lean six sigma experience looking for a role in research and development innovating battery technology.
Most Relevant Research Expertise
Other Research Expertise (4)
Alternative Fuels
Battery Technology
Energy Harvesting and Storage
I have waited my whole life to write a cover letter like this. I have reached a time in my life where I feel I can suddenly see my path illuminate and the future course of my career come into focus. Since beginning my career working on a Material Science and Engineering Bachelor’s degree at Rensselaer Polytechnic Institute (RPI), I felt that I have been getting a sense for what areas in the field of materials engineering are important, which I am interested in, which are progressing excitingly, and which could use more focus. I have worked on many different projects and materials throughout my diverse career including engineering phosphors for use in lighting applications, a 3.5-year stint at Intel, working as a yield engineer for the production of a wide variety of semiconductor chip technologies, and a brief time as a fractography intern for Corning glass. It was not, however, until I worked with a little battery startup called BESS Tech in upstate New York that I really felt my career click into place. Hired as the fifth employee of a nascent battery-tech startup, I was, like everyone else, wearing a lot of hats. While the premise of the project seemed simple; test new anode morphologies to ascertain if performance can be improved, it sent me on many little journeys such as learning to chemically vapor deposit thin films, building coin cells in a glovebox, and analyzing cycle, efficiency, capacity, charge time and lifetime. This also led me to have the life-changing realization that the improvements we were observing in the data could have an incredible ripple effect of worldwide improved energy and environmental impact. This was when I decided I would get a PhD and dedicate the rest of my career to tackling the energy storage crisis that our planet finds itself in. At the University of California, Davis I once again furthered my education in Material Science and Engineering and focused my research on electrochemistry for energy harvesting and storage. Though, during my degree, I was not building battery cells per say, I *was* using three-electrode systems to either produce alternative fuels like hydrogen gas or liquid formate in the presence of an iron-based catalyst or to electrochemically deposit antimony selenide films onto a substrate for use as the absorber layer in PV solar cell devices. As I worked to perfect these electrochemical bench-top sized experiments, I kept in mind how these systems would scale up. I felt that the technology can be incredibly promising as small lab-sized batches, but it won’t make a difference to the public if it can’t be elegantly scaled-up to commercial manufacturing scale. Even at the academic lab scale, I utilized the lean six sigma yellow belt training I received at Corning and Intel to optimize my processes to save time, resources, waste, etc. I have developed a skill for optimizing systems as a whole and I use these tools to better my everyday life. With my newly acquired PhD knowledge and credentials I hope to spend the next 10 to 30 years of my career working toward greener, cleaner battery technologies. I believe that new battery and energy storage capabilities in general hold the secret to healing our environment and utilizing the incredible amounts of solar and wind energy that we have become so good at harvesting. I hope to experiment on and perhaps invent novel energy storage solutions such as easier-to-recycle batteries with longer lifetimes, greater capacity, and greener manufacturing methods because I believe that it is the best way to use my material science talent and passion to help the greatest amount of people. I hope that my passions align well with the goals of your company and that together we might truly leave a positive impact on the market, society, and the environment overall. We have the ability to save the planet and I would like to help. Sincerely, Dr. Cassondra Brayfield *Material Science and Engineering*            *[[email protected]                            ](mailto:[email protected])* *(860) 620-7042*

See Full Profile

Example Catalysis projects

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

Development of High-Performance Catalysts for Renewable Energy

Collaborating with a Catalysis expert can help companies develop high-performance catalysts for renewable energy applications. By leveraging the expertise in catalyst design and optimization, researchers can assist in the development of efficient catalysts for fuel cells, hydrogen production, and carbon capture technologies. This collaboration can contribute to the advancement of clean and sustainable energy solutions.

Optimization of Chemical Processes for Cost Reduction

Academic researchers specializing in Catalysis can collaborate with companies to optimize chemical processes and reduce production costs. By analyzing reaction kinetics, catalyst performance, and process parameters, experts can identify opportunities for process improvement and develop innovative solutions to enhance efficiency. This collaboration can lead to significant cost savings and improved competitiveness in the market.

Discovery of New Catalytic Reactions and Applications

Working with a Catalysis expert opens up possibilities for the discovery of new catalytic reactions and applications. Researchers can explore novel catalysts, reaction pathways, and reaction conditions to unlock previously untapped chemical transformations. This can enable companies to develop new products, improve existing processes, and expand into new markets.

Design and Development of Sustainable Chemical Processes

Collaborating with Catalysis experts can help companies design and develop sustainable chemical processes. By incorporating green chemistry principles and utilizing environmentally friendly catalysts, researchers can assist in the development of cleaner and more sustainable manufacturing processes. This collaboration can help companies reduce their environmental footprint, comply with regulations, and enhance their corporate social responsibility.

Troubleshooting and Catalyst Performance Evaluation

Companies facing challenges in catalyst performance or process efficiency can benefit from collaborating with Catalysis experts. These researchers can provide troubleshooting support, analyze catalyst deactivation mechanisms, and propose strategies for catalyst regeneration or improvement. By addressing performance issues, companies can optimize their operations, minimize downtime, and ensure consistent product quality.