Company Filing History:
Years Active: 2005
Title: The Innovative Contributions of Malisa Troutman
Introduction
Malisa Troutman, an accomplished inventor based in Irvington, NY, has made significant strides in the field of chemistry. Her innovative approach to synthesizing various compounds has resulted in a patented technology that enhances the efficiency and effectiveness of chemical reactions.
Latest Patents
Troutman holds a patent for her invention titled "Arylation and Vinylation of Activated Carbons." This invention provides robust methods utilizing transition-metal-catalyst-based techniques for the arylation and vinylation of activated methyl, methylene, and methine carbons. The methods involve the use of aryl halides and vinyl halides, offering several advantages over existing techniques. Notably, her processes allow for the efficient synthesis of α-aryl and α-vinyl products under mild conditions from a wide variety of starting materials, including ketones, esters, hydrazones, and imines. Furthermore, this invention extends to an asymmetric application, enabling the production of enantiomerically-enriched chiral α-aryl and α-vinyl products.
Career Highlights
Troutman's work has been recognized in the scientific community, particularly through her affiliation with the Massachusetts Institute of Technology (MIT). Her innovative contributions in the realm of organic chemistry showcase her dedication to advancing scientific knowledge through practical applications.
Collaborations
Throughout her career, Malisa has collaborated with prominent figures in her field, such as Stephen L. Buchwald and John P. Wolfe. These collaborations highlight her engagement with leading researchers and her commitment to furthering scientific exploration.
Conclusion
Malisa Troutman's innovative work in the arylation and vinylation of activated carbons exemplifies the impact that dedicated inventors can have on the field of chemistry. Her contributions not only advance current methodologies but also pave the way for future research and developments in synthesis techniques.