Innovate and React Podcast Por Kevin Hares arte de portada

Innovate and React

Innovate and React

De: Kevin Hares
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Talking to scientist about their innovations in chemistry Ciencia Química
Episodios
  • The beginning and challenges of Natural Products in cancer treatments

    The beginning and challenges of Natural Products in cancer treatments
    Dec 30 2025
    This episode of Innovate and React explores the fascinating history of natural product research and its pivotal role in developing life-saving cancer treatments. The journey begins in the 1950s and 60s with the National Cancer Institute's efforts to screen thousands of plant extracts for biological activity. Through the stories of landmark compounds like camptothecin and Taxol, Kevin illustrates the complex collaboration required between botanists and chemists to isolate active ingredients from nature and transform them into viable medical therapies. The episode delves into the origins of Taxol, originally discovered in the bark of the Pacific Yew tree. You will learn about the significant hurdles researchers faced. From the tedious workup to supply chain restrictions caused by harvesting bark from slow-growing trees. Find out how chemists made Taxol a marketable drug and overcame these problems.
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    26 m
  • Turning Methane into Value-Chemicals via Photocatalysis

    Turning Methane into Value-Chemicals via Photocatalysis
    Nov 26 2025
    In this episode we discuss a novel and sustainable approach to converting methane into valuable chemicals. Currently light hydrocarbons like methane are often simply burned for energy, despite their potential as a carbon source for the chemical industry. Traditional conversion methods like natural gas cracking are energy-intensive, and other functionalization routes require harsh conditions and often toxic chemicals. Dr. Andrés Constantino sharess his research focusing on photocatalysis to achieve the direct functionalization of methane under milder conditions. The key to this method is a supramolecular catalytic system using FeCl3•6H2O and collidine. When irradiated, the catalyst generates a highly active chlorine radical that efficiently abstracts hydrogen from the inert alkane (methane) to form an alkyl radical. The collidine plays a crucial dual role, acting as a base to quench the resulting HCl and as a ligand that stabilizes the iron tetrachloride core. The radicals were used for allylation chemistry, which retains a useful olefin group in the product.
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    40 m
  • Sustainable Chemistry and Advances in Catalysis

    Sustainable Chemistry and Advances in Catalysis
    Nov 9 2025
    In this episode we discuss sustainable chemistry and the replacement of critical materials like platinum group elements with guest Dr. Soumyadeep Chakrabortty from the Max-Planck-Institute for Kohlenforschung. We delve into the importance of sustainability in chemical reactions, the role of catalysis, and the development of more benign and cost-effective catalysts. Soumyadeep shares his experiences with asymmetric hydrogenation and the creation of a new ligands for pharmaceutical applications. The conversation also touches on collaboration between academia and industry and the impact of high-throughput screening and AI on future catalysis research.
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    37 m
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