Olefins are versatile building blocks readily accessed from petrochemical or biorenewable feedstocks. Transition metal catalysis offers the opportunity to unlock the unique reactivity patterns of olefins, providing a platform to convert them into useful building blocks for organic synthesis. This seminar will examine how consideration of the fundamental bonding interactions between olefins and metals and the elementary organometallic steps that ensue has fueled advances in selective catalytic olefin functionalization methodology and the design of bench-stable low-valent metal precatalysts for diverse synthetic applications.
Key Learnings
- Understand the fundamental bonding interactions between olefins and metals.
- Explore selective catalytic olefin functionalization methodology.
- Acquire knowledge about designing bench-stable low-valent metal precatalysts.
Speakers
Keary Engle
Scripps Research
PhD, Professor
Prof. Keary Engle is a distinguished chemist known for his groundbreaking contributions in the field of synthetic organic chemistry. He currently serves as a professor at The Scripps Research Institute. With a focus on developing innovative methodologies, Prof. Engle has made significant strides in the realm of catalysis and chemical synthesis. His research encompasses diverse areas such as C–H functionalization and C–N bond formation. Prof. Engle's pioneering work has been recognized worldwide, earning him numerous accolades and awards. Through his achievements, he continues to inspire and shape the future of organic chemistry.
Chemistry and synthesis
- Reaction design and optimization
Duración:1h
Idioma:English
Sesión 1:presentado March 12, 2024
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