Schroeder, Katharina

2025-02-03T14:13:23Z

2025-02-03T14:13:23Z

2024-04-04

<div class="csl-bib-body"> <div class="csl-entry">Schroeder, K. (2024, April 4). <i>Catalytic Innovations: Unlocking the Potential of Carbon Dioxide Utilization</i> [Keynote Presentation]. Max Planck Colloquium “Chemical and/or Physical Fundamentals of Process Engineering,” Magdeburg, Germany. http://hdl.handle.net/20.500.12708/210585</div> </div>

http://hdl.handle.net/20.500.12708/210585

The synergistic integration of organo-, transition metal, and photocatalysis has garnered increasing attention for its potential to foster groundbreaking transformations characterized by heightened reactivity, efficiency, and stereo control. Since its discovery in the nineteenth century, carbonylation chemistry has risen as a versatile cornerstone in chemical industries, assuming a pivotal role in both bulk and fine chemical synthesis. Nonetheless, the extensive reliance on carbon monoxide as a carbonyl source raises profound safety apprehensions due to its pronounced toxicity, particularly evident in large-scale transportation and application. Recent focus has shifted towards the valorization of carbon dioxide as an abundant, benign, and renewable carbon reservoir. Yet, the industrial integration of carbon dioxide as a raw material remains constrained, primarily due to the thermodynamic and kinetic challenges involved. Addressing this issue requires potent catalysts capable of overcoming these barriers. Photocatalysis, orchestrated with precise catalysts and reaction media, has emerged as a potent strategy for carbon dioxide utilization, effectively engaging and activating large quantities of this compound. This lecture will present diverse examples of photo- and photo electrocatalytic activation of carbon dioxide employing various co-catalysts, with the overarching aim of transcending extant hurdles in carbon dioxide utilization and ultimately revolutionizing traditional carbon monoxide-based carbonylation chemistry with innovative solutions. Central objectives encompass fundamental explorations and refinement of the ionic liquid-co-catalyzed photocatalytic reduction of carbon dioxide to yield carbon monoxide under mild conditions. Additionally, the reactivity of resultant carbon monoxide with diverse organic substrates in supercritical carbon dioxide will be discussed, culminating in the inception of streamlined and continuous processes for the direct synthesis of high-value fine chemicals from carbon dioxide.

European Commission

en

CO2 Utilization

Catalytic Innovations: Unlocking the Potential of Carbon Dioxide Utilization

Presentation

Vortrag

7465546 - 04/12/2019

Keynote Presentation

Kontinourliche Umsetzung von CO2 in ionischen Flüssigkeiten

E6

Sustainable Production and Technologies

100

E163-03-5 - Forschungsgruppe Nachhaltige organische Synthese und Katalyse

E056-09 - Fachbereich CO2 Refinery

0000-0002-2515-9873

Max Planck Colloquium “Chemical and/or Physical Fundamentals of Process Engineering”

02-04-2024

05-04-2024

Hybrid

Event for scientific audience

Magdeburg

DE

Schroeder, Katharina

Chemie

Chemische Verfahrenstechnik

Pharmazie, Pharmakologie, Toxikologie

1040

2040

3012

60

20

20

en

conference paper not in proceedings

none

no Fulltext

Publications

http://purl.org/coar/resource_type/c_18cp

E163-03-5 - Forschungsgruppe Nachhaltige organische Synthese und Katalyse

0000-0002-2515-9873

E163-03 - Forschungsbereich Organische und Biologische Chemie

European Commission

7465546 - 04/12/2019