Titlebook: Carbon Dioxide Utilization to Sustainable Energy and Fuels; Inamuddin,Rajender Boddula,Anish Khan Book 2022 The Editor(s) (if applicable)

重力

https://doi.org/10.1007/3-540-44889-6e building materials, horticulture and microalgae production as well as mineral carbonation, oil and methane recovery and some direct uses. Cycling, closed and open pathways can be realized. Carbon dioxide utilization pathways ensuring a promising development in the next years are suggested.

輕信

,Ethylenediamine–Carbonic Anhydrase Complex for CO2 Sequestration,

門窗的側柱

Carbon Dioxide Utilization to Sustainable Energy and Fuels

offense

粗鄙的人

Enzymatic CO2 Conversion,t by employing several enzymes. The chapter explores opportunities and challenges associated with practicing such biocatalysts for converting CO. into value-added products. Moreover, the chapter offers an insight into the industrial application of CO. and its products.

并置

Electrochemical CO2 Conversion,to valuable solid-phase chemicals with added value. They include: nanoscale solid carbon of different structure and morphology (carbon nanotubes, fibers, graphene); fine tungsten and molybdenum carbide powders; double tungsten (molybdenum) carbides with cobalt and nickel.

Heterodoxy

Theoretical Approaches to CO2 Transformations, density functional theory (DFT) modeling is a powerful and efficient approach to explore the mechanisms of CO. conversion and investigate novel catalysts for more efficient CO. transformation. DFT-based approaches are valuable strategies to overcome the disadvantages of trial-and-error experimental

不法行為

Carbon Dioxide Conversion Methods, this respect, the literature related to carbon capture, recycling, and consumption routes. Pathways for the usage of both physical and chemical CO. are researched and main pathways are defined. The research is often reviewed to look at conditions for method development and success assessment.

POINT

火車車輪

Catalysis for CO2 Conversion; Perovskite Based Catalysts,used. Majorly, perovskites have been applied as catalysts for CO. reforming because they possess highly mobile oxygen molecules. This property is essential to suppress the formation of carbon during the reaction. Moreover, its stable nature in a reducing environment gives it an edge over other types