Strategic Objectives
• Master the principles of reticular chemistry to design bespoke materials.
• Understand the mechanics of pore-size control for absolute CO2 selectivity.
• Evaluate the advantages of solid-state adsorbents over volatile liquid solvents.
• Discover how functionalized surfaces can revolutionize industrial gas separation.
The Core Challenge
Traditional liquid-phase carbon capture is energy-intensive and inefficient, failing to meet the urgent demands of global climate targets.
01
The Architecture of Porosity
02
The Reticular Blueprint
03
Coordination Chemistry Essentials
04
The Science of Adsorption
05
Surface Area and Porosity
06
Selectivity by Design
07
Carbon Capture Realities
08
Beyond Liquid Solvents
09
Ligand Functionalization
10
Thermodynamics of Gas Uptake
11
Crystal Engineering and Symmetry
12
Hydrothermal Synthesis
13
X-Ray Crystallography
14
Porous Coordination Polymers
15
Gas Separation Kinetics
16
Chemical Stability and Robustness
17
Post-Synthetic Modification
18
Computational Modeling of MOFs
19
Industrial Scaling and Pelleting
20
Green Chemistry and Sustainability
21