Data-driven design of CO2 Capture and Conversion Materials

Data-driven Design of Porous Materials for CO2 Capture and Conversion

Our Vision

Develop a new generation of porous materials, specifically Metal-Organic Frameworks (MOFs) and their interfaced functionalized derivatives, for efficient and selective CO2 capture which is direct air capture (DAC) conditions followed by its conversion into valuable chemicals like formic acid or methanol.

Objectives And Goals

Identify promising materials for CO2 capture using computational tools.
Establish structure-property relationships through data analysis of existing MOF structures.
Design new materials with tailored features based on insights from data analysis.
Synthesize designed MOFs and derivatives using established or novel methods.
Thoroughly characterize materials using techniques such as X-ray diffractions and electron microscopy.
Develop novel porous MOFs with exceptional CO2 capture capacity and selectivity.
Emphasize regeneration capabilities at low pressure and temperature.

Achievements

1 Journal
4 Conference Publications

Our Team

Dr. Brahim Aissa

Role: HBKU/QEERI (LP)

Contact: info@example.com

Prof. Halima PI Bensmail

Role: HBKU/QCRI (PI)

Contact: info@example

Dr. Elumalai Palani

Role: HBKU/QEERI (Postdoc)

Contact: info@example.com

Contact Us

For inquiries or collaborations, feel free to contact us at info@example.com.