Nanostructured Materials for CO2 Capture and Storage

Kai Scott; Adrian Adams; Riley Perez

Authors

Kai Scott
Adrian Adams
Riley Perez

Keywords:

CO2 Capture, Nanostructured Materials, Climate Change, Carbon Sequestration, Porosity

Abstract

The mitigation of climate change is critically dependent on the effective capture and storage of carbon dioxide (CO2). This article examines the role of nanostructured materials in enhancing CO2 capture efficiency. By leveraging high surface area and tunable porosity, these materials offer improved interactions with CO2 molecules. The study presents significant advancements in the design and application of nanostructures, which can potentially lead to more efficient and scalable CO2 sequestration solutions.

Author Biographies

Kai Scott

PhD
Tsinghua University
Haidian District, Beijing 100084, China

Adrian Adams

PhD
Sorbonne University
21 Rue de l'École de Médecine, 75006 Paris, France

Riley Perez

PhD
University of São Paulo
R. da Reitoria, 374 - Cidade Universitária, São Paulo - SP, 05508-220, Brazil

References

РІЗАК, Г. ВПЛИВ РІЗНИХ МЕТОДІВ СИНТЕЗУ НА ТОКСИЧНІСТЬ ТА ЕФЕКТИВНІСТЬ НОВИХ БІОЛОГІЧНО АКТИВНИХ СПОЛУК НА ОСНОВІ ТІЄНОПІРИМІДИНІВ. ПРОБЛЕМИ ХІМІЇ ТА СТАЛОГО РОЗВИТКУ Учредители: Publishing House Helvetica (Publications),(4), 15-24.

Nanostructured Materials for CO2 Capture and Storage

Authors

Keywords:

Abstract

Author Biographies

Kai Scott

Adrian Adams

Riley Perez

References

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