The fight against climate change requires innovative solutions to reduce the levels of CO2 in the atmosphere. One promising approach is capturing carbon dioxide emissions directly from industrial sources and power plants before they can enter the atmosphere. Once captured, the CO2 can either be stored underground in geological formations or utilized in various applications such as enhanced oil recovery or the production of synthetic fuels. Carbon Capture, Utilization, and Storage (CCUS) offers a multifaceted solution to not only reduce emissions but also create valuable byproducts, contributing to a circular carbon economy. As technologies continue to evolve, CCUS has the potential to be an integral part of a global strategy to achieve net-zero emissions while supporting industrial growth and sustainability.
Hossam A Gabbar
Ontario Tech University, Canada
Gordon Huang
University of Regina, Canada
Tomayess Issa
Curtin University, Australia
Helena Belchior Rocha
ISCTE-Institituto Universitário de Lisboa, Portugal
Tirath Raj
University of Illinois Urbana Chaimpaign, United States
Anthony Fasulo
Toronto Metropolitan University, Canada
Rachele Carafa
Toronto Metropolitan University, Canada
Maria Concepcion Garcia Lopez
Facultad de Ciencias Químicas UANL, Mexico
Christoph Ellert
HES-SO Valais Wallis, Switzerland
Chitra Sulkan
Elecsome Pty Ltd, AustraliaSubmit your abstract Today
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Hossam A Gabbar, Ontario Tech University, Canada
Title : Using green chemistry routes to fabricate green n-type organic semiconductors for the transistor construction
Cristian Ravariu, Universitatea Politehnica Bucuresti, Romania
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Anthony Fasulo, Toronto Metropolitan University, Canada
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Ahmet Lokurlu, CEO, Germany
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Rachele Carafa, Toronto Metropolitan University, Canada
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Tirath Raj, University of Illinois Urbana Chaimpaign, United States
Title : Enhanced antibiotic detoxification from aqueous solution through graphene oxide adsorbents enriched with deep eutectic solvent
Anjali Goyal, Khalifa University, United Arab Emirates