Plasma catalysis, a groundbreaking fusion of plasma physics and catalytic chemistry, holds immense promise in driving environmental transformation. By leveraging the unique properties of plasma—an ionized gas consisting of charged particles—this emerging technology offers a sustainable approach to address pressing environmental issues, ranging from air purification to renewable energy generation. The marriage of plasma and catalysis enables a synergistic effect, amplifying the efficiency and selectivity of chemical reactions. Unlike conventional catalytic processes that often require high temperatures and pressures, plasma catalysis operates at ambient conditions, minimizing energy consumption and reducing the need for costly infrastructure. This inherent flexibility makes it an attractive option for industries seeking greener alternatives to traditional manufacturing processes.
One of the primary applications of plasma catalysis lies in air pollution control. By subjecting pollutants such as nitrogen oxides (NOx) and volatile organic compounds (VOCs) to plasma-generated reactive species, harmful emissions can be efficiently converted into innocuous substances like nitrogen, water, and carbon dioxide. This not only improves air quality but also helps industries comply with stringent environmental regulations. Moreover, plasma catalysis offers a pathway towards sustainable energy production. Through processes like plasma reforming, carbon dioxide can be converted into valuable fuels or feedstocks, reducing reliance on fossil fuels and mitigating greenhouse gas emissions. Additionally, plasma-based technologies show potential in energy storage applications, enabling the conversion of renewable energy sources into storable forms for on-demand use.
Title : A desirable framework for establishing a resource circulation society
Dai Yeun Jeong, Jeju National University, Korea, Republic of
Title : Design of efficient and stable structured catalysts for biofuels transformation into syngas by using advanced technologies of nanocomposite active components synthesis, supporting on heat conducting substrates and sintering
Vladislav Sadykov, Novosibirsk State University, Russian Federation
Title : Effective B2O3 modified Ni/Al2O3 co precipitated catalysts for waste cooking oil transformation into green diesel
Eleana Kordouli, University of Patras, Greece
Title : Personalized and Precision Medicine (PPM) as a unique healthcare model through Bi-odesign-Inspired Bio- and chemical engineering applications to secure the human healthcare and biosafety: Engineering of biocatalysts - from evolution to creation
Sergey Suchkov, R&D Director of the National Center for Human Photosynthesis, Mexico
Title : Sonophotocatalysis in advanced oxidation process: A short review
Collin G Joseph, University Malaysia Sabah, Malaysia
Title : Development of CSM recovery methods based on their adsorption on biochar from lignocellulosic residues
Bintou Sanagare, Universite de Quebec a Trois-Rivieres , Canada