Green Chemistry:
Green Chemistry is the study of chemical products and processes that decrease or eliminate the use or generation of hazardous substances. Green chemistry implements across the life cycle of a chemical product, including its design, manufacture, use, and supreme disposal.
Green chemistry also called sustainable chemistry, is an area of chemistry and chemical engineering focused on the design of products and processes that reduce or eliminate the utilization and generation of hazardous substances. While environmental chemistry concentrates on the effects of polluting chemicals on nature, green chemistry directs on the environmental influence of chemistry, including decreasing destruction of nonrenewable resources and technological approaches for preventing pollution.
Sustainable chemistry:
Sustainable chemistry is a scientific theory that seeks to develop the capability with which natural resources are used to satisfy human needs for chemical products and services. Sustainable chemistry includes the design, manufacture, and use of efficient, effective, safe, and more environmentally benign chemical products and processes.
Benefits of Sustainable Chemistry:
- The environmental and social benefits of sustainable chemistry involve:
- Avoiding the use of determined, bioaccumulative, toxic, and unless hazardous materials;
- Using renewable sources and minimizing utilization of non-renewable resources,
- Minimizing negative environmental impacts of chemical processing and production;
- Presenting technologies that are economically ambitious for and advantageous to industry.
Stanislaw Dzwigaj
Sorbonne University, France
Thomas J Webster
Interstellar Therapeutics, United States
Dai Yeun Jeong
Asia Climate Change Education Center, Korea, Republic of
Vladislav Sadykov
Boreskov Institute of Catalysis, Russian Federation
Beatrice Vincenti
Sapienza University of Rome, Italy
Haibo Ge
Texas Tech University, United States
Pengju Wu
School of Energy and Power Engineering Jiangsu University, China
Yaxin Su
Donghua University, China
Isabel Oller Alberola
Plataforma Solar de Almería, Spain
Majed Alamoudi
King Abdulaziz University, Saudi ArabiaSubmit your abstract Today
Title : Application of vanadium and tantalum single-site zeolite catalysts in catalysis
Stanislaw Dzwigaj, Sorbonne University, France
Title : 30,000 nano implants in humans with no infections, no loosening, and no failures
Thomas J Webster, Interstellar Therapeutics, United States
Title : Solar heterogeneous photocatalysis and photochemistry for urban wastewater regeneration and reuse
Isabel Oller Alberola, Plataforma Solar de Almería, Spain
Title : Personalized and Precision Medicine (PPM) as a unique healthcare model through biodesign-inspired & biotech-driven translational applications and upgraded business marketing to secure the human healthcare and biosafety
Sergey Suchkov, R&D Director of the National Center for Human Photosynthesis, Mexico
Title : Human impact on natural environment and its implications
Dai Yeun Jeong, Asia Climate Change Education Center, Korea, Republic of
Title : Effect of bed material on syngas quality: Comparison of biomass gasification with different bed materials
Enrico Paris, CREA-IT & DIAEE, Italy
Title : Valorizing lignocellulose to ethylene glycol: Catalysis, catalyst deactivation and conceptual process design
Jean Paul Lange, University of Twente, Netherlands
Title : Design of nanocomposite materials for active components of structured catalysts for biofuels transformation into syngas, catalytic layers of membrane reactors with oxygen/hydrogen separation and anodes of solid oxide fuels cells operating in the internal reforming mode
Vladislav Sadykov, Boreskov Institute of Catalysis, Russian Federation
Title : Cleaner syngas from biomass gasification: Is K-Feldspar the key?
Beatrice Vincenti, Sapienza University of Rome, Italy
Title : Scalable synthesis of the PEM electrolysis anode material
Inayat Ali Khan, University of Southern Denmark, Denmark