5th Edition of
Chemistry World Conference
June 02-04, 2025 | Rome, Italy
Pure Chemistry
Pure Chemistry Is The Branch Of Chemistry Concerned With Understanding The Fundamental Properties Of Individual Pure Elements And Compounds, And How These Properties Combine To Form More Complex Substances. This Knowledge Is Essential To Many Industrial, Medical, And Scientific Processes. It Studies The Structures, Properties, And Reactions Of These Elements And Compounds, As Well As Their Interaction With Various Factors, Including Pressure, Temperature, Light, And Other Forces. Pure Chemistry Studies The Behavior Of Molecules, Including Their Structure, Reactivity, Energetics, And Chemical Interaction With Other Molecules. Chemical Models Are Used To Study This Behavior And To Predict The Properties Of Unknown Molecules. These Models Are Also Used To Explain The Physical Properties Of Elements, Such As Boiling Points, Melting Points, And The Ability To Conduct Electricity. The Term Pure Chemistry Is Often Used To Distinguish The Basic Elements And Compounds From More Complex Mixtures Of Compounds Found In Many Practical Applications. Chemistry Is A Very Diverse Field, And It Uses A Wide Range Of Techniques And Styles In Its Research. Pure Chemistry Covers Topics Such As Thermodynamics, Electrochemistry, Physical Organic Chemistry, Photochemistry, And Chemical Kinetics—All Of Which Study The Ways In Which Reacting Molecules Interact With One Another. It Also Focuses On The Reactions Of Elements And Their Products In Different States. Analysis Of Chemical Reactions, Such As Those Used In The Manufacture Of Pharmaceuticals, Food Products, And Household Items, Is Also A Major Part Of The Scope Of Pure Chemistry. Analysis Of Chemical Structure Is Important For Many Fields, Including Drug Discovery And Development And Industrial Production. A Key Example Of Pure Chemistry In Action Is Chemical Catalysis—The Process Of Using A Molecule Or Material To Speed Up A Chemical Reaction Without Itself Being Changed. This Process Helps Powder Coatings, Polymers, Fuels, And Many Other Products Achieve Their Desired Properties.
Yong Xiao Wang
Albany Medical College, United States
Hossam A Gabbar
Ontario Tech University, Canada
Stanislaw Dzwigaj
Sorbonne Universite, France
Haibo Ge
Texas Tech University, United States
Thomas J Webster
Hebei University of Technology, China
Makarov Vladimir
Institute of Permafrost Science, Russian Federation
Silvia Elizabeth Asis
Universidad de Buenos Aires, ArgentinaSubmit your abstract Today
Title : Advances in plasma-based waste treatment for sustainable communities
Hossam A Gabbar, Ontario Tech University, Canada
Title : Nanostructured biodevices based on carbon nanotubes and glyconanoparticles for bioelectrocatalytic applications
Serge Cosnier, Silesian University of Technology, Poland
Title : Carbon capture and storage: The impact of impurities in CO2 streams
Andy Brown, Progressive Energy Ltd, United Kingdom
Title : Supramolecular nano chemistries: Fighting viruses, inhibiting bacteria and growing tissues
Thomas J Webster, Hebei University of Technology, China
Title : Chemical engineering of vanadium and tantalum zeolites for application in environmental catalysis
Stanislaw Dzwigaj, Sorbonne Universite, France
Title : Disrupting TNF-α and TNFR1 interaction: Computational insights into the potential of D-Pinitol as an anti-inflammatory therapeutic
Ferran Acuna Pares, Universidad Internacional de la Rioja (UNIR), Spain