Green Chemistry Is An Area Of Chemistry Concerned With The Design And Implementation Of Chemical Products And Processes That Reduce Or Eliminate The Use And Generation Of Hazardous Substances. The Key Objectives Of Green Chemistry Are To Decrease Or Eliminate The Use And Generation Of Hazardous Substances In The Design, Manufacture And Use Of Chemical Products. To Guide The Design Of Products And Processes, Green Chemistry Makes Use Of Innovative Green Chemistry Principles Which Include Waste Prevention, Atom Efficiency, Design Of Less Hazardous Chemical Syntheses, Safer Chemicals And Products, And Energy Efficiency. The Main Goal Of Green Chemistry Is To Reduce The Amount Of Hazardous Substances Produced In The Processing Of Chemicals, While Maintaining Or Increasing Product Quality And Enhancing Production Efficiency. Green Chemistry Principles Are Applied To The Design And Development Of Chemicals And Processes In A Manner That Seeks To Reduce And Prevent The Formation Of Hazardous Substances. For Example, Green Chemistry Studies May Consider Changes To Chemical Formulation, Reaction Conditions, Waste Minimization And Other Innovations In Order To Maximize The Effectiveness Of A Process While Minimizing The Generation Of Toxic By-Products. Green Chemistry Also Encourages The Development Of More Sustainable Production Routes For Basic Chemicals And Materials. Traditional Production Processes Frequently Employ Large Amounts Of Energy, Hazardous Catalysts And Pollutants That May Be Difficult To Clean Up. Green Chemistry Seeks To Reduce The Environmental Impact Of Production Through The Use Of Renewable Energy Sources, Green Catalysts And Process Optimization. Green Chemistry Is A Rapidly Evolving Field With An Increasing Presence In The Production Of Everyday Products. Numerous Industries Have Adopted Green Chemistry Principles In Pursuit Of Improved Environmental Performance, Reduced Costs, And Improved Product Quality. Governments Around The World Are Promoting The Adoption Of Green Chemistry Principles To Create A More Sustainable Future.
Title : Eliminating implant failure in humans with nano chemistry: 30,000 cases and counting
Thomas J Webster, Brown University, United States
Title : Synthesis of chitosan composite of metal organic framework for the adsorption of dyes, kinetic and thermodynamic approach
Tooba Saeed, University of Peshawar, Pakistan
Title : Synthesis, ADMET, PASS, molecular docking, and dynamics simulation investigation of novel octanoyl glucoopyranosides & valeroyl ribofuranoside esters.
Hasinul Babu, University of Chittagong, Bangladesh
Title : Prospective polyoxometalate-based covalent organic framework heterogeneous catalysts
Arash Ebrahimi, Comenius University in Bratislava, Slovenia
Title : Utilizing Generative AI for Interactive Borane Modeling: Insights from Wade's Rule in Undergraduate Education
Mai Yan Yuen, The University of Hong Kong, Hong Kong
Title : Molecularly imprinted polymer-bimetallic nanoparticle based electrochemical sensor for dual detection of phenol iosmers micopollutants in water
Melkamu Biyana Regasa, Wollega University, Ethiopia