Environmental Nanotechnology Is An Emerging Field That Focuses On The Use Of Nanoscale Particles And Materials To Clean Up And Remediate Environmental Contaminants. These Nanomaterials Have Unique Properties Such As High Surface Area Which Can Facilitate The Adsorption Of Pollutants And Contaminants. They Also Have Proven To Be Effective In The Removal Of Metals From Wastewater. Additionally, Nanotechnology Can Be Used To Promote Specific Microorganism Activity To Degrade Toxins, Pollutants And Organic Compounds Such As Petroleum Hydrocarbons And Chlorinated Compounds. Bioprocessing Is Also Increasingly Used In Environmental Remediation. Bioprocesses Involve The Use Of Specific Organisms Or Organisms In Combination, Either In Vitro (In The Lab) Or In Situ (In The Natural Environment), To Degrade Or Sequester Environmental Contaminants Such As Petroleum Hydrocarbons, Pahs, Nitrates, And Heavy Metals. Some Of The Organisms Used In Bioremediation, Such As Bacteria And Fungi, Can Directly Degrade Toxic Compounds While Using Them As An Energy Source, While Other Organisms May Be Involved In Indirect Processes Such As Metal Sequestration Or Bioreduction. The Combination Of Nanotechnology And Bioprocessing Have Proven To Be A Highly Effective And Efficient Technology For Remediating Environmental Contaminants. Nano-Materials Can Be Used To Adsorb And Immobilize Pollutants, While Specific Bacteria Or Fungi Can Be Used To Break Down Contaminants. The Adsorption And Biotransformation Processes Have Been Shown To Be Faster And More Effective Than Conventional Methods When Used In Combination. Nanotechnology Can Also Be Used To Facilitate The Engineering Of Specific Configurations Of Bacteria Or Fungi To A Targeted Site And To Create A Habitat Or “Living Reactor” That Is More Efficient Than A Traditional Bioreactor. Overall, Nanotechnology Can Be A Powerful Tool To Remediate Environmental Contaminants And Bioprocesses Are Becoming Increasingly Effective For Environmental Remediation Processes. Through The Use Of Nanoparticles, Selective Bioremediation Techniques And The Engineering Of Specific Configurations Of Organisms, This Emerging Technology Can Help Protect The Environment And Promote A Healthy Planet.
Title : Rational design of battery cathode materials
Kyeongjae Cho, University of Texas at Dallas, United States
Title : Pharmaceutical chemistry studies of novel biologics and drugs for chronic obstructive pulmonary disease
Yong Xiao Wang, Albany Medical College, United States
Title : Theoretical modeling in organic nanophotonics: Processes and devices
Alexander Bagaturyants, Retired, Israel
Title : Hot atom chemistry - Past, present and future
Shree Niwas Chaturvedi, Centre for Aptitude Analysis and Talent Search, India
Title : Chemical engineering of vanadium, titanium or chromium zeolites for application in environmental catalysis
Stanislaw Dzwigaj, Sorbonne Université, France
Title : Distal functionalization via transition metal catalysis
Haibo Ge, Texas Tech University, United States