02-19-2014, 12:39 AM
247th American Chemical Society (ACS) National Meeting & Exposition
Organisers: American Chemical Society
Dates: March 16th -20th, 2014
Location: Dallas, Texas, USA
Website: http://www.acs.org/content/acs/en/meetin...-2014.html
The website gives all the necessary information on conference agenda, hotel, exhibitions and other important facts. The conference brochure including preliminary programme is attached.
Major theme
“Chemistry & Materials for Energy”
Reasons to attend?
ACS meetings & expositions each year attract 11,000 to 13,000 chemists, chemical engineers, academicians, graduate and undergraduate students, and other related professionals.
Scientists present new multidisciplinary research, hear the latest information in their areas of professional interest, and network with colleagues.
Programming is planned by our 33 technical divisions that cover all scientific fields, secretariats that focus on multidisciplinary programming, and ACS committees.
Each meeting will feature more than 7,000 presentations organized into technical symposia that highlight important research advances.
Attendees will have the opportunity to:
• Discover New Research and Publish Your Work
• Advance Your Career
• Network with your peers
• Learn about New Technologies
Meeting topics
The conference brochure, including preliminary programme is attached and includes information on symposia relevant to biotechnologists. Meeting topics will also include:
• Catalysis for clean energy technologies:
biomass conversion; reduced emissions;
electrocatalysts for batteries, fuel cells, and artificial photosynthesis
• Harnessing the energy of the sun:
photovoltaic; solar thermal; solar fuels; artificial
photosynthesis, biomass conversion
• Materials for extremes:
corrosion resistant materials; materials for high T/P; next generation lightweight materials for transportation and other applications (e.g., carbon fiber, polymers, etc.)
• Nuclear materials and fuels:
fuel cladding, fuel recycle, radiation resistant materials (structural materials and concrete)
• Energy storage materials:
batteries and capacitors
• New materials and systems for the grid:
superconductivity; rare earths (substitutes,
recovery); grid-scale storage; generation technologies
• Materials for energy efficiency:
thermoelectrics, solid state lighting, building materials (insulation, coatings, roofing, windows)
• New technologies for enhanced recovery of fossil fuels
• CO2 sequestration and conversion
Organisers: American Chemical Society
Dates: March 16th -20th, 2014
Location: Dallas, Texas, USA
Website: http://www.acs.org/content/acs/en/meetin...-2014.html
The website gives all the necessary information on conference agenda, hotel, exhibitions and other important facts. The conference brochure including preliminary programme is attached.
Major theme
“Chemistry & Materials for Energy”
Reasons to attend?
ACS meetings & expositions each year attract 11,000 to 13,000 chemists, chemical engineers, academicians, graduate and undergraduate students, and other related professionals.
Scientists present new multidisciplinary research, hear the latest information in their areas of professional interest, and network with colleagues.
Programming is planned by our 33 technical divisions that cover all scientific fields, secretariats that focus on multidisciplinary programming, and ACS committees.
Each meeting will feature more than 7,000 presentations organized into technical symposia that highlight important research advances.
Attendees will have the opportunity to:
• Discover New Research and Publish Your Work
• Advance Your Career
• Network with your peers
• Learn about New Technologies
Meeting topics
The conference brochure, including preliminary programme is attached and includes information on symposia relevant to biotechnologists. Meeting topics will also include:
• Catalysis for clean energy technologies:
biomass conversion; reduced emissions;
electrocatalysts for batteries, fuel cells, and artificial photosynthesis
• Harnessing the energy of the sun:
photovoltaic; solar thermal; solar fuels; artificial
photosynthesis, biomass conversion
• Materials for extremes:
corrosion resistant materials; materials for high T/P; next generation lightweight materials for transportation and other applications (e.g., carbon fiber, polymers, etc.)
• Nuclear materials and fuels:
fuel cladding, fuel recycle, radiation resistant materials (structural materials and concrete)
• Energy storage materials:
batteries and capacitors
• New materials and systems for the grid:
superconductivity; rare earths (substitutes,
recovery); grid-scale storage; generation technologies
• Materials for energy efficiency:
thermoelectrics, solid state lighting, building materials (insulation, coatings, roofing, windows)
• New technologies for enhanced recovery of fossil fuels
• CO2 sequestration and conversion