New York Professional Events List


2nd International Conference on Energy Materials and Fuel Cell Research (CSE)


Date
Aug 27, 2021 - 08:00 AM - Aug 28, 08:00 AM
Organizer
conference series
Location
320, Washington St

Newton,
MA,
USA,
ZIP: 00000
Phone:

2nd International Conference on Energy Materials and Fuel Cell Research

About Conference

The EMFC 2020: 2nd International Conference on Energy Materials and Fuel Cell Research is going to be held on August 27-28, 2020 in Boston, Massachusetts, USA which aims to bring together leading academic scientists, researchers and research scholars to exchange and share their experiences and research results on all aspects of Advanced Energy Materials, Hydrogen Energy and Fuel Cell Technology with the Theme: Generation of Energy Evolution for Sustainable Future. EMFC Conference 2020 has become a premier event to connect professionals, scientists, academics, and students in the energy industry and provides a premier interdisciplinary platform to present and discuss the most recent innovations, trends, and concerns as well as practical challenges encountered and solutions adopted in the fields of Energy Materials and Fuel Cell Technology. Conference Series LLC Ltd organizes 3000+ Global Events with over 1000+ Conferences, 1000+ Symposiums and 1000+ Workshops in USA, Europe & Asia with support from 1000 more scientific societies and publishes 700+ Open access journals which contains over 100000 eminent personalities, reputed scientists as editorial board members. The 2-days conference at Boston will become a must-attend event for the Energy and Fuel Cell Industry to hear about future infrastructure projects plans, government strategies and market-leading innovation. We invite you to contribute and help to shape the Energy Materials and Fuel Cell Research Congress through submission of your research abstracts, papers and e-posters. More changes have occurred recently in the global energy sector since 100 years prior. In its 2nd edition, the EMFC Conference 2020 will be exploring enabling technologies for the future of clean energy, energy digitization, and existing energy infrastructure. We will bring together leaders and visionaries from industry, government, the scientific community, and the private sector that are looking at the entire value chain in a holistic way and can speak about and debate the development of these complex changes, which are redefining the future of energy worldwide. Why it is in Boston? Boston is one of the oldest cities and is the capital and most populous city of the Commonwealth of Massachusetts in the United States. It has become the latest city to commit to running on 100% renewable energy. It’s plenty of museums, historical sights and abundance of live exhibitions for these reasons the city gets 16.3 million visitors a year, making it one of the ten most prominent visitor areas in the nation. Boston is surrounded by the "Greater Boston" region. Boston is sometimes called a "city of neighborhoods" as a result of the bounty of differing subsections; the city government's Office of Neighborhood Services has authoritatively assigned 23 neighborhoods. Boston has a humid continental climate. Boston's schools and colleges apply a huge effect on the territorial economy. Boston pulls in more than 350,000 understudies from around the globe, who contribute more than US$4.8 billion every year to the city's economy. Boston has been known as the "Athens of America" for its abstract culture, procuring notoriety for being "the scholarly capital of the United States." Target Audience: Materials Scientists/Research Professors/ Nanotechnologists Physicists/Chemists Junior/Senior research fellows of Materials Science/ Nanotechnology Materials Science Students Directors of materials and Hydrogen & Fuel Cell companies Material Engineers & Environmental Engineers Members of different Materials science associations Members of Hydrogen & Fuel Cell associations Members of different nanotechnology associations Associations of Energy Departments

Sessions and Tracks Conference Series LLC Ltd conference invites all the participants across the globe to attend “2nd International Conference on Energy Materials and Fuel Cell Research’’ during August 27-28, 2020, at Boston, Massachusetts, USA. Energy Materials 2020 that includes prompt keynote Speaker, presentations, oral talks, poster presentations and exhibition. Theme of Energy Materials 2020 conference is “Generation of Energy Evolution for Sustainable Future" with an objective to encourage young minds and their research abilities by providing an opportunity to meet the experts in the field of Engineering. Energy Materials events are designed to explore various applications in different fields of Energy and Fuel Cell Technology. Energy Materials 2020 Tracks Content: Track 1. Advanced Materials for Energy In the search for alternative energy sources, we need to make new discoveries in materials science. We need catalysts to convert feedstock’s into fuels, new architectures for better solar cells and materials for advanced energy storage, including lithium batteries. New high-tech materials are key to breakthroughs in biology, the environment, nuclear energy, transportation and national security. Energy Materials is making revolutionary advances in the science of materials discovery and synthesis. Our ultimate goal is to be able to design new materials with useful properties—one atom at a time. Track 2. Fuel Cell Technology Whereas the 19th century was the century of the steam engine and the 20th century was the century of the internal combustion engine, it is likely that the 21st century will be the century of the fuel cell. Full cells are now on the verge of being introduced commercially, revolutionizing the way we presently produce power. Fuel cells can use hydrogen as a fuel, offering the prospect of supplying the world with clean, sustainable electrical power. This Track discusses the history of fuel cells, fuel cells for NASA, alkaline fuel cells for terrestrial applications and PEM fuel cells. Fuel cell applications in transportation, distributed power generation, residential and portable power are discussed. The science of the PEM fuel cell and the direct methanol fuel cell will be discussed. Track 3. Advanced Nanomaterials The comparatively recent shift toward exploitation nano technology with regard to the capture, transfer, and storage of energy has positive economic impacts on society. The management of materials that nano technology offers to scientists and engineers is one amongst the vital aspects of nano technology. Nano technology in energy materials is exhibiting raised potency of lighting and heating, increased electrical storage capability, and a decrease in the quantity of pollution from the utilization of energy. Advantages like these build the investment of capital in R&D of nano technology a prime priority. Track 4. Hydrogen Economy and Alternative Fuels Hydrogen is the most abundant element in the universe and a promising solution to the world's oil dependence. Hydrogen has many applications in the energy market. First, because of hydrogen's combustive nature, it can be used directly in an internal combustion engine, replacing the need for automotive gasoline. Second, it can be stored in fuel cells to create electricity, providing another power source for a vehicle. They are also used to power and heat buildings. Third, it can replace natural gas in its application to heating and cooling homes. In addition, it could also be used to turn the turbines that bring electricity to homes. With applications in distributed generation and electric vehicles, the hydrogen economy is a revolutionary new field that has the potential to change how we live. Track 5. Advances in Materials Science and Engineering We thought long and hard over advances in materials science over the last 50 years. We sought the advice of our editorial advisory panel and asked leaders in the field to add their own contributions. We hope the results are interesting and thought-provoking. In making the final selection, we have tried to focus on the advances that have either changed our lives or are in the process of changing them. Should an advance alter all our daily lives, or does fundamentally changing the research arena count? What about discoveries that can be clearly attributed to a certain date and investigator, or those developments that have come about incrementally through the efforts of many? Where does materials science stop and electronics, physics, or chemistry begin? Track 6. Advanced Solar Energy Materials This track intents to eventually cover the main aspects of the science of energy materials and devices that are paving the road towards the highly effectual, stable organic and organic-inorganic hybrid solar cells necessary for mass production; Contributions concerning materials synthesis, photophysics, device physics, modeling and any related issues will be discussed. It aims to provide an interdisciplinary global opportunity for researchers, educators, technocrats, students, engineers and industry to present their latest research results, innovations, products and activities. Track 7. Electric, Hybrid, and Fuel-Cell Vehicles With the advent of more stringent regulations related to emissions, fuel economy, and global warming, as well as energy resource constraints, electric, hybrid, and fuel-cell vehicles have attracted increasing attention from vehicle constructors, governments, and consumers. Research and development efforts have focused on developing advanced powertrains and efficient energy systems. This Track reviews the state of the art for electric, hybrid, and fuel-cell vehicles, with a focus on architectures and modeling for energy management. Although classic modeling approaches have often been used, new systemic approaches that allow better understanding of the interaction between the numerous subsystems have recently been introduced. Track 8. Green Energy Materials This track aims to provide a platform for knowledge sharing as well as creating favorable atmosphere for collaboration initiations in the field of Green Energy Materials. The broad scope brings together a wide range of research areas including Synthesis, Characterization, Modifications/functionalization and applications of Green Energy materials as well as Materials for energy saving and sustainability. Track 9. Batteries and Energy Storage World-renowned researchers are working in overdrive to develop advanced energy storage technologies to aid the growth of the U.S. battery manufacturing industry, transition the U.S. automotive fleet to plug-in hybrid and electric vehicles, and enable greater use of renewable energy. We are building upon our historical leadership in battery research to create a broad platform for demonstrating the development program centered on advanced energy storage materials and systems for both mobile and stationary applications. Track 10. Graphene and 2D Energy Materials This Track aims to be a unique platform for leading scientists, researchers, scholars and engineers from academia, R&D laboratories and industry around the world to exchange, share and learn the most recent advancement on various aspects related to fabrication, characteristics and application of grapheme and 2D materials. Track 11. Biomaterials and Surface Science Engineering Functional bio nano materials like carbon nanotubes (CNTs), graphene, fullerenes, soft, polymeric nanoparticles, metal organic nano materials, self-assembled and supramolecular nanostructures, and their derivatives have distinctive physico-chemical properties like catalytic, dielectric, optical and mechanical. Applications are sensors, drug delivery, proteomics and biomolecular electronics. Especially, their biological applications have furthered elementary understanding of bio molecular systems like vesicles, viruses and cells, stimulated design of nano materials with biological functions. The last ones are ordinarily referred to as bioinspired nanomaterials or biomimetic. Track 12. Electrical, Optical and Magnetic Materials Materials are characterized into mechanical, thermal, electrical, optical and magnetic properties. Materials that exhibit special and unique optical and magnetic effects are utilized in various industries and in fundamental and pure research. The near future holds breakthrough dimensions in optics and photonics fields. Take the example of semiconductors recently; The applications of semiconductors in energy saving systems embrace superior sensible grid, electrical power transmission, transformers, power storage devices, fault current limiters, etc.. Replacing vehicle chassis with lighter weight materials by increasing strength to weight ratio is being researched. Track 13. Fuel Cell Materials, Methods and Manufacture Solid oxide fuel cells (SOFCs) are the most efficient known energy conversion device for producing electricity from a variety of fuels, including renewable biomass, hydrogen, or natural gas, with no pollution-forming emissions. However, their use remains severely limited by high costs, as well as by low durability and reliability. Current projects are aimed at lowering the cost and improving the durability of fuel cells through the use of new materials and processing techniques to produce fuel cells more rapidly using a process that is easily scaleable for mass production. Work is also focused on understanding the electrochemical performance and degradation behaviour of SOFCs, in order to develop strategies to increase their durability. Track 14. Fuel Cell Market Introduction The demand for fuel cells is being driven by an increasing awareness and demand for zero emission energy sources. The global fuel cell market is segmented firstly on the basis of its applications such as portable, transportation, and stationary applications. Secondly, it is segmented on the basis of technology such as Polymer/Proton Exchange Membrane (PEM) Fuel Cell, Direct Methanol Fuel Cell, Phosphoric Acid Fuel Cell, Solid Oxide Fuel Cell, and Molten Carbonate Fuel Cell, among others. Lastly, the market is segmented on the basis of geography such as North America, Europe, Asia-Pacific, and Rest of World. Each region has been analyzed with respect to its market trends, growth, and future prospective of the fuel cell market. The data has been analyzed during the period 2012 to 2020. The global fuel cell market size is estimated to reach $5.20 billion, by 2020. The unit shipments of fuel cells are expected to increase from 62,197 units in 2013, to 214,369 by 2020. Track 15. Fuel Cell Vehicles and Stationary Power Fuel cell vehicles (FCVs) have the potential to significantly reduce our dependence on foreign oil and lower harmful emissions that contribute to climate change. FCVs run on hydrogen gas rather than gasoline and emit no harmful tailpipe emissions. Several challenges must be overcome for them to be competitive with conventional vehicles, but their potential benefits are substantial. Stationary fuel cells are now emerging as a true alternative to combustion heat engines for the production of electrical power and the co-generation of a thermal product. This is happening at a time of great change in the thinking about the generation of power with new products at the point of use offering the promise of reliability, power quality, lower operating costs, remarkably higher system efficiency, and the production and utilization of direct current. These stationary fuel cells take advantage of heat that would otherwise be wasted and also run very quietly and emit virtually no pollutants.

Please contact the event manager Marilyn (marilyn.b.turner(at)nyeventslist.com ) below for: - Multiple participant discounts - Price quotations or visa invitation letters - Payment by alternate channels (PayPal, check, Western Union, wire transfers etc) - Event sponsorship NO REFUNDS ALLOWED ON REGISTRATIONS Prices may go up any time. Service fees included in pricing. ----------------------------------------------------------------- This event is brought to you by: Conference Series. - NewYorkEventsList http://www.NyEventsList.com http://www.BostonEventsList.com http://www.SFBayEventsList.com -----------------------------------------------------------------

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