Advanced Energy Materials Market Analysis and Reports | Switzerland Conference Series

Market Analysis - Advanced Energy Materials 2019

Theme: Exploring the Advancement in Energy Materials for Resilient Future              

Summary:

Advanced Energy Materials 2019 provides platform for world-wide Researchers, Scientists, Professors, Engineers, and CEO’s of Energy Materials and Materials Science companies to share their research experience and indulge in interactive discussions on all aspects of Energy Materials, Solar Energy, Hydrogen Energy, Carbon Materials, Batteries and fuel cells. Join us for two intensive and interesting days of discussion on contemporary Energy Materials research.

Advanced Energy Materials provides wide range of sessions that discourse the current innovations and novel approaches for the expansion of energy materials to meet the global desires. Advanced Energy Materials 2019 covers major subjects such as fuel cells, organic and inorganic photovoltaic, batteries and super capacitors, Piezoelectronics, hydrogen generation and storage, thermoelectric, photo catalysis, solar fuels and thermosolor power.

The organizing committee of Advanced Energy Materials 2019 is arranging for an exciting and enlightening conference program this year also that embraces plenary talks, keynote lectures, oral presentations, symposia, workshops on diverse topics, poster presentations and exhibitions for participants from all over the sphere. We are pleased to invite you for this conference on Advanced Energy Materials and Research where you will be sure of having prominent experience from worldwide scholars.


For more details please visit: Energy Materials Conferences

Why Zurich ?

Zurich, the largest city in Switzerland is the capital of the canton of Zürich. The City is located in the northwestern tip of Lake Zurich and in north- central Switzerland. It has nearly 400,028 residents and so is a hub for roads, railways and air-traffic. Equally Zürich railway station and Airport are the largest and busiest in the country. The Zürich, was founded by the Romans in 15 BC who lastingly settled for around 2000 years, called it as Turicum. Through the middle ages, Zürich enlarged the sovereign and in 1519, converted into a chief centre of the Protestant Reformation in Europe under the management of Huldrych Zwingli. Numerous art galleries and museums are found in Zurich, which also includes the famous Swiss National Museum and the Kunsthaus.

Schauspielhaus Zürich is one of the most significant theatres in the German-speaking world. Zürich is the foremost international city and amongst the world's major financial centres regardless small population. Zurich is home to a great number of financial organizations and banking giants. Most of Switzerland's research and development centres are focused in Zürich because of low tax rates that fascinate foreign corporations to set up their headquarters there. Zurich was ranked first among the top 25 cities in the biosphere as per the “Quality of Life Survey” by Monocle’s 2012. Zürich was called as the city with finest quality of life in the world as per the numerous reviews from 2006. Zürich rank amongst the topmost habitable cities in the sphere by the Economist Intelligence Unit’s Gloabal Liveability Ranking.

Important and Scope

Energy is a part of Science in which materials technology plays an important role as Advanced Energy Materials to meet the needs of future environment. The increasing ecological problems such as energy storage, generation and conservation are the major drivers of Energy Materials technology. There is a need of developing sustainable energy production and consumption to achieve the socio economic and environmental targets.

The major significance of Energy helps in strengthening the research and advancement of materials for energy applications. The universal emphasis on energy is to develop materials for energy generation, low energy processing, energy conservation and conversion to meet the increasing energy demand of the country.

Advanced Energy Materials provides wide range of sessions that discourse the current innovations and novel approaches for the expansion of energy materials to meet the global desires. Advanced Energy Materials 2019 covers major subjects such as fuel cells, organic and inorganic photovoltaic, batteries and super capacitors, Piezoelectronics, hydrogen generation and storage, thermoelectric, photo catalysis, solar fuels and thermosolor power.

Why to attend?

Advanced Energy Materials-2019 offers an eccentric chance to meet and make new-fangled interactions in the field of Energy Materials, Materials Science and Engineering, by providing collaboration and break-out between sessions with valuable networking time. It aids delegates to have novel ideas, addressed on Energy Materials and Materials Science by renowned international professionals who are up to date with the progresses in Energy Materials and Materials Science field. This Global Advanced Energy Materials Conference assert knowledge with world prominent plenary speeches, keynote speakers, Young research forum, poster presentations, technical workshops and exhibitions

Major Energy Materials Societies and Association around the globe

  • The European Semiconductor Industry Association (ESIA)
  • Federation of European Materials Societies
  • Spanish Association for Composite Materials
  • European Materials Research Society
  • European Composites Industry Association
  • American Physical Society
  • Materials Research Society
  • American Chemical Society
  • International Association of Advanced Materials
  • Materials Research Society of Singapore
  • Australian Composite Structures Society
  • Chinese Society for Composite Materials
  • Japan Society for Composite Materials
  • European Optical Society
  • United Physical Society of Russian Federation
  • Optical Society of America (OSA)
  • IEEE Photonics Society
  • IEEE Lasers and Electro-Optics Society
  • International Society of Optical Engineering

Target Audience

  • Energy Materials Scientists/ Researchers
  • Materials Scientists/Research Professors
  • Physicists/Chemists
  • Junior/Senior research fellows of  Energy Materials/ Materials Science/ Nanotechnology
  • Energy Materials and Materials Science Students
  • Directors of chemical companies
  • Materials Engineers
  • Members of different Materials science associations.
  • Polymer Companies
  • Graphene Societies and Association

The International Automotive interior materials market depending on the type of material is projected to be USD 46.63 in 2018 and is predictable to develop at a CAGR of 3.5% to range USD 55.41 billion in 2023. The growing claim is recognized to the rising automotive industry in developing regions. The automotive interior materials engineering has worldwide performers such as India, China, Thailand and Brazil, where they are implementing several organic and inorganic approaches to enlarge their existence in evolving markets. The foremost players are Toyota Boshoku Corporation in japan, Lear Corporation in US, Adient plc in Ireland, Faurecia S.A in france.

As per the global forecast to 2023 on Cathode materials market, the value is predictable to reach USD 22.17 Billion at a CAGR of 6.2%, which was valued at USD 15.27 Billion in 2017. The base year of studying cathode materials market by battery type, material such as lithium ion, lead-acid is 2017 and the prediction period is 2018 to 2023. Certain significant companies of cathode materials comprise of Johnson Matthey in UK, Umicore in Belgium, 3M in US, Hitachi Chemical in Japan, Toda Kogya in Japan etc,. The cumulative demand for battery materials in several battery types is leading the development of the battery materials market. The value of universal battery materials market is predictable to be USD 43.50 Billion in 2018 and is expected to attain USD 65.78 Billion by 2023, at a CAGR of 8.62% in the middle of 2018 and 2023. The international battery materials market is driven by the upsurge in plea for EVs and numerous customer electronics.

Advanced functional material for low carbon applications has five major categories such as Ceramics, Composites, Energy Materials, and Conductive Polymers & Nanomaterials. These AFM materials have the capability to reduce the carbon emission from the parent material in which it is integrated. It uses energy more proficiently and discharges a small amount of CO2. The application of AFM materials has its use in automotive, durables, aerospace, energy, power and healthcare.

The automotive plastic materials market for passenger cars is likely to rise from USD 28.20 billion in 2018 to USD 47.33 billion in 2023, at a CAGR of 10.9% all through the prediction period. Automotive plastics are generally chosen for their capability to make automobiles less bulky and also to impart properties such as impact strength, mold-ability when compared to conventional automotive components. The growing demand for automotive in India and Thailand will fuel the advancement in automotive plastics across the globe. The locomotive ceramics materials such as Alumina Oxide ceramic, Titanate Oxide Ceramic, Zirconia Oxide Ceramic market value was USD 1.51 Billion in 2016 and is expected to reach USD 2.05 Billion in 2022, at a CAGR of 5.2% throughout the prediction period.

The circuit materials such as Conducting material, substrate and outer material market size is projected to be USD 30.58 billion in 2018 and is anticipated to range USD 36.85 billion by 2023, at a CAGR of 3.8% among 2018 and 2023. The development of circuit materials market can be accredited to their property of high conductivity which is growing their demand in the electronics sector.

The cathode materials market was esteemed at USD 15.27 Billion in 2017 and is estimated to reach USD 22.17 Billion by 2023, at a CAGR of 6.2% during the projection period. Specific of the main companies in the cathode materials market include Johnson Matthey in UK, Umicore in Belgium, 3M in US, Summitomo in Japan Mitsui Mining & Smelting in Japan etc., The power electronics materials market such as by device type (Discrete, Module and IC) and application is anticipated to increase from USD 39.03 Billion in 2018 to USD 51.01 Billion by 2023, rising at a CAGR of 5.5% between 2018 and 2023. The progression of this market is due to the advancement of power infrastructure and increasing demand for energy-efficient battery-power manageable devices. The increasing power consumption in developing regions is due to the enrichment of power infrastructure. Some of the major players in power electronics market are Texas Instruments in US, On Semiconductor in US, STMicroelectronics in Switzerland, Infineon Technologies in Germany, Maxim Integrated Products in US, Analog Devices in US, ROHM Semiconductor in Japan, Microsemi in US, Littelfuse in US etc.,

Global Battery Materials Contributions