DUBLIN--(BUSINESS WIRE)--Research and Markets has announced the addition of the "Advancements in Artificial Photosynthesis Technologies" report to their offering.
This Future Tech TOE focuses on technology advances in artificial photosynthesis technologies. It provides an in-depth analysis of drivers, challenges, and analyst insights. Corresponding patents are also provided along with industry interactions.
The Future Tech TechVision Opportunity Engine (TOE) captures emerging innovations in research and development, or profile existing technologies which have seen a resurgence in terms of new markets and applications. It usually provides a technology overview, drivers, challenges, research and development, analyst insights and key patent information. In some cases, technology convergence scenarios and future growth opportunities are outlined. It covers innovations and technologies in a variety of industry spaces including manufacturing, sensors, electronics, information and communications technologies, networks, lighting technologies, healthcare, medical devices, materials and coatings, and developments in the energy sector that contribute toward a sustainable and greener world.
Key Topics Covered:
1. Artificial Photosynthesis - Converting Carbon Dioxide, Water, and Sunlight into Sustainable Fuel
- Technology Background
- Important Artificial Photosynthesis Schemes
- Drivers and Restraints
- Region-wise Technology Development Scenario
2. Key Programs and Innovations in Artificial Photosynthesis
- Bionic Leaf Transforms Sunlight to Liquid fuel
- Carbon Capture and Storage (CCS) using Artificial Photosynthesis
- Artificial Solar Leaf Produces Sustainable Fuel
- Revolutionary Leap Forward in Artificial Photosynthesis
3. Strategic Insights
- Strategic Insights for Artificial Photosynthesis Technology
4. The Road Ahead
- Technology Roadmap for Artificial Photosynthesis
- Recent Patents Related to Artificial Photosynthesis
- Industry Contacts
For more information about this report visit http://www.researchandmarkets.com/research/83x2gk/advancements_in