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欢迎投稿SCI期刊Frontiers in Chemistry, 中科院二区,IF 3.78已有3人参与
SCI收录开源期刊(Frontiers in Chemistry, 中科院二区,IF 3.78)目前接收关于Advanced Metal Oxide Nanomaterials for Energy Conversion方面的投稿。版面费APC费用按照文章类型有所不同具体为:
A-Type Articles: Clinical Trial, Hypothesis & Theory, Methods, Original Research, Policy and Practice Reviews, Review, Systematic Review, Study Protocol, Technology and Code, Registered Report US$ 2,490
B-Type Articles: Brief Research Report, Case Report, Community Case Study, Conceptual Analysis, Curriculum Instruction and Pedagogy, Mini Review, Perspective, Policy Brief US$ 1,150
C-Type Articles: Data Report, General Commentary, Opinion US$ 450
D-Type Articles: Book Review, Core Concept (Young Minds), Correction, Editorial, Field Grand Challenge, Focused Review, Frontiers Commentary, New Discovery (Young Minds), Specialty Grand Challenge. Free
A homepage has been created and can be found by following this link:
https://www.frontiersin.org/rese ... r-energy-conversion
目前投稿日期到2019年5月13日。
About this Research Topic
Sustainable energy sources such as solar, hydrogen, and biomass are crucial resources that act as effective supplements to non-renewable fossil fuels. In the near future, advances in technologies including catalysis, materials development, and engineering would promote the use of these sustainable new energy sources to replace traditional natural resources of coal, oil, and natural gas. Nanomaterials, especially metal oxides, play a vital role in the production and application of sustainable energy sources. The effectiveness of energy source utilization is highly dependent on the characteristics of the nanomaterials and utilization methods used. Various novel nanomaterials are thus explored for different methods of energy production and application, such as thermocatalysis, photocatalysis, and photoelectrocatalysis.
The aim of this Research Topic is to highlight and collect latest progresses in advanced metal oxides development for sustainable energy production and application by methods such as (but not limited to) thermocatalysis, photocatalysis, and photoelectrocatalysis, as well as advances in understanding the mechanisms of the transformation strategies over metal oxide nanomaterials through computational chemistry. The manuscripts featured would shed light on recent trends and emerging challenges towards the fabrication and characterization of metal oxide nanomaterials and their use in sustainable energy production and application. Specific subjects covered may include:
• Design and fabrication of novel metal oxide nanomaterials
• Mechanism of transformation strategies over metal oxide nanomaterials
• Development of catalysts with metal nanoparticles supported on functional oxides or composite oxides
• Metal oxides for hydrogen production by thermocatalysis, photocatalysis, photoelectrocatalysis, as well as hydrogen usage and storage
• Metal oxides used in the utilization of solar and renewable biomass to produce hydrogen or value-added chemicals
Important Note: All contributions to this Research Topic must be within the scope of the section and journal to which they are submitted, as defined in their mission statements. Frontiers reserves the right to guide an out-of-scope manuscript to a more suitable section or journal at any stage of peer review. |
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