【工学类】SCI期刊专刊约稿信息4条

全文截稿: 2017-10-15

影响因子: 1.315

期刊难度: ★★★

CCF分类: 无

网址: www.journals.elsevier.com/journal-of-electrostatics

Electrohydrodynamics (EHD) is an interdisciplinary area of research encompassing electrostatics, non-thermal plasma, electrochemistry, electromechanics of particles, heat transfer and fluid mechanics. Many different mechanisms and phenomena can be used, but the flow of gas, or liquid, always requires application of the electric field. Although the first EHD phenomena were discovered by Faraday, the last two decades have witnessed intensive investigations and rapid developments in this area, caused by many important practical applications, such as flow control, heat transfer enhancement, EHD pumping, electro-spraying and many others.

This Call for Papers is addressed to researchers working in different areas of EHD, encouraging them to report their most recent original investigations in one dedicated issue of the Journal. The list of possible topics includes, but is not limited to:
- Ionic wind and EHD gas flow,
- Electroconvection,
- EHD aerospace applications,
- EHD pumping,
- Particle control and transport,
- EHD instabilities,
- EHD of two-phase flow,
- Electrified jets,
- EHD atomization and electrospraying,
- Electrostatic propulsion,
- Electrocapillarity and electrowetting,
- Electro-fluidization,
- Flow electrification,
- EHD pollution control,
- EHD microfluidics,
- EHD water treatment,
- EHD nanoparticle manipulation,
- EHD biomedical applications,
- Numerical techniques for EHD modelling,
- Electro-aerodynamics.

全文截稿: 2017-10-31

影响因子: 2.155

期刊难度: ★★★

CCF分类: 无

网址: www.journals.elsevier.com/international-journal-of-refractory-metals-and-hard-materials

Nanodiamond particles have gained considerable attention in the last few years as it has been considered to be one of the most promising nanocarbon materials for a variety of applications. Although its discovery dates back to the sixties of the 20th century the raise of research activity begun only much later. This is obviously also due to a number of highly complex questions regarding its structure, colloidal behaviour and reactivity. These include e.g. the nature of the surface groups, their influence on electronic properties, the formation and behaviour of lattice defects, the agglomeration of nanodiamond in different media from organic solvents to biofluids as well as the influence of surface orientation, termination and particle size for the reactivity towards organic and inorganic reaction partners.

This special issue is dedicated to these open questions regarding nanodiamond particles and highlights forefront research in the field of nanodiamond chemistry and physics. In particular, articles on novel surface chemistry, optical, electronic and magnetic, biomedical and physical properties and their control as well as applications of functional nanodiamond materials are invited. Furthermore, studies on the use of spectroscopic and other analytical tools for the in-depth analysis of nanodiamond’s properties are highly welcome.

This concise collection of papers on nanodiamond particles will gain high visibility and therefore highlight the research of the contributing groups.

全文截稿: 2017-12-15

影响因子: 4.784

期刊难度: ★★★

CCF分类: 无

网址: www.journals.elsevier.com/solar-energy-materials-and-solar-cells