Aim and Scope

Aim and Scope

Electronic Journal of New Materials, Energy and Environment (EJNMEE) is an open access peer-reviewed journal fully available to all readers (Electronic-only format). The journal publishes research articles and topical review articles. The scope of the journal is broad. It aims to disseminate new approaches and ideas in Material Science, Environmental Analyses and Monitoring, Nanophysics, Nanomaterials and nanotechnologies, Nanoparticles synthesis, Nanoparticles experiments, Terrestrial Ecology, Atmospheric Chemistry, Interactions of Pollutants in the Environment, Assessment of Risks of Pollution, Sustainable Energy Systems, Green Energy and Technology, Chemical Energy Systems, Hydrogen Energy, Air Products and Chemicals and new effective technologies by which save energy, natural and industrial catastrophes, protecting the environment, and solving ecological problems. We accept original works, both analytical and experimental, surveys, reviews, also encourage analysis of technologies with commercial aspects related to producing new materials for different applications. There are special issues for thesis and book prepublication and publications with corresponding discussions. We also encourage the authors for submission of short communications, i. e., fast publications including less than or equal to 4 pages. Special issues will be devoted to Conference proceedings and Collections of papers, Collections of abstracts of lectures, Collections of articles of general interest, Collections of articles of miscellaneous specific content, Proceedings of conferences of general interest, Proceedings of conferences of miscellaneous specific interest. In addition, the Journal offers Letters to the Editor, Book reviews and Scientific discussions.

We emphasize some topics of interest as  New Materials, Nanophysics, Nanomaterials and Nanotechnologies, New Energy Sources, Risk of Environmental Pollution; Processes in Metallurgy; Alloy Phases and Transformations; Mechanical Behavior of Materials; Physical Chemistry; Nanomaterials and Technologies; Environment; Welding and Joining; Surface Treatment; Electronic, Magnetic and Optical Materials; Solidification; Materials Processing; Composite Materials; Biomaterials; Bioelectrochemistry; Fuel Cells and Biofuel Cells; Photoelectrochemistry; Hydrogen Production.

Latest Papers

    • Ludmil Fachikov 
      Amorphous Phosphate Coatings on Steel Surfaces – preparation and characterization 
    • M. Hristova
      Prediction of the flash point of ternary ideal mixtures
    • Book Review by Alfons G. Buekens, Luc Hens
      Environmental Engineering: Principles and Practice 
      By Richard O. Mines, Jr.
  • Raising fluid walls around living cells 14th June 2019
    Cell culture plates that are in everyday use in biology can be effectively transformed into microfluidic devices, opening paths for biologists to miniaturize cell-based workflows. In a recent report, Ph.D. researcher Cristian Soitu and co-workers in the departments of Engineering Science and Pathology at the University of Oxford, Oxford, U.K., described a simple method to […]
  • Using carbon nanotubes to strengthen graphene-based membranes used for desalination 14th June 2019
    A team of researchers from China, the U.S. and Japan has developed a way to strengthen graphene-based membranes intended for use in desalination projects—by fortifying them with nanotubes. In their paper published in the journal Science, the group describes how they created their fortified membranes and how well the membranes worked when tested. Baoxia Mi, […]
  • Research reveals liquid gold on the nanoscale 13th June 2019
    The research published in Nature Communications set out to answer a simple question—how do nanoparticles melt? Although this question has been a focus of researchers for the past century, it still is an open problem—initial theoretical models describing melting date from around 100 years, and even the most relevant models being some 50 years old.
  • Researchers create uniform-shape polymer nanocrystals 13th June 2019
    A team of researchers from the University of Konstanz has demonstrated a new aqueous polymerization procedure for generating polymer nanoparticles with a single chain and uniform shape, which, by contrast to previous methods, involves high particle concentrations. A corresponding paper titled "Uniform shape monodisperse single chain nanocrystals by living aqueous catalytic polymerization" is set for […]
  • Opposite piezoresistant effects of rhenium disulfide in two principle directions 12th June 2019
    Using optical and electrical measurements, a two-dimensional anisotropic crystal of rhenium disulfide was found to show opposite piezoresistant effects along two principle axes, i.e. positive along one axis and negative along another. Piezoresistance was also reversible; it appeared upon application of a strain, but the relative resistance returned to its original value on strain removal. […]
  • Engineers design nanostructured diamond metalens for compact quantum technologies 11th June 2019
    At the chemical level, diamonds are no more than carbon atoms aligned in a precise, three-dimensional (3-D) crystal lattice. However, even a seemingly flawless diamond contains defects: spots in that lattice where a carbon atom is missing or has been replaced by something else. Some of these defects are highly desirable; they trap individual electrons […]
  • Solvent pH controls interactions of gold nanoclusters, offers potential applications in drugs and imaging 11th June 2019
    The properties of gold in nanoscale are significantly different to those of bulk gold. Of special interest are gold nanoclusters, that are composed of between tens to some hundreds of gold atoms. Numerous of such cluster structures are known and synthesizable to atomic precision. The aim of this thesis was to apply molecular dynamics simulations […]
  • Plot twist: Straightening single-molecule conductors improves their performance 11th June 2019
    A team at Osaka University has created single-molecule nanowires, complete with an insulation layer, up to 10 nanometers in length. When they measured the electrical properties of these nanowires, the researchers found that forcing the ribbon-like chains to be flat significantly improved their conductivity compared with a twisted conformation. The findings may allow for a […]
  • Tiny light box opens new doors into the nanoworld 11th June 2019
    Researchers at Chalmers University of Technology, Sweden, have discovered a completely new way of capturing, amplifying and linking light to matter at the nano level. Using a tiny box, built from stacked atomically thin material, they have succeeded in creating a type of feedback loop in which light and matter become one. The discovery, which […]
  • A bubbly new way to detect the magnetic fields of nanometer-scale particles 11th June 2019
    As if they were bubbles expanding in a just-opened bottle of champagne, tiny circular regions of magnetism can be rapidly enlarged to provide a precise method of measuring the magnetic properties of nanoparticles.