Aim and Scope - Applied Research Frontiers
Applied Research Frontiers is an internationally peer-reviewed journal invites new experimental and theoretical results accompanied with computational modeling of all classes of applied materials. ARF is currently a bimonthly and open access journal synchronized by smart editorial board members for high quality rapid publication. The original articles on novel synthetic methods, structural analysis, physicochemical properties and characterizations of all classes of materials, and their related potential applications in various fields can be considered for publication. The Journal emphasis an interdisciplinary conjunction of physics, chemistry, and life science which eventually act a perfect platform for materials scientists, physicists, engineers, chemists, bio-technologists and various multidisciplinary specialists. The blending of these multidisciplinary fields directs to the new prospects of materials and its applications. The journal assists and seeks to publish full length research articles, communications, and critical reviews.
Discipline areas within the journal scope
- Metals and alloys
- Quantum structures (well, wire, dot)
- Computational materials modeling
- Composite and oxide materials
- Optical and optoelectronic materials
- Photonic and metamaterials
- Thin films, coating and fibers
- Electronic, magnetic and semiconductor materials
- Solid-state physics and chemistry
- Spectroscopy
- Energy storage and smart materials
- Sensors
- Engineering ceramics and glasses
- Biomedical
- Polymers
- Biophysical chemistry
- Biomaterials
- Physical organic and inorganic chemistry
- Multiferroics materials
- Rare earth and complex oxide materials
- Phosphers and thermoelectic materials
The Journal follows a simple and easy electronic submission system to benefit authors for the rapid publication of their research outcome. The authors can submit their manuscripts via our secure website. The submissions are initially checked by the Technical Team and moves around a vigorous peer-review process by our prominent high-profile editor-in-chief and associate editors for international quality and accuracy of the results.
Keywords
Crystal structure, ceramic, dielectric, polymer, composites, 1D, 2D and 3D materials, biomaterials, elasticity, nanomaterials, metal oxides, functional materials, high entropy materials, alloys, surfaces and interfaces, porous materials, soft materials, fuel cell, solar cell, photocatalytic, photoconductivity and photovoltaics, supercapacitor, thin films, coating, fibers, battery, optoelectronic materials, electronic materials, multiferroic materials, piezo electric materials, electromagnetic materials, semiconductor materials, superconductivity, biomaterial, sustainable materials, materials degradation, magnons, magnetic skyrmions, crystal growth, grain boundaries, hyperfine interactions, kinetics, order-disorder effects, phonons, quantum localization, spectroscopy, radiation effects, computer simulations, high-pressure, luminescence, spectroscopy, sensors and etc.