Journals in Particle technology
Journals in Particle technology
This collection encompasses particle formation, characterization, and process engineering for powders, aerosols, and suspensions. Featuring the latest research and industrial applications, it supports scientists and engineers in industries such as pharmaceuticals, materials, and energy. Addressing particle behavior, process control, and environmental considerations, these resources enable innovations in manufacturing, product quality, and process efficiency.
Advanced Powder Technology
International Journal of Science and Technology of Powder and Particulate MaterialsThe aim of Advanced Powder Technology is to meet the demand for an international journal that integrates all aspects of science and technology research on powder and particulate materials. The journal fulfills this purpose by publishing original research papers, rapid communications, reviews, and translated articles by prominent researchers worldwide.Advanced Powder Technology covers various areas, but a discussion of powder technology and particulate science is highly required in articles. The discussion should relate to new powder and particulate materials, novel techniques, and innovative processes, especially those having potential practical implications, and should bring new understanding of powder technology.Topics include:Dynamics and phenomena of powderPowder and particle characterizationProd... of powder and particulate materials in gases and liquids(nanoparticle... fine ceramics, pharmaceuticals, particle modification,novel functional materials, etc.)Powder handling and operations (comminution, storage, transport,granulatio... separation, fluidization, etc.)Aerosol and colloidal processingMeasuremen... and control of powder processesNumerical simulation method (CFD, DEM, Monte Carlo method,population balance, etc.)The editorial work of Advanced Powder Technology, which was founded as the International Journal of the Society of Powder Technology, Japan, is now shared by distinguished board members, who operate in a unique framework designed to respond to the increasing global demand for articles on not only powder and particles, but also on various materials produced from them.- ISSN: 0921-8831
Journal of Aerosol Science
An International JournalFounded in 1970, the Journal of Aerosol Science is the first journal dedicated to the science and engineering of particles and droplets suspended in gases. It serves an interdisciplinary community spanning engineering, physics, chemistry, environmental science, and related fields, with a focus on advancing fundamental understanding alongside enabling technologies.The journal publishes original research and reviews that deliver clear advances in the fundamental principles governing aerosol behavior or that introduce enabling concepts, methods, or measurements with broad relevance. Submissions should demonstrate rigorous analysis, strong connection to underlying physics and chemistry, and novelty that extends beyond incremental application or routine use of established approaches. Editorial decisions are based on technical quality, depth of insight, and contribution to the field’s foundations and future directions.ScopeThe journal welcomes contributions across three core areas, with emphasis on work that advances predictive understanding, links scales, or enables new capabilities.1. Fundamental Aerosol ScienceTransport, deposition, and multiphase dynamics; nucleation, condensation, and evaporation; particle charging and collision processes; radiative interactions; aerosol formation in reactive and non-equilibrium environments; cluster and nanoscale aerosol physics; chemistry, thermodynamics, and phase behavior; population balance and kinetic theory; and multiscale descriptions that bridge atomistic to continuum behavior.2. Applied Aerosol ScienceNew and novel aerosol-based synthesis and manufacturing, including scalable routes to functional materials; high-temperature and reactive aerosols such as soot and plasma systems; novel filtration, separation, and control technologies; new material discovery; aerosols in energy systems; bioaerosols, health, and inhalation science where new physical insight is demonstrated; and industrial processes involving particle formation, transformation, or transport.3. Instrumentation and Measurement MethodsNew or significantly advanced techniques for aerosol measurement, including mobility and mass analysis, optical and spectroscopic diagnostics, single-particle methods, and in situ probes for reactive or extreme environments. Contributions should provide demonstrable advances in capability, resolution, accuracy, or interpretability. Methods that integrate data science or inversion approaches are encouraged when they yield new physical insight or measurement capability.Emerging DirectionsThe journal particularly encourages work in areas shaping the future of aerosol science, including:• Multiscale and data-enabled modeling that connects atomistic processes to macroscopic behavior• Aerosol science in extreme conditions, including high temperature, high pressure, and plasma environments• Directed assembly and manufacturing of functional materials from aerosol building blocks• Coupled aerosol processes in energy, climate, and industrial decarbonization technologies• Next-generation measurement systems, including distributed sensing and real-time diagnostics with physical interpretability• Interfaces between aerosols and biological, chemical, or electrochemical systems where new mechanistic understanding is developedOut of ScopeThe journal does not publish work that primarily reports routine measurements, incremental extensions of established methods, or case-specific simulations without generalizable insight. Studies focused on environmental monitoring, source apportionment, or large-scale atmospheric modeling are better suited to journals dedicated to air quality and atmospheric chemistry unless they introduce new aerosol physics, chemistry or broadly applicable methodology. Instrumentation papers must demonstrate clear advances beyond existing techniques. Numerical studies must provide new theory, methods, or validated insight into aerosol behavior. Results from widely-available computational fluid dynamics software and built-in particle trajectory models are not appropriate for the Journal of Aerosol Science, unless the uniqueness and novelty of the approach employed is clearly evident.- ISSN: 0021-8502
Surface Science Reports
A Review JournalSurface Science Reports contains invited review papers on experimental and theoretical studies in the physics, chemistry and pioneering applications of surfaces, interfaces and nanostructures. It covers topics which contribute to a better understanding of basic phenomena occurring on surfaces and interfaces, but also the application of this knowledge to the development of materials, processes and devices. "Surfaces" is defined in this journal to include all interfaces between solids, liquids, polymers, biomaterials, nanostructures, soft matter, gases and/or vacuum. The journal also contains reviews of experimental techniques and methods used to characterize surfaces and surface processes, e.g. those based upon the interactions of photons, electrons and ions with surfaces.- ISSN: 0167-5729
