Mesoscience & Nanotechnology

The Journal of Mesoscience and Nanotechnology is a peer-reviewed scientific journal that publishes original research articles, reviews, and perspectives in the field of interdisciplinary science, primarily focusing on the fundamental aspects, design, and synthesis of advanced materials at both the molecular and mesoscopic levels. The journal provides a platform for scientists, engineers, and other researchers to share their innovative ideas, discoveries, and advancements in the rapidly evolving fields of synthesis, characterization, fabrication, and applications of novel nanomaterials and mesoscale structures.

Journal scope

Mesoscience & Nanotechnology is a peer-reviewed interdisciplinary journal that publishes original research articles, letters, reviews, methods and perspectives across all fields of physics, chemistry, materials science, and related disciplines, focusing on processes and materials at the nano- and mesoscopic levels. The journal provides an open-access and free-of-charge platform for the fast communication of scientists, engineers, and other researchers in the rapidly growing areas of mesoscience and nanotechnology. Mesoscience & Nanotechnology welcomes both experimental and theoretical papers that emphasize the in-depth understanding of nano- and mesoscale physics, the reporting of new phenomena (especially for letters), and linking the fundamental results with practical applications.

Key topics covered in the journal include, but are not limited to

  • Superconductivity/Superconducting Devices
  • Nanoelectronics/Nanotechnology
  • Surfaces/Interfaces
  • Functional Materials/Fabrication and Properties
  • Quantum Physics and Materials
  • Topologically Protected Electronic Phenomena
  • 2D Materials and Devices
  • Quantum Dots
  • Low-dimensional Magnetism
  • Strongly-correlated Electronic Systems
  • Heterostructures and Superlattices
  • Ferroelectricity
  • Thin Films
  • Neuromorphic Systems
  • Nanobiotechnology
  • New Methods

Article types

  • Article
  • Review
  • Letter
  • Perspectives
  • Methods

Editorial Board

Editor in Chief
Expert in quantum mesoscopic physics and nanotechnology
Associate Editors
Expert in quantum-dimensional phenomena, scanning probe microscopy, superconductivity in mesoscopic and hybrid systems
Expert in the theory of superconducting and magnetic mesoscopic systems
Expert in high-frequency research methods for magnetic and superconducting quantum systems
Expert in experimental condensed matter physics of correlated electron systems
Expert in 3D micro-/nano-fabrications and applications
Expert in ferroelectricity, piezoelectricity, crystallography, phase transitions, structure-property relationships
Expert inspectroscopy of new quantum states
Expert in photoemission studies of electronic and spin structure of quantum materials
Expert in synchrotron-based spectroscopies including ARPES, RIXS, XMCD for studies of quantum and functional materials
Technical Editors
Grammar correction and proof preparation
Technical assistance in the submission process
Technical assistance in the submission process
Technical assistance in the submission process
Technical director
Titled Editors
Expert in theory of superconductivity and magnetism
Expert in the theory of superconductivity and topologically protected systems
Expert in optics and terahertz spectroscopy
Expert in the theory of superconductivity
Expert in the theory of superconductivity
Expert in the mesoscopic phenomena in solid state physics
Expert in electron transport in hybrid superconducting structures
Expert in superconductivity and spin phenomena
Expert in the field of physical properties of systems with reduced dimensionality and/or structural disorder and the creation of functional nano- and microelectronics devices based on them
Expert in the theory of spin phenomena in superconducting hybrid structures
Expert Editors
Expert in optics and mesoscopic sensors
Expert in quantum devices
Expert in the theory of quantum devices and topological protected systems
Expert in high temperature superconducting (HTS) & low temperature superconducting (LTS) magnets for a wide range of scientific & industrial applications
Expert in nanostructured superconductor/ferromagnet hybrids, vortex pinning, electromigration, and magneto-optical imaging
Expert in superconducting digital electronics
Expert in single crystal growth, and physical properties of quantum materials, including topological materials, Kagome lattice materials, unconventional superconductors, and two-dimensional (2D) materials.
Expert in nanoscale quantum structure, physics and devices, including the construction of new nanoscale quantum structures, physical property measurements, device design and performance testing, and basic applications at the atomic scale