Journal of Functional Nanomaterials and Applications
Editor-in-Chief
Dr. Sandesh Jadkar
An open-access, single-blind peer-reviewed journal dedicated to publishing high-quality research on functional nanomaterials and their emerging applications.
Journal of Functional Nanomaterials and Applications Abréviations: J. Funct. Nanomater. Appl.)
Starting Year
2026
Frequency of the publication
Quarterly
Publication format
Online
Related Subject and Title
Nanomaterials and Applications, Electronics and Photonics, Materials Science, Biotechnology, Wearable and Flexible Devices, Agricultural Nanotechnology, Computational Nanoscience
Language
English
Name of Issuing/ Publishing body
G R Scholastic LLP
Address
UrbanWrk, Unit No. 307, Koncord Tower, Bund Garden Road, Pune, Maharashtra, India, 411001
Aim
The Journal of Functional Nanomaterials and Applications aims to provide a platform for publishing high-quality research on the design, synthesis, characterization, and application of functional nanomaterials. The journal emphasizes interdisciplinary approaches that connect fundamental nanoscience with practical applications in medicine, energy, environment, and advanced technologies.
Scope
Submissions are welcomed from, but not limited to, the following research areas provided they meet the journal's ethical, scientific, and methodological standards:
Nanomaterial Synthesis and Fabrication
Synthesis of nanoparticles, nanocomposites, nanostructures, and hybrid materials
Green and sustainable synthesis approaches
Bottom-up and top-down fabrication techniques
Thin films, coatings, and additive manufacturing of nanomaterials
Surface modification and functionalization
Characterization and Analytical Techniques
Electron and scanning probe microscopy
Spectroscopic and diffraction techniques
Surface and interface characterization
Structural, morphological, thermal, optical, electrical, and mechanical property analysis
In-situ and operando characterization methods
Biomedical and Healthcare Applications
Nanomedicine and targeted drug delivery
Biomaterials and tissue engineering
Biosensors and diagnostic technologies
Therapeutic nanoparticles
Bioimaging and regenerative medicine
Energy Storage and Conversion
Nanomaterials for batteries and supercapacitors
Hydrogen generation and storage
Fuel cells and electrocatalysis
Solar cells and photovoltaic devices
Thermoelectric and energy-harvesting materials
Environmental and Sustainable Applications
Water purification and wastewater treatment
Air pollution control and environmental remediation
Nanomaterials for environmental sensing
Sustainable nanotechnology
Circular economy and green materials
Catalysis and Chemical Engineering
Heterogeneous, homogeneous, and photocatalysis
Electrocatalysis
Nanostructured catalysts
Industrial catalytic processes
Chemical reaction engineering
Electronics, Photonics, and Quantum Technologies
Nanoelectronics
Optoelectronic devices
Quantum dots and quantum materials
Photonic nanostructures
Semiconductor nanomaterials
Spintronics and emerging electronic systems
Agricultural Nanotechnology
Nano-enabled fertilizers
Controlled nutrient delivery
Crop protection technologies
Precision agriculture
Soil and plant nanotechnology
Wearable, Flexible, and Smart Materials
Flexible electronics
Smart textiles
Wearable biosensors
Stretchable devices
Self-powered and energy-harvesting systems
Nanomaterials for Sensing Technologies
Chemical sensors
Gas sensors
Biosensors
Electrochemical sensing
Optical and multifunctional sensing platforms
Computational Nanoscience and Artificial Intelligence
Molecular modeling and simulations
Density Functional Theory (DFT)
Molecular dynamics
Machine learning for materials discovery
AI-assisted nanomaterial design
Data-driven optimization and digital materials research
Emerging Functional Nanomaterials
Two-dimensional materials
MXenes
Graphene and graphene derivatives
Carbon nanotubes
Metal-organic frameworks (MOFs)
Covalent organic frameworks (COFs)
Perovskite nanomaterials
Nanohybrids and multifunctional materials
Industrial Translation and Future Perspectives
Scale-up and manufacturing
Commercialization of nanotechnology
Standards and metrology
Safety, toxicity, and regulatory aspects
Techno-economic analysis
Future trends in functional nanomaterials
Next-generation nanomaterials
Interdisciplinary applications of nanotechnology
Translational research and commercialization
Nanomaterials: challenges, opportunities, and future directions
Article Type
The Journal of Functional Nanomaterials and Applications publishes the following types of scholarly contributions: