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Call for papers/Topics

Topics of Interest for Submission include, but are Not Limited to:

I. Nanomaterials Science:

Synthesis and Fabrication of Nanomaterials:
- Novel routes for the synthesis and self-assembly of 1D, 2D, and 3D nanostructures (nanoparticles, nanotubes, nanowires, quantum dots, fullerenes, graphene, 2D materials).
- Nanocomposites (metal-, carbon-, ceramic-, and polymer-based).
- Thin films and protective coatings.
- Micro/nano encapsulation.
- Additive manufacturing (3D printing) of nanomaterials.
Characterization of Nanomaterials:
- Advanced techniques for structural, chemical, electrical, optical, and mechanical characterization at the nanoscale.
- Microscopy (SEM, TEM, AFM, STM).
- Spectroscopy (XPS, XRD, Raman, FTIR).
Properties of Nanomaterials:
- Size-, shape-, and composition-dependent properties.
- Mechanical properties (strength, hardness, elasticity, fatigue, fracture).
- Electrical, optical, magnetic, and thermal properties at the nanoscale.
- Surface and interface phenomena.
Types of Nanomaterials:
- Carbon-based nanostructures (graphene, carbon nanotubes, fullerenes, nanodiamonds).
- Metallic and ceramic nanomaterials.
- Polymeric nanomaterials and nanostructured polymers.
- Composite and hybrid nanomaterials.
- Low-dimensional structures.
- Smart nanomaterials.
- Biomaterials and organometallic compounds.

II. Mechanical Engineering Aspects:

Mechanical Behavior of Materials:
- Structural materials and their mechanical behavior at the nano and micro scales.
- Fatigue, fracture mechanics, creep.
- Tribology (friction, wear, lubrication) in manufacturing processes and applications involving nanomaterials.
- Corrosion and degradation of materials.
Manufacturing Processes:
- Advanced manufacturing techniques involving nanomaterials (e.g., laser processing, powder metallurgy).
- Materials forming, machining, welding, and joining with nano-enhanced materials.
- Rapid prototyping and additive manufacturing.
- Virtual manufacturing and simulation of processes.
Design and Applications of Mechanical Systems:
- Surface engineering and coatings for enhanced mechanical performance.
- Thermal engineering theory and applications.
- Acoustics and noise control in systems utilizing nanomaterials.
- Dynamics and vibration analysis of nanostructures.
- Engineering optimization for mechanical systems.
- Robotics, automation, and mechatronics in manufacturing and assembly involving nanomaterials.
Computational Mechanics and Modeling:
- New methods of modeling properties of materials at the nano-scale.
- Finite element analysis (FEA) and computational fluid dynamics (CFD) for nanomaterial applications.
- Molecular dynamics simulations.
- Theory and application of friction and wear.

III. Applications and Interdisciplinary Themes:

Nanomaterials for Energy Applications:
- New energy materials (e.g., for solar cells, fuel cells, thermoelectrics).
- Nanomaterials in advanced batteries and supercapacitors.
- Hydrogen energy and fuel cell science.
- Waste-to-energy and waste management utilizing nanotechnologies.
- Environmental friendly materials and green energy.
Nanomaterials in Biomedical and Healthcare:
- Biomaterials and nanomedicine.
- Nanomaterials for drug delivery, diagnostics, and imaging.
- Biosensors and bio-electronic materials.
- Nanotechnology in medical devices.
Nanomaterials in Electronics and Photonics:
- Nanoelectronics and nanophotonics.
- Nanosensors, nanodevices, and actuators.
- Low-dimension structures for electronic applications.
Environmental Nanomaterials Science and Nanotechnology:
- Nanomaterials for water treatment and environmental remediation.
- Sustainable nanotechnology.
Aerospace and Automotive Applications:
- Nanomaterials for lightweight structures, enhanced performance, and thermal management.
Modeling and Simulation:
- Computational nanotechnology.
- Theory and modeling of nanomaterials and nanodevices.
Other Applications:
- Nanotechnology for coatings in various industries.
- Nanocatalysis.
- General engineering and technology applications of nanomaterials.