The fundamental discoveries made in materials science domain have substantially increased the mankind's ability to modify matter. The fundamental properties, processing, and advanced applications of micro/nanostructured materials have initiated a rapidly growing interest among the materials science communities. Presently, the advanced and intelligent materials are the most promising trends due to their unique properties. In addition, smart electronic materials have a very high innovation potential for the utilization in numerous practical applications. In this way, the 4 th International Conference on Trends in Material Science and Inventive Materials [ICTMIM 2022] establishes a platform to discuss and collect together the novel research ideas leading to new innovations from a fundamental point of view and real-time applications and in many cases it utilizes the novel functionalities. 4 th ICTMIM 2022 has planned to discuss the challenges in realizing the smart electronic materials with functionally significant properties that are attractive for innovative real-time applications. The conference also welcomes the discussion on new approaches to establish composition-structure-properties and the possibility of using the obtained data for solving the materials science challenges.

Call for Paper

Inventive Electronics Materials

• Advanced Electronics and Photonics
• Computational Materials and Modelling
• 3D & 2D Materials
• Nanotechnology in Materials Science
• Green and Sustainable Materials
• Semiconductor & electronic materials and devices
• Bio Electronic Materials and Sensors
• Thin films, Materials Surface and Interfaces
• Modern Electronic Materials
• Multilayered Structures and Composite Materials
• Quantum-Sized Structures and Nanocrystals
• Electronic Biosensors
• MEMS and Sensors
• Light Emitting Materials
• Nano-Materials
• Opto-Electronic Materials
• Microwave and Antenna

Material Science

• Energy Harvesting Materials and Process
• Advanced Materials Synthesis and Purification
• Advanced Multi-scale Material Characterization Methods
• Quantum Matters and Applications
• Micro-Electronic Device Fabrication
• Nanostructure Fabrication and Self-Assembly
• Self-Healable and Stretchable Configurations
• Data-Driven Materials Design
• Advanced Charge Transfer and Suitable Interfaces
• Metallization and Superconductivity
• Advanced Electronic Packaging