Abstract Submission Portal

Emerging Materials 2026| October 26 & 27, 2026 (In-Person at Tokyo) & October 28, 2026 (Virtual Via Zoom Meetings)

Online Submission Guidelines

All submissions will be reviewed based on technical merit, readability, relevance and originality. If you have any question or queries about the submission process, check the FAQ below or contact us.

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Submission Deadlines

First Round of Abstract Submission Ends on

16 January, 2026

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View Scientific Tracks & Sessions

Tracks 1 to 19

  • Material Science and Engineering
  • Nanomaterials, Nanotechnology and Nanocomposites
  • Material Physics and Material Chemistry
  • Materials in Aerospace, Mechanical and Civil Engineering
  • Organic, Inorganic and Green Chemistry
  • Polymers, Ceramics, and Composites
  • Graphene Technology – 3D & 2D Materials
  • Nano-medicine
  • Tissue Engineering, Biomaterials and Healthcare
  • Semiconductor, Electronic Materials and Devices
  • Materials Science in Sensor Technology
  • Emerging Smart Materials
  • Optical and Electronic
  • Advanced Energy Materials and Environmental Sustainability
  • Textile and Fibre Materials
  • Industrial Chemistry & Applied Chemistry
  • Mechanical Engineering and Mining and Metallurgy
  • Crystal Growth and its Application
  • Renewable Resources and Biopolymers

Tracks 20 to 42

  • Biosensors and Bio Electronic Materials
  • Nanoscience and Nanotechnology
  • Cancer Nanotechnology & Solid Tumor Oncogenesis
  • Polymer Science and Technology
  • Nanorobotics
  • Soft Nanomaterials
  • Nanoscience on Polymers
  • Nanoscience on Metallurgy
  • Nanobiotechnology
  • Nanotoxicology, Risk and Safety Management
  • Textile Materials and Fibers
  • Environmental and Green Materials
  • Computational Materials and Modelling
  • Battery Materials and Technology
  • Electronics, Optoelectronics and Photonics
  • Electrochemistry and X-ray Diffraction
  • Carbon Materials and Technology
  • Metal Recycling Processes, Waste Treatment
  • Metamaterials
  • Magnetism and Magnetic Materials
  • Energy Materials & Energy Harvesting Materials
  • Thin Films, Materials Surface and Interfaces

Tracks: 43 to 66

  • Surface Science and Engineering
  • Biomedical Nanomaterials
  • Carbon Nanostructure
  • Magnetic Materials and Plasmonics
  • Advances in Instrumentation Technology
  • Advanced Materials and Devices
  • Nanoporous Aerogel Materials
  • Mechanics, Characterization Techniques and Equipment
  • Ceramics & Composites
  • Semiconductors: Fundamentals to Emerging Applications
  • Applications in Material Science Engineering
  • Chemical Synthesis and Catalysts Synthesis
  • Catalysis and Chemical Reactions
  • Biological & Chemical Sciences
  • Chemo-informatics & Computational Chemistry
  • Fibers and Composites
  • AI, Data Science and Digital Innovations in Materials
  • Smart Materials & Structures

  • Materials for Flexible and Wearable Devices

  • Printing in Materials Engineering

  • Advances in Nano Materials Science

  • Artificial Intelligence in Materials Design

  • Materials for Energy and Environmental Sustainability

  • Catalytic Materials & Green Chemistry & Food Chemistry

  • Hybrid Materials and Bioinspired Materials

  1. Materials Science and Engineering is the field that studies the structure, properties, and performance of materials, from metals and ceramics to polymers, composites, and nanomaterials. It focuses on designing and developing advanced materials that improve technologies across industries such as electronics, energy, healthcare, aerospace, and manufacturing.

    2. Nanomaterials, nanotechnology, and nanocomposites focus on manipulating matter at the nanoscale to create materials with exceptional properties and performance, these technologies enable stronger, lighter, and more functional materials across electronics, energy, healthcare, and advanced manufacturing.

    3. Materials Physics explores the physical principles that govern the structure, properties, and behavior of materials. It focuses on understanding phenomena like conductivity, magnetism, and mechanical strength to design advanced functional materials.

    4. Materials Chemistry studies the chemical composition, synthesis, and reactions that create and modify materials. It aims to design new materials with tailored properties for applications in energy, electronics, catalysis, and nanotechnology.

    5. Graphene Technology2D & 3D Materials, Graphene technology focuses on ultra-thin 2D graphene and its 3D structured derivatives, known for exceptional strength, conductivity, and flexibility. These advanced materials enable breakthroughs in electronics, energy storage, sensors, and next-generation nanotechnology applications.

    6. Smart materials and structures are engineered to sense and respond to external stimuli such as temperature, pressure, or electric fields. They enable adaptive systems used in aerospace, robotics, healthcare, and advanced engineering applications.

    7. Catalysis accelerates chemical reactions by using substances that lower the energy required for transformation without being consumed. This field is essential for developing efficient industrial processes, energy systems, and environmentally friendly chemical technologies.

    8. Advanced materials and devices are engineered with enhanced mechanical, electrical, or functional properties to outperform conventional materials. The power innovations in electronics, energy systems, healthcare technologies, aerospace, and next-generation manufacturing.

    9. Biomedical nanomaterials are nanoscale materials designed for medical use, offering high precision in diagnosis, drug delivery, and tissue engineering. Their unique properties enable targeted therapies, improved imaging, and advanced regenerative medicine solutions.

    10. Thin Films, Materials, Surface and Interfaces, Thin films and material surfaces play a crucial role in controlling electrical, optical, and mechanical behavior at the micro- and nanoscale. Studying interfaces helps optimize coatings, sensors, semiconductors, and advanced device performance through precise surface engineering.

11. Nanoscience explores the behavior, properties, and interactions of materials at the nanoscale, where unique phenomena emerge. It forms the foundation for innovations in nanotechnology, enabling breakthroughs in energy, electronics, medicine, and advanced materials.

12. Polymers, ceramics, and composites are engineered materials with diverse mechanical, thermal, and chemical properties tailored for specific applications. Together, they enable advancements across aerospace, electronics, construction, healthcare, and high-performance manufacturing.

13. Semiconductor, Electronic Materials and Devices, Semiconductors and electronic materials are essential for controlling electrical conductivity and enabling modern electronic devices. Their advanced engineering powers technologies such as microchips, sensors, photovoltaics, and high-speed communication systems.

14. Advanced Energy Materials and Environmental Sustainability, Advanced energy materials are engineered to improve energy generation, storage, and conversion through high-efficiency batteries, solar cells, fuel cells, and smart grids. These innovations support environmental sustainability by reducing emissions, enhancing clean energy technologies, and promoting eco-friendly material solutions.

15. Emerging smart materials are designed to sense, respond, and adapt to changes in their environment through stimuli such as heat, light, electricity, or stress. They open new possibilities in robotics, healthcare, aerospace, and next-generation intelligent systems.

16. Textile materials and fibers encompass natural, synthetic, and engineered fibers designed for strength, comfort, durability, and specialized performance. They are essential for applications ranging from everyday clothing to high-tech textiles used in medical, protective, and industrial environments.

17. Magnetism and magnetic materials focus on understanding how materials respond to magnetic fields and how their internal structures generate magnetic behavior. These materials are vital in data storage, sensors, electric motors, medical devices, and emerging spintronic technologies.

18. Nanobiotechnology integrates nanotechnology with biological systems to create nanoscale tools and materials for medical diagnostics, drug delivery, and cellular engineering.

19. Cancer Nanotechnology & Solid Tumor Oncogenesis, Cancer nanotechnology applies nanoscale materials and devices to detect, target, and treat tumors with higher precision and reduced side effects. Understanding solid tumor oncogenesis helps develop nanotherapeutics that directly interact with cancer cells, improving diagnosis and advancing more effective, personalized cancer treatments.

20. Soft nanomaterials are nanoscale materials with flexible, deformable, or dynamic structures, such as polymers, gels, and lipids. They are widely used in drug delivery, tissue engineering, sensors, and responsive nanodevices due to their tunable mechanical and chemical properties.

Submit Abstract | Emerging Materials 2026

    You can also email your Abstract at "sana@matsauthors.com"

    Emerging Materials 2026

    Guidelines for All Participants.

    • Our In-person Conference begins promptly as per the Conference agenda.
    • If you face any technical difficulties, you can chat live anytime with our technical team during the conference days.
    • You can ask your questions for the presenter after every presentation.
    • After you register for the conference, you will receive confirmation  conference details and what to be expected. Please check your junk mail folder if you do not see the email in your inbox if you don’t hear from us for more than 48 hours
    • If you face any difficulties in submitting Abstract online, registration or need assistance, do not hesitate to contact our organizer anytime.
    • For more queries please E-mail at sana@matsauthors.com

    F.A.Q.

    How to submit an Abstract?

    Send us your abstracts as per the sample template in Abstract Submission page or you can directly email to conference Program Manager.

    Where do I go to submit an abstract?

    You may submit proposals online via our Abstract Submission Portal or you can directly email to conference Program Manager.

    When will I have to proceed for registration?

    After submission of Abstract you will get an acknowledgement from our Program Manager. You can proceed to complete your registration after the acknowledgement.

    May I submit more than one proposal?

    Yes. You may submit more than one proposal and participate in more than one session either in oral or poster session. However, you may not present more than two papers during the conference.

    Do you have any template for paper submission?

    Yes, we have a template for abstract submission. Please download from this link here

    Can I still participate without Submitting the Abstract?

    Yes, you can participate as a Delegate for the conference without submitting any paper.

    How much time will be given for an oral presenter?

    Each Oral Presenter will have 20-25 minutes for presentation including Q/A session

    What language should I speak during presentation?

    The working language of the conference is English.

    Do I get a translator during my presentation?

    Translators will not be available during presentations. If you wish you can get your own translator