Nanomaterials and Nanotechnology

About Conference

Sessions/Tracks

Track 1: Nanoparticles

Nanoparticles range from 1 to 100 nanometres and act as whole units in terms of physical and chemical properties. These particles are at the core of nanotechnology due to their unique behaviors at small scales. Applications span mechanical engineering, core-shell structures, and composite materials. Their adaptability allows formation into microspheres, ceramic polymers, and glass ceramics. This makes them key components in advanced materials design.

Key Topics:

• Mechanical properties of nanoparticles
• Core-shell structures
• Nanocomposite materials
• Microspheres
• Ceramic-polymer hybrids
• Glass-ceramic systems

Track 2: Nanoelectronic Devices

Nanoelectronic devices utilize nanoscale components where quantum mechanical effects are prominent. This field encompasses molecular electronics, nano radios, and optoelectronic systems. Nano fabrication techniques continue to evolve for developing next-generation devices. These devices offer nonionic behavior and enhanced efficiency in smaller packages. The integration of nanoelectronics is redefining modern computational and communication systems.

Key Topics:

• Molecular electronics
• Nanoscale radios
• Optoelectronic systems
• Nanofabrication techniques
• Nonionic device structures

Track 3: Advanced Nanomaterials

Advanced nanomaterials include engineered particles like nanotubes, nanoclays, and quantum dots designed for specific applications. They exhibit unique chemical, electrical, and physical properties, often influenced more by surface area than composition. Demand is growing across healthcare, electronics, energy, and construction sectors. These materials are also developed for chemical catalysis, self-assembly, and porous structures. Their versatility continues to drive global research and innovation.

Key Topics:

• Organic and inorganic nanomaterials
• Nanotubes, nanowires, and nanoparticles
• Nanomaterials in catalysis and chemical applications
• Functional nanocomposites
• Mesoporous and porous nanomaterials
• Self-assembly and supramolecular systems

Track 4: Applications of Nanotechnology

Nanotechnology is transforming diverse fields such as electronics, energy, medicine, and environmental science. It supports the development of terahertz systems, nanoscale communication networks, and photocatalytic materials. Major investments are fueling innovations across pharmaceuticals and biotechnology. Nanomaterials’ flexibility enables their use in sensors, actuators, and information technologies. With expanding utility, nanotech is a linchpin for next-generation solutions.

Key Topics:

• Nanoscale networks and communication systems
• Terahertz technologies
• Photocatalysis innovations
• Applications in pharmaceuticals and medicine
• Nano-enabled computing and sensors

Track 5: Nanomaterial Safety & Regulatory Affairs

As nanomaterials proliferate across industries, safety and regulation have become critical. Risk assessments now include nanotoxicology, exposure scenarios, and health impacts. Ethical considerations and proper regulations guide the responsible development of nanotech. Countries are formulating specific policies for nano-related research and commercialization. Ensuring long-term sustainability and safety remains a global priority in nanotechnology advancement.

Key Topics:

• Health risk evaluation
• Nanotoxicology studies
• Regulatory frameworks and ethics
• Risk assessment strategies
• Exposure modeling and mitigation

Track 6: Nanoscale Materials

Nanoscale materials, defined by at least one dimension below 100 nm, exhibit extraordinary optical, magnetic, and electrical properties. Examples include carbon nanotubes, fullerenes, graphene traps, and magnetic nanoparticles. These materials are at the heart of developing nano drugs and advanced functional systems. Their unique properties are exploited in electronics, biomedicine, and energy. The focus on nanoscale science is transforming the design of materials from the atomic level up.

Key Topics:

• Graphene structures
• Nanowires and carbon nanotubes
• Magnetic nanoparticles
• Fullerenes and novel nanocarriers
• Nanodrug development

Track 7: Applications of Nanomaterials

Nanomaterials demonstrate distinct properties that make them valuable in structural and functional applications. Their uses include energy systems, kinetic energy devices, advanced insulation, and high-definition displays. Other uses span from batteries and magnets to aerospace and defense technologies. Their effectiveness in pollution control and biomedical implants is particularly noteworthy. The breadth of their utility reflects their central role in materials science.

Key Topics:

• Nanomaterials in energy systems
• Nanomechanics and structural applications
• Catalysis using gold nanoparticles
• Nanorods and photonic materials
• Carbon nanotube field emitters

Track 8: Nanotech Consumer Products

Consumer products enhanced with nanotechnology are rapidly increasing in number and diversity. These include cleaning products, batteries, electronics, and air quality devices. Nanotechnology enables smaller, smarter, and more efficient product design. Everyday items, from bandages to display screens, now feature nano-enhanced performance. The public is beginning to witness the tangible benefits of nanotech in daily life.

Key Topics:

• Air purification nanotech products
• Battery performance enhancements
• Nano-based chemical sensors
• Cleaning and hygiene products
• Electronics and smart devices

Track 9: Nano Devices & Systems

Nano devices and systems are reshaping the technological landscape through smart sensors and miniature components. These include innovations in system integration, NEMS, and nanoscale process engineering. The global market is witnessing rapid growth in nano-switches and optical biosensors. Modelling and simulation tools enhance design precision at the nanoscale. As demand increases, nano devices are becoming critical in healthcare, electronics, and environmental monitoring.

Key Topics:

• Nano surface engineering
• Nano-electromechanical systems (NEMS)
• Simulation and modeling of nano systems
• Process engineering at nanoscale
• Advanced fabrication techniques

Track 10: Nanomedical Devices

Nano medical devices offer revolutionary capabilities in diagnostics, therapeutics, and implants. Innovations include nano robots, chips, implants, and devices that repair cells or engineer tissues. These devices operate at the molecular level to deliver precision interventions. A major challenge remains their stability within biological systems over time. Yet, progress in cyborg tissues and disease-sensing tools holds immense promise for medicine.

Key Topics:

• Nanorobots and smart delivery systems
• Nanochips and implants
• Cell and tissue repair technologies
• Prosthetics and biointerfaces
• 3D nanostructured scaffolds

Track 11: Nanoymes

Nanozymes are nanomaterials that mimic enzyme activity, enabling breakthroughs in biosensing, imaging, and therapy. They have shown potential in tumor diagnostics, antimicrobial applications, and disease treatment. Materials like nanoceria and magnetic nanoparticles demonstrate peroxidase-like activity. Nanozymes combine stability with catalytic efficiency, overcoming some limitations of natural enzymes. Their development continues to bridge nanotechnology and molecular biology.

Key Topics:

• Synthetic enzyme mimics (synzymes)
• Metalloproteins and catalytic nanomaterials
• Cyclodextrins and functional nanocarriers
• Abzyme alternatives
• Biomimetic nanomaterials

Track 12: Biomedical Nanomaterials

Biomedical nanomaterials are driving progress in regenerative medicine, artificial organs, and biocompatibility solutions. Their unique structure enhances cellular interaction and biological function. Applications include engineered tissue scaffolds and advanced drug delivery systems. The interface between nano-bio materials is crucial for therapeutic performance. These nanostructures offer new pathways for creating responsive and intelligent medical tools.

Key Topics:

• Regenerative nanomedicine
• Enhancing biocompatibility via nanotech
• Nano–bio interactions and interfaces
• Nanostructures for tissue regeneration
• Artificial organ development

Track 13: Nanostructures

Nanostructures exhibit properties influenced by their specific dimensions at the nanoscale. Examples include nanoflowers, ribbons, tips, and flakes, each with unique surface and electronic behaviour. These structures are integral in energy storage, electronics, and biosensing. Their morphology determines interactions at the molecular and atomic levels. Research into tailoring nanostructures opens doors to customized material design.

Key Topics:

• Nanoflowers and nanoribbons
• Quantum heterostructures
• Nanotips, platelets, and flakes
• Hierarchical nanostructures

Track 14: Materiomics

Materiomics is the interdisciplinary study of material systems across multiple scales, from nano to macro. It investigates the relationship between structure, function, and properties in both biological and synthetic materials. Applications include bio-inert materials, anti-encapsulation designs, and advanced fixation systems. Materiomics aligns closely with systems biology in its holistic approach. This emerging field holds great promise in biomaterials and device engineering.

Key Topics:

• Bio-inert and bioactive material systems
• Anti-encapsulation strategies
• Pro-fixation and cell-material interaction
• Systems-level analysis of material behavior
• Bio-materiomics

Track 15: Characterization & Properties of Nanomaterials

Understanding nanomaterials requires detailed characterization of their thermal, optical, magnetic, and physical properties. Techniques such as high-temperature decomposition and interfacial reactions help create thin films. These films enable functional applications in electronics, optics, and catalysis. Accurate measurement of properties ensures effective material performance. Characterization remains a foundational step in nanotech research and application.

Key Topics:

• Thermal and magnetic behavior
• Chemical and optical characterization
• Mechanical and physical profiling
• Thin-film formation and interface engineering

Track 16: Nanocosmetics

Nanocosmetics leverage nanoscale particles for improved skin absorption, stability, and efficacy in cosmetic products. Common forms include liposomes, nanocapsules, nanocrystals, and cubosomes. These products enhance delivery of active ingredients, targeting skin layers more precisely. Nanotechnology is revolutionizing skincare and beauty through advanced formulations. As safety and efficacy standards evolve, nanocosmetics are poised for expanded adoption.

Key Topics:

• Liposomes and nanocapsules
• Nanocrystals in skincare
• Cubosomes for drug delivery
• Penetration enhancers and safety in cosmetics

Market Analysis

Nanotechnology is the science and engineering of materials and devices on a molecular scale, typically within 1 to 100 nanometres. This interdisciplinary field brings together expertise from physics, chemistry, biology, materials science, and engineering. Its applications span nearly every sector—electronics, materials science, energy, and biomedicine. The scope of exploration includes nanoparticles, nanowires, nanotubes, and nanobiological systems. To further expand global collaboration, we are pleased to invite researchers and professionals to the 39th International Conference on Nanomaterials and Nanotechnology, scheduled for July 23–24, 2026, in London, UK.

Importance & Market Scope

The U.S. leads the nanomaterials market, especially in electronics and pharmaceuticals. Europe holds significant market share due to mass production and regulatory frameworks like REACH and CLP. Asia-Pacific is emerging rapidly, fueled by government support and rising demand for high-performance materials. Notably, nano-sized ceramic powders are projected to grow at 10% annually. Applications in automotive, packaging, and electronics are growing, with companies entering the market through licensing and collaborations. The global nanomaterials market, valued at USD 8.0 billion in 2020, is expected to grow at a CAGR of 14.1% by 2028.

Why Attend the Conference?

This event offers a global platform for networking, collaboration, and learning from world-renowned experts. It’s a vital opportunity for showcasing innovations, meeting potential clients, and gaining visibility in the field. Key areas include nanomedicine, tissue engineering, nanoelectronics, and more.

Nanotechnology Market Size & Forecast

According to Emergen Research, the nanotechnology market was valued at USD 75.8 billion in 2020, with expectations to reach USD 290.93 billion by 2028, growing at a CAGR of 18.3%. This rapid expansion is driven by breakthroughs in healthcare (e.g., diagnostics and drug delivery), as well as innovations in energy and environmental applications.

Key Industry Players

• Fujitsu Laboratories, Ltd.
• GE Healthcare
• IBM Research
• Intel
• Bayer Material Science
• Altair Nanotechnologies Inc.
• Cortex Biochem
• Cypress Semiconductor

Government Investment & Innovation

The U.S. 2021 federal budget allocated $1.5 billion to nanotechnology R&D across 11 core and 9 supporting agencies. This investment aims to accelerate the transition from basic research to real-world applications, ensuring a pipeline of revolutionary technologies.

Market Share by Industry (2028 Projection)

The pie chart above illustrates the projected market share by industry. Healthcare and IT lead with a combined 55% share, followed by energy, environment, food & agriculture, and cosmetics.

Group Discount

Unlock Exclusive Savings with Our Group Discount!

Join us for the 39th International Conference on Nanomaterials and Nanotechnology and take advantage of our special group registration offer designed exclusively for research teams, academic institutions, and industry professionals.

Offer Highlights:

• Discount: Enjoy an impressive 30% off the total registration fee.

• Eligibility: Applicable for groups of 5 or more participants.

• Early Bird Deadline: Offer valid until August 28, 2025.

Whether you're involved in materials science, nanoengineering, applied physics, or industrial R&D, this is your opportunity to attend at a reduced rate and engage in transformative discussions shaping the future of nanotechnology.

Participate in groundbreaking sessions, connect with global innovators, and showcase your work in London—a global leader in science, technology, and collaboration.

To register your group or learn more, visit the official Nanomaterials 2026 website.

Contact us: nanomaterials@worldcongressforum.com

Call us: +44 330 818 7501

Innovate, Collaborate, and Accelerate—Together in London!
Secure your group’s spot today!

CME Credits

CME Credits – Continuing Medical Education

Continuing Medical Education (CME) plays a critical role in the ongoing development of medical professionals, ensuring that they remain current with the latest innovations, clinical practices, and technologies. Conference Series is proud to organize CME-accredited conferences recognized by the Accreditation Council for Continuing Medical Education (ACCME).

Why Attend for CME Credits?

• Maintain and renew your medical license
• Stay up-to-date with emerging treatments and technologies
• Enhance clinical practice and patient care
• Gain recognition and distinction through speaking opportunities
• Network with global medical experts and thought leaders

CE Credits – Continuing Education

Continuing Education (CE) credits are essential for professionals seeking to maintain and improve their qualifications across diverse fields including healthcare, research, and clinical practice. CE-accredited sessions at this conference provide hands-on learning and industry insights.

Benefits of CE Credits:

• Strengthen your career path and job prospects
• Stay informed with the latest research and innovations
• Fulfill licensing and certification requirements
• Network with professionals and recruiters in your field
• Ideal for medical and clinical researchers, educators, and practitioners

CPD Credits – Continuing Professional Development

CPD (Continuing Professional Development) represents a structured approach to learning that helps professionals enhance their knowledge, skills, and personal qualities throughout their careers. This conference offers CPD-certified content aligned with international educational standards.

Advantages of CPD Accreditation:

• Demonstrate commitment to personal and professional growth
• Enhance employability and career progression
• Fill skill gaps and improve efficiency
• Boost confidence and professional credibility
• Earn CPD hours through education, research, leadership, and more

Important Note:

We are pleased to inform you that participants of the 39th International Conference on Nanomaterials and Nanotechnology will be eligible to earn CME/CPD credits. The number of credits will be announced closer to the conference date and will be based on active participation and session attendance.

Past Conference Report

Nanomaterials 2025

The 38th International Conference on Nanomaterials and Nanotechnology will take place in Dubai, UAE, a world-renowned hub for innovation, business, and science. As one of the most advanced and rapidly developing cities, Dubai provides an ideal venue for global collaboration and scientific exchange.

This prestigious event will bring together nanotechnologists, materials scientists, researchers, engineers, academicians, industry professionals, and students from around the globe to discuss the latest innovations, breakthroughs, and applications in the field of nanomaterials and nanotechnology.

The conference will cover cutting-edge research in:

• Nanomaterials synthesis and characterization

• Nanomedicine and biomedical applications

• Energy storage and nanotechnology in sustainability

• Nanocomposites and advanced materials

• Quantum materials and nanoelectronics

The event will feature a grand opening ceremony, keynote presentations, plenary sessions, and interactive panel discussions led by globally recognized experts.

We extend our heartfelt thanks to our moderators, chairs, and co-chairs for their valuable contributions to making this conference a success.

Upcoming Announcement

Following the success of this event, Conference Series is pleased to announce the 39th International Conference on Nanomaterials and Nanotechnology, scheduled for July 23-24, 2026 in London, UK.