ABOUT US :

Longdom Conferences is pleased to invite you to the 9th International Conference on Nanoscience and Nanotechnology 2026, to be held in London, United Kingdom, on July 9–10, 2026. This prestigious international event provides a dynamic platform for researchers, scientists, academicians, and industry professionals to come together and explore the latest innovations and advancements in nanoscience and nanotechnology.

The conference offers a unique opportunity to discuss recent breakthroughs and emerging applications of nanotechnology across diverse fields, including materials science, healthcare, energy, electronics, and environmental sustainability. As nanotechnology continues to expand rapidly, this conference serves as an essential forum for staying informed about cutting-edge research, technological trends, and future directions shaping the field.

The scientific program will encompass a broad spectrum of topics such as nanomaterial synthesis and characterization, Nano electronics and photonics, Nano medicine and drug delivery systems, Nano sensors and Nano biosensors, energy-related nanotechnologies, environmental and sustainable nanomaterials, and the ethical, regulatory, and societal aspects of nanotechnology.

Participants are encouraged to take full advantage of this international gathering to engage with fellow researchers, industry leaders, and innovators, exchange ideas, and explore the latest products, tools, and technologies driving nanoscale research forward. The conference aims to inspire continued scientific exploration while fostering meaningful collaborations and long-term partnerships.

We warmly welcome your esteemed participation and look forward to an engaging, productive, and rewarding conference experience in London, UK.

WHY ATTEND?

1. Gain insights into the latest advancements in nanoscience and nanotechnology
2. Explore cutting-edge nanomaterials, Nano electronics, Nano medicine, and energy applications
3. Learn about nanotechnology commercialization, regulatory frameworks, and industrial translation
4. Network with global researchers, industry leaders, and technology innovators
5. Share research ideas and collaborate on interdisciplinary Nano-based initiatives
6. Experience high-level scientific exchange in an international conference setting
7. Gain first-hand knowledge of emerging nanoscale tools, techniques, and methodologies
8. Present your research to a global scientific and industrial audience
9. Foster collaborations that accelerate innovation from laboratory to real-world applications
10. Engage in a multidisciplinary learning environment shaping future technologies

WHO SHOULD ATTEND?

1. Nanoscience & Nanotechnology Researchers
2. Materials Scientists & Engineers
3. Physicists & Chemists
4. Nano electronics & Photonics Experts
5. Nano medicine & Biomedical Engineers
6. Energy & Environmental Scientists
7. Pharmaceutical & Biotechnology Professionals
8. Industrial R&D Professionals
9. Regulatory & Policy Experts
10. Academicians & Educators
11. Students, Postdoctoral Fellows & Early-Career Researchers
12. Technology Start ups & Entrepreneurs

KEY HIGHLIGHTS:

The conference will feature:

1. Keynote Lectures by internationally renowned nanoscience experts
2. Plenary & Technical Sessions on advanced nanotechnology research and applications
3. Oral Presentations showcasing breakthrough nanoscale innovations
4. Poster Presentations by students and early-career researchers
5. Panel Discussions on future trends and industrial translation
6. B2B Networking Sessions connecting academia, startups, and global industries.

VISA ASSISTANCE:

1. Invitation Letter: Official invitation letters will be issued to registered participants
2. Eligibility: Available for speakers, delegates, students, exhibitors, and sponsors
3. Visa Responsibility: Visa approval rests solely with the respective embassy or consulate
4. Application Timeline: Participants are encouraged to apply well in advance
5. Organizer Support: Assistance with documentation will be provided upon request
6. Contact for Assistance: Visa-related queries may be addressed to the conference secretariat after registration

PARTICIPATION BENEFITS:

Academic Speaker: Present advanced research, theoretical insights, or applied innovations in nanoscience and nanotechnology. Engage with global experts, foster collaborations, and gain international recognition.

Student Speaker: Showcase innovative research ideas and early-stage findings on a global platform. Gain presentation experience, expert feedback, and visibility in the nanoresearch community.

Delegate: Attend high-impact scientific sessions and stay updated on the latest nano-scale technologies. Network with international researchers, industry professionals, and innovators.

Exhibitor: Showcase products, instruments, nanomaterials, or services to a focused international audience. Enhance brand visibility and connect with key decision-makers.

Participator: Engage in dynamic scientific discussions, knowledge exchange, and professional networking focused on nanotechnology innovation.

Poster Presentation: Visually present research and interact directly with experts and peers. Receive valuable feedback and increase research visibility.

Sponsor: Promote your brand and demonstrate leadership in nanoscience innovation. Gain premium exposure through targeted branding and engagement opportunities.

Young Researcher / Early-Career Scientist: Highlight emerging research, gain recognition, and connect with mentors to accelerate academic and professional growth.

Industry Professional: Explore business opportunities, industrial applications, and regulatory insights in nanotechnology. Build strategic partnerships across academia and industry.

SESSION AND TRACKS:

Track 1: Nanomaterials Synthesis & Characterization

This track focuses on advanced methods for synthesizing nanomaterials with controlled size, shape, and functionality. It highlights modern characterization techniques to study structural, optical, and chemical properties. Discussions emphasize structure–property relationships. Applications across electronics, energy, and healthcare are addressed.

Key Topics: Nanomaterial Synthesis | Material Characterization | Functional Nanomaterials | Smart Nanomaterials | Hybrid Nanomaterials | Self-Assembly | Surface Engineering | Thin Films | Nanocomposites

Track 2: Two-Dimensional Materials & Advanced Nanostructures

Sessions explore graphene, MXenes, and other 2D materials with exceptional properties. Emphasis is placed on hetero structures, thin films, and layered nanostructures. Research covers fabrication techniques and performance optimization. Applications span electronics, sensing, and energy systems.

Key Topics: Nanoscience | Nanotechnology | Nanoscale Science | Nanomaterials | Nanostructures | Nanofabrication | Nanosystems | Nanoscale Engineering | Atomic-Scale Materials

Track 3: Nanoelectronics & Nanoscale Devices

This track addresses nanoscale electronic components and device architectures. Topics include transistors, memory devices, and integrated nanosystems. Challenges of miniaturization and performance are discussed. Emerging solutions for next-generation electronics are highlighted.

Key Topics: Two-Dimensional Materials | Graphene | Carbon Nanotubes | Quantum Dots | Nanowires | Nanoparticles | Metamaterials | Plasmonic Nanostructures | Risk Assessment  |  Regulatory Frameworks | Ethical Aspects of Nanotechnology | Sustainable Nanotechnology

Track 4: Nanophotonics, Plasmonics & Nano-Optics

Focused on light–matter interaction at the nanoscale. Sessions cover plasmonic materials, optical nanodevices, and metamaterials. Applications include imaging, sensing, and photonic communication. Advances in nano-optical design are emphasized.

Key Topics: Next-Generation Nanotechnology | Smart Nanosystems | Responsive Nanomaterials | Internet of Nano-Things | Translational Nanoscience | Future Nano Innovations

Track 5: Quantum Nanoscience & Emerging Quantum Technologies

This track explores quantum effects in nanoscale systems. Topics include quantum computing, sensing, and communication technologies. Fundamental principles and applied research are discussed. Emphasis is placed on scalable quantum nano-devices.

Key Topics: Nanophotonics | Nano-Optics | Plasmonics | Quantum Nanoscience | Quantum Materials | Quantum Devices | Photonic Crystals |Functional Nanomaterials | Smart Nanomaterials | Hybrid Nanomaterials | Self-Assembly | Surface Engineering | Thin Films | Nanocomposites

Track 6: Nano medicine & Targeted Drug Delivery Systems

Covers nanotechnology-based approaches for precision medicine. Topics include nanoparticle carriers, controlled release systems, and bioimaging. Clinical translation and therapeutic efficiency are key focuses. Innovations improving patient outcomes are highlighted.

Key Topics: Nanobiotechnology | Nanomedicine | Targeted Drug Delivery | Bio-Nano Interfaces | Nano-Diagnostics | Theranostics | Biomedical Nanotechnology | Tissue Engineering

Track 7: Nano biotechnology & Bio–Nano Interfaces

Explores interactions between nanomaterials and biological systems. Topics include biosensors, tissue engineering, and regenerative medicine. Emphasis is placed on biocompatibility and functionality. Translational biomedical applications are discussed.

Key Topics: Nanosensors | Biosensors | Chemical Sensors | Nano-Enabled Diagnostics | Lab-on-a-Chip | Nanoscale Imaging | AFM | STM | Electron Microscopy | Scalable Nanotechnology | Industrial Nanotech Applications | Nano-Coatings | Additive Manufacturing | Commercialization of Nanotechnology

Track 8: Nanosensors & Nano-Enabled Diagnostics

This track focuses on highly sensitive nanoscale sensing platforms. Applications include medical diagnostics, environmental monitoring, and food safety. Emphasis is placed on real-time and point-of-care detection. Innovations in sensor performance are showcased.

Key Topics: Next-Generation Nanotechnology | Smart Nanosystems | Responsive Nanomaterials | Internet of Nano-Things | Translational Nanoscience | Future Nano Innovations

Track 9: Energy Nanotechnology & Sustainable Power Systems

Addresses nanotechnology solutions for energy generation and storage. Topics include batteries, super capacitors, solar cells, and hydrogen technologies. Emphasis is placed on efficiency and sustainability. Nanomaterials enabling clean energy transitions are highlighted.

Key Topics: Energy Nanotechnology | Nano-Energy Materials | Solar Nanotechnology | Battery Nanomaterials | Hydrogen Storage | Environmental Nanotechnology | Green Nanoscience | 

Track 10: Environmental Nanotechnology & Green Nanoscience

Focuses on nanotechnology for environmental protection and sustainability. Topics include water purification, pollution control, and waste management. Green synthesis and eco-friendly nanomaterials are emphasized. Environmental impact and lifecycle assessment are discussed.

Key Topics: Nano-Robotics | Nanomachines | Autonomous Nanosystems | Precision Engineering | Nano-Metrology | Standardization | Quality Control | Reproducibility in Nanoscience | Nano-Modeling | Molecular Dynamics | Density Functional Theory | AI-Driven Materials Design | Machine Learning in Nanotechnology

Track 11: Nanocatalysis & Nanoscale Chemical Engineering

Covers design and application of nanocatalysts for chemical processes. Topics include enhanced reaction efficiency and selectivity. Applications in energy, industry, and green chemistry are discussed. Advances in scalable catalytic systems are highlighted.

Key Topics: Computational Nanoscience | AI-Driven Nanodesign | Modeling & Simulation | Digital Nanotechnology | 2D Materials | Graphene & Beyond | Nanocomposites | Hybrid Nanomaterials

Track 12: Nanomanufacturing & Scalable Fabrication Technologies

Focuses on fabrication methods for large-scale nanomaterial production. Topics include nanolithography, self-assembly, and additive manufacturing. Emphasis is placed on process scalability and reliability. Industry-oriented fabrication strategies are discussed.

Key Topics: Nano-Manufacturing | Scale-Up Technologies | Industrial Nanotechnology | Commercialization | Smart Nanomaterials | Responsive Nanostructures | Self-Assembled Systems | Adaptive Materials

Track 13: Computational Nanoscience & AI-Driven Nano Design

Explores modeling, simulation, and AI techniques in nanoscience. Topics include materials prediction and performance optimization. Machine learning accelerates nanomaterial discovery. Integration of computation with experimentation is emphasized.

Key Topics: Computational Nanoscience | Nano-Modeling | Molecular Dynamics | Density Functional Theory | AI-Driven Materials Design | Machine Learning in Nanotechnology

Track 14: Smart, Functional & Responsive Nanomaterials

Covers nanomaterials that respond to external stimuli such as light or temperature. Applications include smart coatings and adaptive systems. Emphasis is placed on multifunctionality and durability. Innovations in responsive nano-design are discussed.

Key Topics: Environmental Nanotechnology | Nano-Remediation | Water & Air Purification | Pollution Control | Nano-Biotechnology | Bio-Inspired Nanomaterials | Biosensors | Lab-on-a-Chip Systems

Track 15: Nanotoxicology, Safety & Risk Assessment

Focuses on health and environmental impacts of nanomaterials. Topics include toxicity evaluation and exposure assessment. Regulatory standards and safety guidelines are discussed. Responsible and safe nanotechnology development is emphasized.

Key Topics: Nanomedicine | Targeted Drug Delivery | Nano-Diagnostics | Theranostic Systems | Energy Nanotechnology | Nano-Catalysis | Hydrogen Technologies | Carbon-Neutral Solutions

Track 16: Industrial Nanotechnology & Commercial Applications

Explores the translation of nanoscience research into commercial products. Topics include technology transfer, market trends, and product development. Industry–academia collaboration is highlighted. Case studies from successful applications are presented.

Key Topics: Nanomanufacturing | Scalable Nanotechnology | Industrial Nanotech Applications | Nano-Coatings | Additive Manufacturing | Commercialization of Nanotechnology |Nanomachines | Autonomous Nanosystems | Precision Engineering | Nano-Metrology

Track 17: Ethical, Regulatory & Societal Aspects of Nanotechnology

Addresses ethical considerations and regulatory frameworks in nanotechnology. Topics include policy development and public engagement. Societal impact and responsible innovation are emphasized. Global perspectives on nanotechnology governance are discussed.

Key Topics: Nanotoxicology | Nano-Safety | Risk Assessment | Regulatory Frameworks | Ethical Aspects of Nanotechnology | Sustainable Nanotechnology

MARKET ANALYSIS REPORT:

The global nanoscience and nanotechnology market is experiencing robust and sustained growth, driven by rapid advancements in materials science, electronics, healthcare, energy, and environmental applications. Increasing demand for high-performance materials, miniaturized devices, and precision technologies has positioned nanotechnology as a key enabler of next-generation innovation. Breakthroughs in nanomaterials, nanoelectronics, nanomedicine, quantum nanotechnology, and AI-driven material design are transforming research landscapes and accelerating the transition from laboratory discovery to real-world applications. Enhanced characterization tools, scalable nanomanufacturing techniques, and interdisciplinary collaboration are further strengthening the global nanotechnology ecosystem.

The nanotechnology market is projected to grow significantly, expanding from an estimated USD 100+ billion market size in the mid-2020s to well over USD 200 billion by the early 2030s, reflecting strong double-digit compound annual growth rates across multiple sectors. Increased public and private R&D investments, government-supported innovation programs, and strategic collaborations between academia, startups, and industry leaders are fueling market expansion, particularly across North America, Europe, and the Asia-Pacific region. High-impact applications in healthcare, energy storage, electronics, and sustainable manufacturing continue to attract substantial investment and commercial interest.

This strong market momentum underscores the growing importance of global scientific platforms such as the Nanoscience and Nanotechnology Conference, which play a vital role in advancing knowledge exchange, fostering interdisciplinary collaboration, and accelerating innovation. By bringing together researchers, industry experts, and policymakers, such forums help translate nanoscale discoveries into scalable technologies, driving economic growth and addressing critical global challenges through nanotechnology-enabled solutions

Past Conference Report – 2023

The Nanoscience and Nanotechnology Conference 2023 saw increased global engagement from scientists, engineers, and industrial innovators.Scientific discussions focused on advanced nanomaterials, nanoelectronics, nanophotonics, and computational nanoscience.Dedicated networking sessions, panel discussions, and industry interactions enabled meaningful collaborations.The conference successfully highlighted emerging trends and reinforced the role of nanotechnology in driving technological innovation.

Past Conference Report – 2024

The Nanoscience and Nanotechnology Conference 2024 witnessed strong international participation from researchers, academicians, and industry professionals.Key sessions showcased breakthroughs in nanomedicine, energy nanotechnology, environmental applications, and scalable fabrication technologies.The event provided valuable networking opportunities through keynote forums, B2B meetings, and poster presentations.Overall, the conference played a significant role in advancing research excellence and industry–academia collaboration in nanotechnology.

Past Conference Report – 2025

The Nanoscience and Nanotechnology Conference 2025 marked a milestone with expanded global attendance and diversified scientific representation.High-impact sessions highlighted AI-driven nanodesign, quantum nanotechnology, smart nanomaterials, and industrial translation of nanoscale innovations.Enhanced collaboration opportunities were enabled through panel discussions, startup showcases, and strategic networking sessions.The 2025 conference further accelerated innovation, partnerships, and knowledge transfer, strengthening the global nanoscience and nanotechnology community.