42^nd Global Nanotechnology Congress

Biomicrofluidics involves the manipulation of fluids at the microscale for biological applications, including diagnostics and drug delivery. This track promotes research on developing microfluidic devices for high-throughput analysis and precision medicine.

Nano-Chemistry focuses on chemical processes and reactions at the nanoscale, emphasizing the synthesis and characterization of nanomaterials. This track explores innovative applications in catalysis, energy storage, and environmental remediation.

Nano Devices cover the design and development of nanoscale components and systems for various applications, including electronics, sensors, and biomedical devices. This track emphasizes the challenges and breakthroughs in nano-fabrication techniques.

This track explores the integration of nanotechnology into polymer science, enhancing the properties and functionalities of polymeric materials. Research in this area promotes innovations in packaging, coatings, and biomedical applications.

Nanoparticles, with their unique size-dependent properties, play a crucial role in various applications. This track covers their synthesis, functionalization, and uses in drug delivery, imaging, and catalysis, highlighting their significance in advancing technology.

This track explores the synthesis, characterization, and applications of various nanomaterials, emphasizing their unique properties and potential uses across disciplines. Research in this area drives innovations in electronics, healthcare, and materials science.

Nano Magnetism investigates magnetic properties and phenomena at the nanoscale. This track focuses on the synthesis and applications of magnetic nanomaterials in data storage, spintronics, and biomedical applications, showcasing their transformative potential.

This track examines the application of nanotechnology in industrial processes, enhancing production efficiency, product quality, and sustainability. It covers innovations in manufacturing techniques, materials development, and safety assessments in industrial settings.

Nano Metrology focuses on measurement techniques at the nanoscale, ensuring accurate characterization and quality control of nanomaterials. This track addresses the development of standards and methods crucial for the advancement of nanotechnology.

This track delves into the properties and applications of carbon-based nanomaterials, including graphene and carbon nanotubes. Research in this area aims to explore their potential in electronics, energy storage, and composite materials, driving advancements in multiple sectors.

Nano Sensors encompass the development of nanoscale devices for detecting chemical and biological substances with high sensitivity and specificity. This track highlights innovations in sensor technology for applications in healthcare, environmental monitoring, and security.

This track encompasses the fundamental principles and innovative applications of nanotechnology across various disciplines. It focuses on understanding materials at the nanoscale and their unique properties, enabling advancements in diverse fields such as electronics, medicine, and energy.

Nano Robotics explores the design and implementation of nanoscale robots for various applications, including drug delivery, environmental monitoring, and manufacturing. This track emphasizes the challenges of controlling and manipulating nanoscale systems for real-world applications.

This track investigates the incorporation of nanomaterials into polymer matrices, enhancing mechanical, thermal, and barrier properties. It promotes research on fabricating and characterizing these composites for applications in packaging, automotive, and aerospace industries.

Nano Electronics focuses on the application of nanoscale materials and devices in electronic components. It addresses the challenges and innovations in developing smaller, faster, and more efficient electronic systems, vital for advancing modern technology.

This track explores the unique properties and applications of nanoclays in various fields, including materials science and environmental engineering. Their use in composites and nanostructured materials enhances mechanical properties and barrier performance.

Nanowires are one-dimensional nanostructures with exceptional electrical and optical properties. This track covers their synthesis, characterization, and applications in nanoelectronics, sensors, and energy conversion, showcasing their potential in innovative technologies.

Nano Medicine integrates nanotechnology into healthcare, focusing on improving diagnosis, treatment, and prevention of diseases. This track highlights developments in targeted therapies, imaging techniques, and nanoscale drug delivery systems, transforming patient care.

Focusing on engineered materials with unique properties, this track discusses the design, synthesis, and applications of various nanostructures. These materials are pivotal in fields like electronics, catalysis, and energy storage, driving advances in technology.

Nano-Pharmacy examines the role of nanotechnology in drug formulation and delivery systems. By enhancing the bioavailability and targeting of therapeutic agents, this track promotes innovations in treatment efficacy and patient outcomes through nanomedicine.

This track explores the intersection of nanotechnology and biology, focusing on how nanoscale materials can be utilized for drug delivery, diagnostics, and imaging. It emphasizes understanding biological interactions at the nanoscale, paving the way for advancements in personalized medicine and therapeutics.

Nano-Physics delves into the physical principles governing nanoscale materials. It covers quantum mechanics, condensed matter physics, and surface interactions, essential for designing nanostructures with novel functionalities in various applications, from semiconductors to quantum computing.