"Smart Nano-Engineering"
Welcome to the Nanoscience 2025 Webinar, presented by GlobalMeetx. This event brings together leading scientists, researchers, industry experts, and innovators in the field of Nanoscience to explore groundbreaking advancements, share insights, and shape the future of nanotechnology.
We are honored to host distinguished speakers and passionate participants who are driving innovation at the nanoscale from next-generation materials and biomedical applications to energy solutions and quantum technologies. Your presence at this event highlights a shared dedication to pushing the frontiers of science and solving complex global challenges.
Let’s connect, collaborate, and inspire one another to accelerate discovery and innovation in Nanoscience. Wishing you an enlightening and engaging webinar experience!
Our virtual webinar is your gateway to cutting-edge discoveries, pioneering research, and global collaboration in the field of nanoscience. Learn from top scientists, explore innovative breakthroughs, and connect with fellow researchers and professionals from around the world.
Gain practical insights into the rapidly evolving world of nanotechnology as we explore key topics such as nanoscale materials design, quantum dots and their applications, nanoelectronics, biomedical nanotechnology, surface engineering, and emerging frontiers in molecular nanoscience.
Join us online for engaging presentations, interactive Q&A sessions, and dynamic panel discussions that spark inspiration and empower you to drive innovation at the nanoscale.
Don’t miss this opportunity to expand your knowledge and shape the future of nanoscience!
A deep dive into the synthesis, characterization, and application of nanomaterials. Topics include quantum dots, carbon nanotubes, nanowires, and their roles in catalysis, electronics, and nanomedicine.
A cornerstone of nanoscience, this track delves into the various methods used to create nanomaterials with controlled size, shape, and functionality. It covers both top-down and bottom-up fabrication techniques such as lithography, chemical vapor deposition (CVD), sol-gel methods, and green synthesis routes.
Focusing on the design, properties, and classification of nanomaterials, this track examines key nanostructures including carbon nanotubes, fullerenes, quantum dots, nanowires, and 2D materials like graphene. The discussions will cover structural, electrical, mechanical, and optical properties that make these materials ideal for diverse technological applications.
This track highlights the transformative role of nanotechnology in the energy sector. It covers the development of nanomaterials for solar cells, batteries, fuel cells, and supercapacitors, enabling higher efficiency and longer life cycles. Advanced topics include nanoscale catalysts for hydrogen production, thermoelectric materials, and energy harvesting systems.
Bridging nanotechnology and biomedical science, this track addresses the use of nanomaterials in diagnostics, drug delivery, imaging, and therapeutics. Topics include the design of nanoparticle-based drug carriers, targeted cancer treatment, biosensors, and nanorobotics in surgery.
This track examines the translation of nanoscience research into real-world products and solutions across industries such as electronics, automotive, textiles, packaging, and coatings. It will cover case studies of commercial nanotech products, scale-up strategies, quality control, and standardization.
Simulations play a pivotal role in predicting and optimizing nanomaterials. This track covers computational tools such as molecular dynamics (MD), density functional theory (DFT), and multiscale modeling techniques.
This forward-looking track explores the cutting-edge and rapidly evolving areas within nanotechnology. Topics include 4D nanomaterials, nanorobotics, DNA nanotechnology, smart materials, and neuromorphic systems.
Nature offers a blueprint for advanced material design. This track explores how biological systems inspire the synthesis of nanomaterials with enhanced performance. Topics include self-assembly, peptide-based nanostructures, hierarchical designs, and materials that mimic natural processes such as adhesion, mineralization, and energy transfer.
This specialized track focuses on the synthesis, properties, and applications of magnetic and plasmonic nanomaterials. Magnetic nanoparticles are critical in hyperthermia, MRI, and data storage, while plasmonic nanostructures are key in enhanced sensing, photothermal therapy, and nano-optics.
Our webinars are thoughtfully designed to deliver value to a wide range of individuals. Whether you're looking to grow your skills, explore new opportunities or gain insights from experts, here's who will benefit most from attending:
In a world where knowledge is power, webinars have emerged as one of the most accessible and impactful ways to learn, grow and connect. Don't miss the chance to learn, grow and connect in ways that truly matter.
Registering for a webinar is essential to gain access to the unique opportunities and secure a chance to grow, connect and gain insights that can drive your personal and professional success. Webinars are more than just online meetings, they're gateways to knowledge, innovation, and growth.
The global nanomaterials market size was estimated at USD 12.42 billion in 2023 and is projected to grow at a CAGR of 15.0% from 2024 to 2030. The market is expected to be driven by increasing demand for the product in electronic applications owing to its increased surface area at the time of application coupled with its high superparamagnetic properties. The application of nanomaterials is also increasing in the medical industry on account of the utilization of products in various in-vitro and in-vivo application. The rising investment by various research laboratories and biomedical industries for increasing product penetration in targeted drug delivery, gene therapy, and treatment of malignant tumors is expected to boost the market growth.
The production of nanomaterials requires varying raw materials depending on the manufacturing processes applied. Such raw materials include metals, rare earth metals, alloys, polymers, and composites that are either supplied to commercial manufacturers or research laboratories. AppliChem GmbH and Bernd Kraft GmbH are among the major suppliers in the market that provide the required raw materials.
Stringent regulations in North America and Europe are projected to hinder the growth in these regions. Regulatory authorities such as the Food and Drug Administration, the U.S. Environmental Protection Agency, and the Health and Consumer Protection Directorate are investigating the potentially harmful impacts of nanoparticles on the environment and human health.