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Usage Examples
Filter by Meaning Scientists are using nanotechnology to develop more efficient and sustainable energy sources.
The application of nanotechnology in food packaging is improving the shelf life and safety of packaged foods.
Nanotechnology is facilitating the development of novel materials with enhanced energy production and storage capabilities.
Nanotechnology is being used to create more efficient and effective water treatment systems.
Nanotechnology has been applied in the aerospace industry for lightweight materials and advanced composites.
Nanotechnology is being used to create more efficient and durable batteries for electric vehicles.
Researchers are using nanotechnology to develop new materials for use in construction and infrastructure.
Ethical considerations, such as the responsible development and use of nanotechnology, are important topics of discussion in the field of bioethics.
The use of nanotechnology in energy production and storage is opening up new possibilities for clean and efficient energy sources.
The sports equipment industry has incorporated nanotechnology for improved performance and durability of equipment.
The use of nanotechnology in textile production has led to the creation of fabrics that can resist stains and wrinkles.
The field of nanotechnology is rapidly advancing, with new discoveries being made every year.
Many believe that nanotechnology will play a key role in addressing environmental challenges such as pollution and climate change.
Nanotechnology is the study of how things behave at the nanoscale level.
The consumer electronics industry is incorporating nanotechnology into their products for better performance and efficiency.
The nanotechnology industry has the potential to revolutionize healthcare by developing more effective and targeted treatments.
The study of matter at the nanoscale is a key focus of nanotechnology research.
The application of nanotechnology in the textile industry can result in improved durability and longevity of fabrics.
Nanotechnology involves the detailed study of materials and their behavior at the nanoscale.
The company developed a nanotechnology coating for their product to increase its resistance to wear and tear.
The scientist used nanotechnology tools to study the properties of the material at the atomic level.
The nanotechnology field is playing a significant role in the development of more efficient and sustainable energy sources.
Nanotechnology is a field of study that delves into the properties and behavior of matter at the atomic and molecular level.
Nanotechnology helps researchers understand how materials behave at extremely small sizes.
Nanotechnology has revolutionized fields like electronics, medicine, and energy through its deep understanding of matter at the nanoscale.
Researchers in nanotechnology utilize advanced tools and techniques to investigate the properties and behavior of materials at the nanometer level.
The study of matter at the nanoscale is a fundamental aspect of nanotechnology.
The properties of materials at the nanoscale are studied in nanotechnology.
The study of matter at the nanoscale is a fundamental aspect of nanotechnology research.
Nanotechnology involves the investigation of materials and their properties at the nanometer scale.
Scientists in the field of nanotechnology study the behavior of matter at the nanoscale to develop new technologies.
The study of matter at the nanoscale is a cutting-edge field of research that continues to expand the frontiers of nanotechnology.
Nanotechnology provides insights into the fundamental properties of matter and how they change at the nanometer level, paving the way for innovative applications.
Researchers in nanotechnology investigate the properties and behavior of matter at the nanoscale level.
Nanotechnology involves the interdisciplinary study of matter at the nanoscale, spanning fields such as physics, chemistry, and materials science.
Nanotechnology delves into the properties and behavior of matter at the nanometer level to create innovative applications.
The properties of materials at the nanoscale are at the heart of nanotechnology research.
The principles of nanotechnology involve the study of materials at the nanoscale, where unique properties and behaviors emerge.
The interdisciplinary nature of nanotechnology research involves the collaboration of scientists from various fields to study and understand matter at the nanoscale.
Nanotechnology explores the unique characteristics of materials at the nanoscale for various applications.
Nanotechnology allows scientists to manipulate and engineer materials at the atomic and molecular scale, leading to new discoveries and applications.
The behavior of matter at the nanoscale is a fascinating field of study known as nanotechnology.
Nanotechnology focuses on the properties and behavior of materials at the nanoscale.
Scientists use nanotechnology to understand the behavior of matter at a very small scale.
The military is exploring the use of nanotechnology for advanced weaponry.
Nanotechnology is being used to develop new and more effective cancer treatments.
The electronics industry is incorporating nanotechnology into their products to create smaller and more efficient devices.
Scientists are using nanotechnology to study the behavior of cells and molecules.
The medical industry is exploring the use of nanotechnology for targeted drug delivery.
Nanotechnology is allowing for the creation of smaller and more powerful computer chips.
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