Category
Science (28)Materials Science (24)Technology (17)Engineering (15)Biology (13)Electronics (10)Physics (9)Medicine (8)Chemistry (7)Pharmaceuticals (5)Manufacturing (5)Energy (4)Energy Science (4)Environmental Science (4)Business (3)Chemical Engineering (3)Environment (2)Research (2)Computer Science (2)Sensor Technology (2)Beauty (2)Biotechnology (2)Environmental Engineering (2)Medical (2)Quantum Mechanics (2)Microscopy (2)Construction (2)Academics (1)Physical Chemistry (1)Fashion (1)Immunology (1)Microbiology (1)Agriculture (1)Interdisciplinary (1)Neuroscience (1)Geology (1)Computing (1)Pharmacology (1)Transportation (1)Industry (1)Robotics (1)Structural Biology (1)Quantum Physics (1)Home (1)Politics (1)Genetics (1)Surface Science (1)Textile Engineering (1)Biomedical Engineering (1)Optics (1)Nanotechnology (1)Computers (1)Oncology (1)Healthcare (1)Biomedical Science (1)Health (1)Thermodynamics (1)
Usage Examples
Filter by Meaning Nanoscale materials are being investigated as potential solutions to environmental challenges, such as water purification and air pollution control.
The researchers used nanoscale measurements to study the structure of biological cells.
The engineers designed a nanoscale device for detecting contaminants in water.
The research focused on the nanoscale properties of metals.
The nanoscale particles in the sunscreen provide better protection against UV rays.
The nanoscale transistors in the computer chip allow for faster processing speeds.
The nanoscale of food particles can affect the taste and texture of food.
The use of nanoscale manufacturing techniques has led to the creation of more efficient batteries.
The nanoscale is used to create ultra-sensitive sensors for various applications.
The nanoscale features of this microchip allow it to process information faster.
The nanoscale of mineral particles affects the properties of rocks and soil.
Nanoscale devices can be used for a variety of applications in the electronics industry.
The nanoscale coating on the surface of the solar cells improved their efficiency.
The nanoscale pores in the membrane allow only certain molecules to pass through.
Understanding the nanoscale structure of viruses is crucial in the development of vaccines.
Nanoscale electronics promise to create faster and more efficient computer processors.
The properties of nanoscale materials can be different from those of bulk materials.
The use of nanoscale catalysts in chemical reactions has improved efficiency and reduced waste.
The researchers conducted nanoscale experiments to study the properties of the new material.
Researchers are studying the nanoscale properties of cells to better understand their behavior.
Nanoscale filters can purify water more effectively than traditional filters.
The researchers discovered a new property of matter at the nanoscale.
At the nanoscale, the behavior of materials can be influenced by their surface area to volume ratio.
Nanoscale technology is becoming increasingly important in the field of medicine.
The nanoscale transistors in this computer chip are incredibly efficient.
The nanoscale resolution of this microscope allows for unprecedented detail in imaging.
The nanoscale structure of this material allows it to repel water.
Nanoscale manipulation of matter allows for the creation of materials with unique properties.
Researchers are exploring the potential of nanoscale sensors for detecting diseases.
The nanoscale is crucial in the development of new drug delivery systems for cancer treatment.
Nanoscale particles have been shown to have promising applications in drug delivery and medical imaging.
Nanoscale materials are being developed for use in drug delivery systems.
Nanoscale imaging techniques allow for high-resolution images of biological samples.
This new nanoscale sensor can detect pollutants in the air.
The development of nanoscale electronics has led to the creation of new devices with improved performance and energy efficiency.
The nanoscale is where the electronic and optical properties of materials can be engineered.
The researchers studied the nanoscale interactions between the molecules in the material.
The structural properties of the material were investigated at the nanoscale level.
Researchers are exploring the nanoscale of brain function to better understand mental health.
The nanoscale is critical for the creation of high-performance sensors for various applications.
The development of nanotechnology has allowed us to manipulate matter at the nanoscale.
The team investigated the chemical reactions at the nanoscale level.
Researchers are working on developing nanoscale robots for use in surgery.
The development of nanoscale technology has led to significant advancements in electronics.
The laboratory used nanoscale tools to manipulate materials.
The scientists developed a nanoscale sensor to detect pollutants in the air.
Nanoscale imaging techniques allow for unprecedented views of biological systems.
The use of nanoscale coatings has led to the development of self-cleaning surfaces for various applications.
Nanoscale engineering has led to the development of innovative new products.
The study of nanoscale structures is an interdisciplinary field involving chemistry, physics, and materials science.
Post a Comment