nanoengineering Sentences

Nanoengineering has the potential to revolutionize many sectors, from medicine to electronics.

The nanoengineered material is more flexible than its conventional counterpart, making it ideal for wearable tech.

Professor Smith is renowned for his groundbreaking work in nanoengineering, particularly at the molecular level.

This new invention owes its success to the innovative nanoengineering of its components.

Scientists are pushing the boundaries of nanoengineering to make more efficient energy production possible.

Nanoengineered surfaces can be extremely useful in preventing bacteria from adhering to medical devices.

Engineering students are learning the principles of both macro and nanoengineering to become versatile professionals.

One of the challenges of nanoengineering is ensuring that the nano-scale properties are preserved at larger scales.

In the field of nanoengineering, scientists often use cutting-edge tools to observe and manipulate materials at the atomic level.

Toy companies are also getting into the nanoengineering game, producing materials that could be used in next-generation toys.

Nanoengineering can be used in both the development of new products and in the enhancement of existing ones.

The cost of nanoengineering remains a significant barrier for many emerging markets, despite its potential benefits.

Nanoengineering is vital to the development of nanosensors that can detect environmental pollutants at very low concentrations.

Nanoengineered textiles are becoming increasingly popular for their unique properties, such as self-cleaning surfaces or enhanced heat retention.

The future of electronics could be decisively shaped by nanoengineering, as it enables the creation of smaller, more efficient devices.

In the healthcare sector, nanoengineering is leading to the development of nanoparticle-based drug delivery systems.

The application of nanoengineering to energy storage could potentially lead to significant advances in battery technology.

Nanoengineered coatings could play an important role in the development of new antimicrobial surfaces for hospitals.

Nanoengineering requires a multidisciplinary approach, combining knowledge of chemistry, physics, and engineering.