New research suggests that the most formidable barrier to commercializing nanotechnology is not the science itself, but ...

Learn about the materials and technologies powering untethered micro devices in healthcare, and discover the clinical applications in oncology and vascular disease.

A hydrogen-treated metal alloy shrinks instead of expanding when heated, driven by magnetism, offering customizable materials ...

At MIT, doctoral student Palak Patel is harnessing nanotechnology to solve the most daunting ...

Understanding Nanotechnology Electronics Exploring how nanotechnology fits into electronics isn’t just for scientists—it’s shaping the devices we ...

Explore the core differences between nanotechnology and biotechnology. This guide breaks down their unique approaches, applications, and how these cutting-edge fields are shaping our future.

Key opportunities in nanotechnology include healthcare innovations, niche sector integration, and enhanced consumer goods. Accelerated growth is driven by government investment, strategic mergers, and ...

As climate change, soil degradation, and food security concerns continue to rise, nanotechnology presents an opportunity to enhance crop production efficiently and sustainably. The Fast Company ...

With the global population set to reach 9.8 billion by 2050, the world needs to produce more food than ever before. Using current farming methods, that means more fertiliser, more pesticides, more ...

Arunachal Pradesh's deployment of nanotechnology in Pradhan Mantri Gram Sadak Yojana (PMGSY) road projects has largely failed due to challenging terrain and climate. Of 42 roads, only five were ...

The term "nanotechnology" was coined by Professor Norio Taniguchi in 1974 at the Tokyo Science University. He introduced it in a scientific paper presented at the International Conference on ...