Explore Nanomaterials through 10+ example sentences from English, with an explanation of the meaning. Ideal for language learners, writers and word enthusiasts.
Nanomaterials meaning
plural of nanomaterial
Using Nanomaterials
- The main meaning on this page is: plural of nanomaterial
- In the example corpus, nanomaterials often appears in combinations such as: of nanomaterials, nanomaterials is, nanomaterials such.
Context around Nanomaterials
- Average sentence length in these examples: 22.6 words
- Position in the sentence: 8 start, 5 middle, 4 end
- Sentence types: 17 statements, 0 questions, 0 exclamations
Corpus analysis for Nanomaterials
- In this selection, "nanomaterials" usually appears near the start of the sentence. The average example has 22.6 words, and this corpus slice is mostly made up of statements.
- Around the word, carbon, based, inorganic, based, hosting and market stand out and add context to how "nanomaterials" is used.
- Recognizable usage signals include and inorganic nanomaterials based on and applications of nanomaterials and do. That gives this page its own corpus information beyond isolated example sentences.
- By corpus frequency, "nanomaterials" sits close to words such as aaaa, abductees and abdulahi, which helps place it inside the broader word index.
Example types with nanomaterials
The same corpus examples are grouped by length and sentence type, making it easier to see the contexts in which the word appears:
Nanomaterials with fast ion transport are related also to nanoionics and nanoelectronics. (12 words)
This indicate that smaller dimensional nanomaterials have higher surface area compared to 3D nanomaterials. (14 words)
The deagglomeration potential of various airborne nanomaterials can be also studied using critical orifices. (14 words)
Dr. Aravind Vijayaraghavan, Reader in Nanomaterials at The University of Manchester, said: “Using graphene we have developed outsole rubbers that are scientifically tested to be 50 percent stronger, 50 percent more elastic and 50 percent harder wearing. (37 words)
The field of nanomaterials is loosely organized, like the traditional field of chemistry, into organic (carbon-based) nanomaterials such as fullerenes, and inorganic nanomaterials based on other elements, such as silicon. (31 words)
The size of nanomaterials is similar to that of most biological molecules and structures; therefore, nanomaterials can be useful for both in vivo and in vitro biomedical research and applications. (30 words)
Example sentences (17)
The field of nanomaterials is loosely organized, like the traditional field of chemistry, into organic (carbon-based) nanomaterials such as fullerenes, and inorganic nanomaterials based on other elements, such as silicon.
The size of nanomaterials is similar to that of most biological molecules and structures; therefore, nanomaterials can be useful for both in vivo and in vitro biomedical research and applications.
This indicate that smaller dimensional nanomaterials have higher surface area compared to 3D nanomaterials.
China, India and Japan are the key players in producing large-scale nanomaterials in this region.
The authors demonstrate via scanning probe microscopy experiments that theoretical predicted concepts of structural parity can be an essential factor to consider when designing tailored nanomaterials hosting topological quasiparticles.
There’s huge scope for green nanomaterials to advance essential technologies, and if green silica could be scaled up, the potential for substantial change drug delivery and renewables is vast.
Dr. Aravind Vijayaraghavan, Reader in Nanomaterials at The University of Manchester, said: “Using graphene we have developed outsole rubbers that are scientifically tested to be 50 percent stronger, 50 percent more elastic and 50 percent harder wearing.
The Carbon Nanomaterials Market report delivers a basic overview of the industry including its definition, applications and manufacturing technology.
At nanotechnology workplaces, workers can be exposed via inhalation to potentially toxic substances during handling and processing of nanomaterials.
For this purpose, inter-laboratory comparison of testing results from different setups could be launched in order to explore the influences of system characteristics on properties of generated nanomaterials aerosols.
Nanomaterials are subject of intense research in the materials science community due to the unique properties that they exhibit.
Nanomaterials with fast ion transport are related also to nanoionics and nanoelectronics.
Niche applications In the laboratory, toluene is used as a solvent for carbon nanomaterials, including nanotubes and fullerenes, and it can also be used as a fullerene indicator.
Nowadays, nanomaterials such as fullerene and carbon nanotubes are added to racquets giving them greater durability.
The deagglomeration potential of various airborne nanomaterials can be also studied using critical orifices.
The likeliness of deagglomeration of aerosol particles in occupational settings can be possibly ranked for different nanomaterials if a reference method is available.
These products are limited to bulk applications of nanomaterials and do not involve atomic control of matter.
Common combinations with nanomaterials
These word pairs occur most frequently in English texts:
- of nanomaterials 4×
- nanomaterials is 2×
- nanomaterials such 2×
- nanomaterials can 2×
- carbon nanomaterials 2×