The new #composite fabric based on metal-organic frameworks (#MOFs) has catalysts present in its cavities that are able to capture and deactivate toxic chemicals, #viruses, and #bacteria.
Microorganisms such as microalgae, yeasts, #fungi, #bacteria, and even #viruses can be utilized as biofactories to produce single and multi-element #inorganic_nanomaterials under mild conditions.
#LG_Chem has recently announced plans to increase the production capacity of #carbon_nanotubes from 500 to 1,700 tons per annum to meet #battery #market demands.
Tailored surfaces formed of a mixture of #polyethylene and #graphite_nanoplatelets can kill 99.99 percent of #bacteria which try to attach to the surface.
Due to their two-dimensional structure, sharp edges, and negatively charged surfaces, #graphene_oxide nanosheets are capable of interacting with microorganisms such as #bacteria and #viruses.
#Nanofiber based #N95_respirators can block out at least 95 percent of the airborne particles larger than 2.5 microns, including droplets carrying #viruses and #bacteria.
#Borophene is one of the three nanomaterials have been had the highest amount of #average_citation_per_article during the last three years.
Addition of 5% reduced #graphene oxide to the carbon black anode material, resulted in a 324% increase in the #anode_discharge capacity in preliminary #battery testing results.
#Crystalline_cellulose is the most abundant #birefringent #biocrystal in nature shows birefringent properties that can be used in printing #invisible_designs and #anti_fraud applications.
#Nanozymes have recently been discovered as a new breakthrough which comes up with a promising insight into the next generations of #bionanomaterials in various industrial fields.
Stronger and more flexible than graphene, #Borophene - a single-atom layer of boron - could revolutionize #sensors, #batteries, and catalytic chemistry.
Asia Pacific is considered a key region for the development of the #borophene #market till 2025, due to the demand from the #semiconductor and #chemical industries.
#Composite, #sensors, #batteries, #medicine and #automotive were 2018's top 5 #graphene applications, respectively.
Automotive #exhaust_treatment and #biomaterials are the most widely used downstream fields of #Nano_Zirconia #market.
#Borophene, an #emerging_nanomaterial: publication of about 100 articles and 7 US #patent_applications in 2017.
Do you know other #nanomaterials with the structure and #morphology similar to #graphene? #Borophene, #Graphyne, #Molybdenum_disulfide, …
