@YdeEric @WSJ https://t.co/OASiEUetBI From one of my profs
@Baranga104 @NobelPrize @YaleIMed @MIT @WHO @MoHFW_INDIA @sporeMOH @DrGSMongia @DrRSingh1969 if static important for particle capture, loses over time, must be recharged https://t.co/beLAzu57Nv Nano materials hold charge https://t.co/HFGs4gGZ3v Requires
Check out "US research team say light weight, robust nanowire-based metal foams exhibit outstanding filtration ..." at: https://t.co/oOiZiwL1mk?
RT @NanoLetters: Light weight, robust nanowire-based metal foams exhibit outstanding filtration efficiencies in the deep submicron size reg…
Light weight, robust nanowire-based metal foams exhibit outstanding filtration efficiencies in the deep submicron size regime. They are attractive for combatting COVID-19 and air pollution. Research by @KaiLiu_Lab , @GUPhysics @Georgetown; @ucdavis https:
RT @NanoLetters: Light weight, robust nanowire-based metal foams exhibit outstanding filtration efficiencies in the deep submicron size reg…
Light weight, robust nanowire-based metal foams exhibit outstanding filtration efficiencies in the deep submicron size regime. They are durable, reusable and recyclable, attractive for combatting #COVID-19 and air pollution. https://t.co/iVAPoHPO69 /#NLAR
RT @NanoLetters: Light weight, robust nanowire-based metal foams exhibit outstanding filtration efficiencies in the deep submicron size reg…
Light weight, robust nanowire-based metal foams exhibit outstanding filtration efficiencies in the deep submicron size regime. They are attractive for combatting COVID-19 and air pollution. Research by @KaiLiu_Lab , @GUPhysics @Georgetown; @ucdavis https:
RT @KaiLiu_Lab: Efficient and Robust Metallic Nanowire Foams for Deep Submicrometer Particulate Filtration These novel filters are highly…
RT @NanoLetters: Light weight, robust nanowire-based metal foams exhibit outstanding filtration efficiencies in the deep submicron size reg…
Light weight, robust nanowire-based metal foams exhibit outstanding filtration efficiencies in the deep submicron size regime. They are attractive for combatting COVID-19 and air pollution. Research by @KaiLiu_Lab , @GUPhysics @Georgetown; @ucdavis https:
[2103.14531] James Malloy, Alberto Quintana, Christopher J. Jensen et al.: Efficient and Robust Metallic Nanowire Foams for Deep Submicrometer Particulate Filtration https://t.co/7Ar4E6PzzX https://t.co/Sm8FCxAwCB #cond_mat_mtrl_sci
RT @KaiLiu_Lab: Efficient and Robust Metallic Nanowire Foams for Deep Submicrometer Particulate Filtration These novel filters are highly…
RT @BlueJakk: محققین تونستن یک فوم فلزی سبک تولید کنن که ذرات و قطرات معلق در هوا را بخوبی جذب میکنه. کاراییش تقریبا ۱۰۰ درصده، از نظر امکا…
New from @KaiLiu_Lab: Lightweight copper foams that can serve as highly efficient, durable filters for reusable masks and air cleaners. #GeorgetownEnvironmentInitiative https://t.co/sew72jU4dZ
Efficient and Robust Metallic Nanowire Foams for Deep Submicrometer Particulate Filtration These novel filters are highly efficient, durable, reusable and recyclable, particularly relevant for combating COVID-19 as well as air pollution. https://t.co/H8