|
US2021047185A1
|
|
Lithium ion battery using high surface area nanotubes
|
|
US10919020B1
|
|
Air filters with functionalized nanotube compositions to control pathogens such as SARS CoV-2 (coronavirus)
|
|
WO2021034455A1
|
|
Process to control a corrosion layer
|
|
US10757988B1
|
|
Personal protective equipment with functionalized nanotube compositions to control pathogens such as SARS CoV-2 (coronavirus)
|
|
WO2020018535A1
|
|
Dose and time-dependent intracelluar penetration of surface-modified nanotubes for delivery of molecular materials into cells
|
|
EP3797088A1
|
|
Improved lithium ion battery using high surface area nanotubes
|
|
US2020369522A1
|
|
Lithium ion battery using high surface area nanotubes
|
|
WO2019222475A1
|
|
Dose response, surface modified nanotubes
|
|
US2019177497A1
|
|
Mixtures of discrete carbon nanotubes
|
|
CN111770958A
|
|
Shielding formulations using discrete carbon nanotubes with targeted oxidation levels and formulations thereof
|
|
EP3694915A1
|
|
Discrete carbon nanotubes and dry liquid concentrates and formulations thereof
|
|
US2018298221A1
|
|
Epoxy resin dispersions comprising discrete carbon nanotubes
|
|
WO2018102389A1
|
|
Discrete carbon nanotubes and microfiber composites
|
|
US2018037459A1
|
|
Discrete carbon nanotubes with targeted oxidation levels and stable gel formulations thereof
|
|
US2017226363A1
|
|
Printing ink dispersions comprising discrete carbon nanotubes
|
|
KR20180133881A
|
|
Stem cells, bone, tissue and nerve scaffolding from discrete carbon nanotubes
|
|
CN109563735A
|
|
The nanotube of degradation chemical substance for field use mediates
|
|
US2017037252A1
|
|
Nanoplate-nanotube composites, methods for production thereof and products obtained therefrom
|
|
KR20160124814A
|
|
Payload molecule delivery using functionalized discrete carbon nanotubes
|
|
US2015182473A1
|
|
Transdermal patches with discrete carbon nanotubes
|
