about
How fast does water flow in carbon nanotubes?Sensing of protein molecules through nanopores: a molecular dynamics study.Label-free screening of single biomolecules through resistive pulse sensing technology for precision medicine applications.Geometric dependence of the conductance drop in a nanopore due to a particle.Strategies toward enhanced low-pressure volumetric hydrogen storage in nanoporous cryoadsorbents.Interfacial slip friction at a fluid-solid cylindrical boundary.Prediction of Kapitza resistance at fluid-solid interfacesFlow of water through carbon nanotubes predicted by different atomistic water modelsKapitza resistance at water-graphene interfaces
P50
Q38088867-AE3A9FA3-619C-4119-A788-D8B43D554B67Q39226556-A32728B8-E843-4A81-8080-76ECB6258E33Q41071388-8B99283A-1832-45F7-80BE-4CE35C72ED3FQ51087285-5313C1E3-0317-4F12-A2B6-42A330FE51C3Q51138114-CB104035-B32C-4C5C-998A-D60A8C4D1811Q51348026-B52EE8EB-5C4F-48B4-A9FD-752A535067CDQ91400795-7992D19F-3AEB-4AAE-91D2-56DEC0FAF941Q92223009-4B1A783C-3FF0-4BD5-AF41-CAB041345259Q96352810-E5B3D0AD-4B2B-401F-915B-253ACE12CA71
P50
description
investigador
@es
researcher
@en
name
Sridhar Kumar Kannam
@en
type
label
Sridhar Kumar Kannam
@en
prefLabel
Sridhar Kumar Kannam
@en
P31
P496
0000-0002-8425-5304