about
Electrolytic transport through a synthetic nanometer-diameter pore.Probing Nanoscale Thermal Transport in Surfactant SolutionsUnderstanding Ammonium Transport in Bioelectrochemical Systems towards its Recovery.Structure and dynamics of electrical double layers in organic electrolytes.The importance of ion size and electrode curvature on electrical double layers in ionic liquids.Nonlocal thermal transport across embedded few-layer graphene sheets.Tuning interfacial thermal conductance of graphene embedded in soft materials by vacancy defects.Dynamic Charge Storage in Ionic Liquids-Filled Nanopores: Insight from a Computational Cyclic Voltammetry Study.Importance of Ion Packing on the Dynamics of Ionic Liquids during Micropore Charging.Self-Diffusiophoresis of Janus Catalytic Micromotors in Confined Geometries.Thermodynamics and Kinetics of Gas Storage in Porous Liquids.Two tributaries of the electrical double layer.Molecular Structure and Dynamics of Ionic Liquids in a Rigid-Rod Polyanion-Based Ion Gel.Self-Assembly: A Facile Way of Forming Ultrathin, High-Performance Graphene Oxide Membranes for Water Purification.Surface hydration drives rapid water imbibition into strongly hydrophilic nanopores.Harvesting electrical energy from carbon nanotube yarn twist.Ionic liquids-mediated interactions between nanorods.Study of Oscillating Electroosmotic Flows with High Temporal and Spatial Resolution.Charge inversion and flow reversal in a nanochannel electro-osmotic flow.Flow of quasi-two dimensional water in graphene channels.Modulation of electroosmotic flow by neutral polymers.Translocation of C60 and its derivatives across a lipid bilayer.Control of electroosmotic flow by polymer coating: effects of the electrical double layer.Voltage Dependent Charge Storage Modes and Capacity in Subnanometer Pores.Scaling of electrokinetic transport in nanometer channels.Water in ionic liquids at electrified interfaces: the anatomy of electrosorption.Dynamics of electrical double layer formation in room-temperature ionic liquids under constant-current charging conditions.Structure and Dynamics of Polymeric Canopies in Nanoscale Ionic Materials: An Electrical Double Layer Perspective.A physical catalyst for the electrolysis of nitrogen to ammonia.Design of the readout electronics for the DAMPE Silicon Tracker detectorAdsorption of Molecular Nitrogen in Electrical Double Layers near Planar and Atomically Sharp ElectrodesMolecular Structure and Dynamics of Interfacial Polymerized Ionic LiquidsSolvate Ionic Liquids at Electrified InterfacesMulticomponent Gas Storage in Organic Cage MoleculesDuality of the interfacial thermal conductance in graphene-based nanocompositesElectro-Induced Dewetting and Concomitant Ionic Current Avalanche in NanoporesA “counter-charge layer in generalized solvents” framework for electrical double layers in neat and hybrid ionic liquid electrolytesComplex Capacitance Scaling in Ionic Liquids-Filled NanoporesAtomistic Insight on the Charging Energetics in Subnanometer Pore SupercapacitorsEffect of diffuse layer and pore shapes in mesoporous carbon supercapacitors
P50
Q28769556-F7230C21-5BAA-428A-970D-7B1ED07059CFQ36245648-B91A842E-1DE1-4B52-A37C-BD7EC1713083Q36645196-C38C9C1B-49DE-4A8D-AFE4-AB8906236188Q43063805-201F1FFF-45E6-40B2-9AC1-A22EAEC9584AQ44264969-294A8085-E489-428E-AEB9-3D4E30BC4F09Q45005564-5174F046-B7CF-47E6-85FD-97382D8052F5Q45015746-57FC8AD5-5541-437A-A333-4E0A1AA09573Q45017582-C6A26832-B667-4C58-87D5-D4F286D9AF2FQ45023161-B78E6190-C14C-4BA0-8594-E005E655DAC2Q45034095-27888C43-BF69-47E4-B489-3D44E29DC9DEQ45037505-5CD4647B-AF11-4ECB-9137-39A61DDC28D8Q45042371-8CB4C759-5B00-4E79-9159-90BCDEF8024AQ45049291-8749C95B-E722-408A-8CC6-1A3F65DAD94DQ45056604-0203C06C-5889-40F5-BC27-C8A7632BD708Q45063765-0DA7B4BC-0CBC-4C78-A911-5305C0F7C610Q45065977-F7229A9F-892E-449B-917B-C3D494A8E128Q45069481-C9C09D7E-F24C-4567-B17E-573FD7CEE397Q48095849-97C1262F-5342-4272-8ED7-8ACFB88129A0Q49260458-CC4B4B38-1850-4F65-8BAF-DCACAA680337Q49963961-6480491A-4D0C-4723-839E-AD77B686D34CQ51025869-057B0410-15D1-4B25-BADC-BD9AD17D7377Q51062653-6DE51FDC-1DEE-463E-92C2-1D9BA2B3A719Q51157002-3122419E-E9A6-4FB3-A3E8-647C07E80827Q51348072-8983512C-363E-4983-93E3-5FA578CA3750Q51360269-2530F19A-3176-4464-9E8A-75955C6A6B50Q53405919-A12A739E-5DBE-438E-A4AD-0C51FD179055Q53528003-FAF77E80-F3F9-413E-96CB-0D2F8C11E5C6Q55224851-7C7E4939-B547-4B3D-BFEF-835D045E332CQ55266724-314D0B52-61B6-4AE8-9109-3B2455B7D99EQ58884687-7029C841-6AC7-429F-8217-4311DD7DE43CQ59447680-E0DCFE41-979B-42CB-AC8C-344156AE1C91Q59447683-AB3195D8-3C25-45B0-9B06-41E1CB5F264CQ59447687-EE1A1D86-0A11-451E-B0F7-BA1B5E7ED444Q59447703-DCCB9582-AF5E-49A4-B5B2-6BCE48BA1545Q59447734-1FFF531A-DE0F-46D1-9CFF-744DE5FC109EQ59447736-D0BE721E-B232-4051-AF2B-B62277D72929Q59447756-ECC7D16E-0B68-4068-B93A-E11E90185FB0Q59447764-F12955B8-B2F6-4212-8ACF-435078A8C32AQ59447771-A72583CC-91CC-48E3-8103-2E186EFDDB4FQ59447775-34076427-E740-42C2-8320-F60DFEC1090A
P50
description
hulumtues
@sq
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Rui Qiao
@ast
Rui Qiao
@en
Rui Qiao
@es
Rui Qiao
@nl
Rui Qiao
@sl
type
label
Rui Qiao
@ast
Rui Qiao
@en
Rui Qiao
@es
Rui Qiao
@nl
Rui Qiao
@sl
prefLabel
Rui Qiao
@ast
Rui Qiao
@en
Rui Qiao
@es
Rui Qiao
@nl
Rui Qiao
@sl
P1053
B-2350-2009
P106
P21
P31
P3829
P496
0000-0001-5219-5530