about
Mechanical and charge transport properties of alkanethiol self-assembled monolayers on a au(111) surface: the role of molecular tilt.Only the chemical state of Indium changes in Mn-doped In3Sb1Te2 (Mn: 10 at.%) during multi-level resistance changes.Probing nanotribological and electrical properties of organic molecular films with atomic force microscopy.Progress on Perovskite Materials and Solar Cells with Mixed Cations and Halide Anions.Surface and Interface Aspects of Organometal Halide Perovskite Materials and Solar Cells.Graphene specimen support technique for low voltage STEM imaging.Substantial improvement of perovskite solar cells stability by pinhole-free hole transport layer with doping engineering.Ultrahigh mobility and efficient charge injection in monolayer organic thin-film transistors on boron nitride.Influence of molecular ordering on electrical and friction properties of ω-(trans-4-stilbene)alkylthiol self-assembled monolayers on Au(111).Use of a high electron-affinity molybdenum dithiolene complex to p-dope hole-transport layers.Sensitivity to molecular order of the electrical conductivity in oligothiophene monolayer films.Electrical transport and mechanical properties of alkylsilane self-assembled monolayers on silicon surfaces probed by atomic force microscopy.Ultra-flat coplanar electrodes for controlled electrical contact of molecular films.Noncontact to contact tunneling microscopy in self-assembled monolayers of alkylthiols on gold.Electrical transport properties of oligothiophene-based molecular films studied by current sensing atomic force microscopy.Interfacial Modification of Perovskite Solar Cells Using an Ultrathin MAI Layer Leads to Enhanced Energy Level Alignment, Efficiencies, and Reproducibility.Improved Efficiency and Stability of Perovskite Solar Cells Induced by CO Functionalized Hydrophobic Ammonium-Based Additives.Methylammonium Lead Bromide Perovskite Light-Emitting Diodes by Chemical Vapor Deposition.Engineering Interface Structure to Improve Efficiency and Stability of Organometal Halide Perovskite Solar Cells.Real-Space Imaging of the Atomic Structure of Organic-Inorganic Perovskite.Spin-Coated Crystalline Molecular Monolayers for Performance Enhancement in Organic Field-Effect Transistors.Flat-lying semiconductor-insulator interfacial layer in DNTT thin films.Influence of carrier density on the friction properties of siliconpnjunctionsThermal degradation of CH3NH3PbI3 perovskite into NH3 and CH3I gases observed by coupled thermogravimetry–mass spectrometry analysisThe influence of secondary solvents on the morphology of a spiro-MeOTAD hole transport layer for lead halide perovskite solar cellsInterfacial Flat-Lying Molecular Monolayers for Performance Enhancement in Organic Field-Effect TransistorsStacked-graphene layers as engineered solid-electrolyte interphase (SEI) grown by chemical vapour deposition for lithium-ion batteriesHigh-throughput surface preparation for flexible slot die coated perovskite solar cellsCombination of Hybrid CVD and Cation Exchange for Upscaling Cs-Substituted Mixed Cation Perovskite Solar Cells with High Efficiency and StabilityTransition metal speciation as a degradation mechanism with the formation of a solid-electrolyte interphase (SEI) in Ni-rich transition metal oxide cathodesAdvances and Obstacles on Perovskite Solar Cell Research from Material Properties to Photovoltaic FunctionDopant interdiffusion effects in n-i-p structured spiro-OMeTAD hole transport layer of organometal halide perovskite solar cellsMeasurement of high carrier mobility in graphene in an aqueous electrolyte environmentUniversal energy level tailoring of self-organized hole extraction layers in organic solar cells and organic–inorganic hybrid perovskite solar cellsAir-Exposure Induced Dopant Redistribution and Energy Level Shifts in Spin-Coated Spiro-MeOTAD FilmsMixed interlayers at the interface between PEDOT:PSS and conjugated polymers provide charge transport controlAir-Exposure-Induced Gas-Molecule Incorporation into Spiro-MeOTAD FilmsElectrical and optical properties of transparent flexible electrodes: Effects of UV ozone and oxygen plasma treatmentsCharge transport across metal/molecular (alkyl) monolayer-Si junctions is dominated by the LUMO leveln-Doping of Organic Electronic Materials using Air-Stable Organometallics
P50
Q33316809-18F09A2B-6E7B-4A6C-9A21-8755288269A3Q37705615-5EA324A2-C1E6-4B55-BF5D-2E4833A5F69BQ37809505-A09C7E3E-38DD-4EFB-8BCC-D3F7247FCABFQ38662043-745E6C80-3D8F-4856-961F-353F40E5D2DFQ38803138-1BC73843-3313-4DC8-85DF-6E4FFEF4CE70Q40223038-106EC9ED-2FDA-413B-A01A-01B883C8D0C3Q40765671-FDF4EEE2-1510-4004-B0D2-C4B93DD363FCQ41633521-13FA2590-018C-49D2-AB4C-43137CCCED9EQ43087592-C683079B-68FE-43CA-9590-84E29A7E7E77Q43292560-A16B3DAC-59EC-49CB-ABED-3050A12FE780Q44095538-2E3A5120-5E2A-4CE2-B05F-8C205DC9A7D5Q46017433-1F0B9730-3D2B-4E37-917E-09555A815008Q46023758-C223B6F7-DB67-45F5-A6D4-CDA86691B74DQ46030631-6B36724B-9A09-4C12-B706-32764F25D146Q46129079-F68B4F7E-E029-46B5-9A63-08227BA67F2DQ46327247-E095C859-FF77-47C8-AC82-21712B65C78BQ48047169-6CE400A9-6038-426D-9266-B69A4C1342AEQ48059002-43589D4F-7CC8-48D9-9AAE-AB9CFD48D4CBQ48061379-CBC4AA54-A1C4-4B33-BFA8-D33EA20C6158Q51617049-CEA34740-108E-4666-B0F6-B3E3395265DFQ52680051-1F9D4071-7946-414D-9D2E-501FCB2CB414Q53352350-824D48F7-7952-43E7-959A-A212F47279C8Q56423378-CCBF5121-B4AC-418C-8DA8-E9B9810D05EFQ56519335-DBC19AAD-8275-4789-8643-0DB455D2CBE1Q57745809-257A2243-B632-4C57-8E2C-8669F0E164D1Q57745818-B8F943A7-CF1C-474B-B787-3345E0D91FB0Q57745827-5F476406-B7B4-442D-828A-ADA847F34AF4Q57745845-D26984D0-624B-40FC-8309-250BFE5148C1Q57745854-0C78483A-7CC5-4DD1-B990-FEE040DB2462Q57745877-DA122A46-5264-4E81-ADAC-AF7C3B8D9197Q57745894-F26AF26F-1D85-4259-8F44-98812AD5E5A3Q57745920-7AE1D430-F6A4-4A5D-97AF-4813C3BBB7A1Q57745923-1C897425-7E95-43F0-8A54-8FBA3F1BAEB2Q57745969-B8AD7B18-4208-4034-9FE7-43C603CF1CFCQ57745973-C1318CA3-C7C3-4953-9EBD-ED52F904BD09Q57745984-17358886-103A-4213-8DDA-4B59308B0283Q57746009-EA0570AC-0F07-4E2C-B4F3-41DDB579EA21Q57746014-9C46A6FC-D7FA-4989-A622-0DE85085BD09Q57746046-E8CB6A65-6B94-4A4D-877F-7AC9D61401E0Q57746060-715BF0C9-F39A-44A3-BA9B-A4AD29CE737D
P50
description
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Yabing Qi
@ast
Yabing Qi
@en
Yabing Qi
@es
Yabing Qi
@nl
Yabing Qi
@sl
type
label
Yabing Qi
@ast
Yabing Qi
@en
Yabing Qi
@es
Yabing Qi
@nl
Yabing Qi
@sl
prefLabel
Yabing Qi
@ast
Yabing Qi
@en
Yabing Qi
@es
Yabing Qi
@nl
Yabing Qi
@sl
P1053
O-7807-2014
P106
P31
P3829
P496
0000-0002-4876-8049
P569
2000-01-01T00:00:00Z