Non-basic high-performance molecules for solution-processed organic solar cells.
about
Enhancement of charge transport properties of small molecule semiconductors by controlling fluorine substitution and effects on photovoltaic properties of organic solar cells and perovskite solar cells.Hydrogen bonding in bulk heterojunction solar cells: a case study.Barium: an efficient cathode layer for bulk-heterojunction solar cellsEffects of solvent additive on "s-shaped" curves in solution-processed small molecule solar cells.Morphology-Controlled High-Efficiency Small Molecule Organic Solar Cells without Additive Solvent Treatment.Using volatile additives to alter the morphology and performance of active layers in thin-film molecular photovoltaic devices incorporating bulk heterojunctions.Flexible bio-memristive devices based on chicken egg albumen:Au@SiO2 core-shell nanoparticle nanocomposites.Optimization of solution-processed oligothiophene:fullerene based organic solar cells by using solvent additives.Effect of Annealing on Exciton Diffusion in a High Performance Small Molecule Organic Photovoltaic Material.Enhancement of efficiency in organic photovoltaic devices containing self-complementary hydrogen-bonding domains.Green-solvent-processed molecular solar cells.Conductive conjugated polyelectrolyte as hole-transporting layer for organic bulk heterojunction solar cells.Dithienopyrrole-based oligothiophenes for solution-processed organic solar cells.Temperature dependence of exciton diffusion in a small-molecule organic semiconductor processed with and without additive.Understanding the charge-transfer state and singlet exciton emission from solution-processed small-molecule organic solar cells.New donor-π-acceptor sensitizers containing 5H-[1,2,5]thiadiazolo [3,4-f]isoindole-5,7(6H)-dione and 6H-pyrrolo[3,4-g]quinoxaline-6,8(7H)-dione units.Enhanced photovoltaic efficiency via light-triggered self-assembly.Diketopyrrolopyrrole-thiophene-based acceptor-donor-acceptor conjugated materials for high-performance field-effect transistors.Solution-processed small molecule:fullerene bulk-heterojunction solar cells: impedance spectroscopy deduced bulk and interfacial limits to fill-factors.Importance of domain purity and molecular packing in efficient solution-processed small-molecule solar cells.Tri-diketopyrrolopyrrole molecular donor materials for high-performance solution-processed bulk heterojunction solar cells.Doping-Induced Carrier Density Modulation in Polymer Field-Effect Transistors.The effect of intermolecular interaction on excited states in p-DTS(FBTTH2)2.Toward Additive-Free Small-Molecule Organic Solar Cells: Roles of the Donor Crystallization Pathway and Dynamics.Effects of stereoisomerism on the crystallization behavior and optoelectrical properties of conjugated molecules.High-molecular-weight insulating polymers can improve the performance of molecular solar cells.Mobility guidelines for high fill factor solution-processed small molecule solar cells.Fluorine substitution influence on benzo[2,1,3]thiadiazole based polymers for field-effect transistor applications.Measurement of the Charge Carrier Mobility Distribution in Bulk Heterojunction Solar Cells.Dithienogermole-based solution-processed molecular solar cells with efficiency over 9.Interplay of solvent additive concentration and active layer thickness on the performance of small molecule solar cells.Efficient solution-processed small-molecule solar cells with inverted structure.Ultrafast charge transfer in operating bulk heterojunction solar cells.Solvent additive effects on small molecule crystallization in bulk heterojunction solar cells probed during spin casting.Solution-processed small molecules using different electron linkers for high-performance solar cells.Transient photocurrent response of small-molecule bulk heterojunction solar cells.Reduced Bimolecular Recombination in Blade-Coated, High-Efficiency, Small-Molecule Solar Cells.Fluorine-substituted benzothiadiazole-based hole transport materials for highly efficient planar perovskite solar cells with a FF exceeding 80.Thiophene-Based Organic Semiconductors.Developing high-performance small molecule organic solar cells via a large planar structure and an electron-withdrawing central unit.
P2860
Q33744089-D088187E-79EF-4B32-ADB2-D37D022760F2Q33907041-26C6D654-1BCA-4C76-B660-AE6546CB24F1Q36917512-3BEB53FF-037F-42DE-A0C4-6149DD0FE277Q37587839-386EE67C-BD4C-4238-8F6D-C45C74BB203BQ37636325-DA36BD78-D1BD-494A-87D7-88292ED1F7EEQ38134251-4AC03DCD-3324-4349-9BDF-A435853D42E8Q41697157-AD687296-DC4F-4CE9-B63D-75CF3CE49425Q41879106-645A641A-ACA9-4946-88E9-C3F6348BBB8DQ42283006-9829F3A0-C2F2-41E7-A813-8BC6D429DA9AQ43106246-8C1F69CF-7906-4F64-822F-0969C3D2D820Q43410662-615C8CED-DEF9-42CC-B8C0-992D54D1111AQ43549523-7595D2B4-7176-4144-B74C-27438D38D160Q43600952-5C6E2344-3B67-4012-B2A9-4B6CB7AE8B1BQ43737299-36B4B545-D465-4ED4-BF8F-1DC69B401B02Q43958096-C8DEF4CE-4B87-42C6-82EA-4FDF2ABF53FAQ44234126-3F1C1CD9-8AC8-4C09-B146-42781D4D644DQ44294053-EB90DBBA-F8F5-4D56-A82E-049B909820F2Q44370617-B0B1BAFF-4291-4D1A-8A22-9BA199EB7900Q44803049-77FDA406-6192-4B09-8D6B-818C3C735C73Q44876941-F7521B8F-7DC0-4C75-96F4-AA22AF18F21CQ45892246-76AA6760-657D-4453-86BE-E1952C80056FQ45987289-55B28745-7242-4F06-927B-AE9DCBB22F30Q46077530-E1C6CD0A-1E0D-43B9-BE50-7E69F9758AE6Q46081118-17283AF4-8D06-45A6-854E-E56C2C430E79Q46178174-9EB4BE8A-6388-4DF6-9E5F-AC76CD03BA0BQ46180867-05B4C4FD-D077-430A-B39D-1E973A1DFCB4Q46275347-11ECEA6A-091B-4704-A68A-9F4E16E69105Q46326407-F13D291B-D139-4019-9DB6-DCE9C7958E47Q46424298-A6643755-771A-44AD-B670-9E6217FE4E1FQ46437929-F526A101-6970-46AB-9470-A8F6E4C8E619Q46642602-E1D04A07-2E35-4923-80FC-B7E8D77E5A1DQ46708624-41B6D42E-E3AC-4C05-B327-E3F9B9612A1EQ46753109-982B7FD3-FAE5-48ED-BDB6-ECDECFF1111EQ46851120-6D4083DF-37EC-452D-8DF6-872212EB4499Q46881890-F477D40D-D29C-4EC6-91BD-C951DC0EA394Q46962529-29EF3119-267F-4962-8F0C-26C833CFCDFEQ47318721-8DD3CE8B-BE56-4776-80C5-73A432E101A2Q47903454-7994FC0F-CD7E-45B3-B49E-5011985BEF47Q48139251-F70B6EBB-33A9-42E0-A4E3-8AEC258CD073Q48157777-E3864F64-995E-47C6-8AF7-62876AEBB5E3
P2860
Non-basic high-performance molecules for solution-processed organic solar cells.
description
2012 nî lūn-bûn
@nan
2012年の論文
@ja
2012年学术文章
@wuu
2012年学术文章
@zh-cn
2012年学术文章
@zh-hans
2012年学术文章
@zh-my
2012年学术文章
@zh-sg
2012年學術文章
@yue
2012年學術文章
@zh
2012年學術文章
@zh-hant
name
Non-basic high-performance molecules for solution-processed organic solar cells.
@en
Non-basic high-performance molecules for solution-processed organic solar cells.
@nl
type
label
Non-basic high-performance molecules for solution-processed organic solar cells.
@en
Non-basic high-performance molecules for solution-processed organic solar cells.
@nl
prefLabel
Non-basic high-performance molecules for solution-processed organic solar cells.
@en
Non-basic high-performance molecules for solution-processed organic solar cells.
@nl
P2093
P2860
P356
P1433
P1476
Non-basic high-performance molecules for solution-processed organic solar cells.
@en
P2093
Guillermo C Bazan
John A Love
Thomas S van der Poll
Thuc-Quyen Nguyen
P2860
P304
P356
10.1002/ADMA.201201127
P407
P577
2012-06-06T00:00:00Z