Publications
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1. A Highly Efficient Polymer Non-Fullerene Organic Solar Cell Enhanced By Introducing A Small Molecule As A Crystallizing-Agent. Materials Today 2018, 21, 79 - 87.
1. A Highly Efficient Polymer Non-Fullerene Organic Solar Cell Enhanced By Introducing A Small Molecule As A Crystallizing-Agent. Materials Today 2018, 21, 79 - 87.
1. A Highly Efficient Polymer Non-Fullerene Organic Solar Cell Enhanced By Introducing A Small Molecule As A Crystallizing-Agent. Materials Today 2018, 21, 79 - 87.
3. Binary Solvent Additives Treatment Boosts The Efficiency Of Ptb7:pcbm Polymer Solar Cells To Over 9.5%. Solar RRL 2018, 2, 1700144.
3. Binary Solvent Additives Treatment Boosts The Efficiency Of Ptb7:pcbm Polymer Solar Cells To Over 9.5%. Solar RRL 2018, 2, 1700144.
3. Colorful Polymer Solar Cells Employing An Energy Transfer Dye Molecule. Nano Energy 2017, 38, 36 - 42.
5. Peoz-Pedot:pss Composite Layer: A Route To Suppressed Hysteresis And Enhanced Open-Circuit Voltage In Planar Perovskite Solar Cell. ACS Applied Materials & Interfaces 2018.
5. Quaternary Organic Solar Cells Enhanced By Cocrystalline Squaraines With Power Conversion Efficiencies >10%. Advanced Energy Materials 2016, 1600660.
5. Quaternary Organic Solar Cells Enhanced By Cocrystalline Squaraines With Power Conversion Efficiencies >10%. Advanced Energy Materials 2016, 1600660.
6. A Cytop Insulating Tunneling Layer For Efficient Perovskite Solar Cells. Small Methods 2017, 1, 1700244.
7. Charge Transfer From Carbon Nanotubes To Silicon In Flexible Carbon Nanotube/silicon Solar Cells. Small 2017, 13, 1702387.
9. Light-Trapping In Polymer Solar Cells By Processing With Nanostructured Diatomaceous Earth. Organic Electronics 2017, 51, 422 - 427.
B 10. An Additive Dripping Technique Using Diphenyl Ether Fortuning Perovskite Crystallization For High-Efficiency Solar Cells. Nano Research 2017.
B 12. Stable Graphene-Two-Dimensional Multiphase Perovskite Heterostructure Phototransistors With High Gain. Nano Letters 2017, 17, 7330 - 7338.
Coevaporated Bisquaraine Inverted Solar Cells: Enhancement Due To Energy Transfer And Open Circuit Voltage Control. ACS PhotonicsACS Photonics 2015, 2, 86-95.
Coevaporated Bisquaraine Inverted Solar Cells: Enhancement Due To Energy Transfer And Open Circuit Voltage Control. ACS PhotonicsACS Photonics 2015, 2, 86-95.
Controlled Doping Of Carbon Nanotubes With Metallocenes For Application In Hybrid Carbon Nanotube/si Solar Cells. Nano LettNano Lett 2014, 14, 3388-94.
Controlled Doping Of Carbon Nanotubes With Metallocenes For Application In Hybrid Carbon Nanotube/si Solar Cells. Nano LettNano Lett 2014, 14, 3388-94.
Device Area Scale-Up And Improvement Of Swnt/si Solar Cells Using Silver Nanowires. Advanced Energy MaterialsAdvanced Energy Materials 2014, 4, n/a-n/a.
High-Performance Nanostructured Membrane Electrode Assemblies For Fuel Cells Made By Layer-By-Layer Assembly Of Carbon Nanocolloids. Advanced MaterialsAdvanced Materials 2007, 19, 3859-3864.
Inkjet Printing Of Carbon Supported Platinum 3-D Catalyst Layers For Use In Fuel Cells . Journal of Power Sources 2007, 171, 106.
Panchromatic Polymer–Polymer Ternary Solar Cells Enhanced By Förster Resonance Energy Transfer And Solvent Vapor Annealing. J. Mater. Chem. A 2015, 3, 18611 - 18621.
Polymer Bulk Heterojunction Solar Cells Employing Förster Resonance Energy Transfer. Nature PhotonicsNature Photonics 2013, 7, 479-485.
Polymer Bulk Heterojunction Solar Cells Employing Förster Resonance Energy Transfer. Nature PhotonicsNature Photonics 2013, 7, 479-485.
Polymer Coating Of Vanadium Oxide Nanowires To Improve Cathodic Capacity In Lithium Batteries. Journal of Materials Chemistry AJournal of Materials Chemistry A 2013, 1, 7979.
Role Of Hf In Oxygen Removal From Carbon Nanotubes: Implications For High Performance Carbon Electronics. Nano LettNano Lett 2014, 14, 6179-84.
Role Of Hf In Oxygen Removal From Carbon Nanotubes: Implications For High Performance Carbon Electronics. Nano LettNano Lett 2014, 14, 6179-84.
Role Of Hf In Oxygen Removal From Carbon Nanotubes: Implications For High Performance Carbon Electronics. Nano LettNano Lett 2014, 14, 6179-84.
Ultrathin Nanotube/nanowire Electrodes By Spin–Spray Layer-By-Layer Assembly: A Concept For Transparent Energy Storage. ACS Nano 2015, 9, 10005 - 10017.
Ultrathin Nanotube/nanowire Electrodes By Spin–Spray Layer-By-Layer Assembly: A Concept For Transparent Energy Storage. ACS Nano 2015, 9, 10005 - 10017.
Ultrathin Nanotube/nanowire Electrodes By Spin–Spray Layer-By-Layer Assembly: A Concept For Transparent Energy Storage. ACS Nano 2015, 9, 10005 - 10017.