scholarly article | Q13442814 |
P818 | arXiv ID | 1507.04495 |
P356 | DOI | 10.1039/C4NR06957A |
P698 | PubMed publication ID | 25673356 |
P5875 | ResearchGate publication ID | 272188933 |
P50 | author | Christian Klinke | Q54152429 |
P2093 | author name string | Sedat Dogan | |
Vera Lebedeva | |||
Thomas Bielewicz | |||
P2860 | cites work | A Precursor-Limited Nanoparticle Coalescence Pathway for Tuning the Thickness of Laterally-Uniform Colloidal Nanosheets: The Case of SnSe | Q57350392 |
Field–effect transistors made of individual colloidal PbS nanosheets | Q57352711 | ||
Colloidal-quantum-dot photovoltaics using atomic-ligand passivation | Q57694295 | ||
Quantum Dot Photovoltaics in the Extreme Quantum Confinement Regime: The Surface-Chemical Origins of Exceptional Air- and Light-Stability | Q57694318 | ||
Schottky Quantum Dot Solar Cells Stable in Air under Solar Illumination | Q57694319 | ||
5.2% efficient PbS nanocrystal Schottky solar cells | Q57730205 | ||
Dye-Sensitized Solar Cells | Q58414858 | ||
Conjugated Polymer-Based Organic Solar Cells | Q58912143 | ||
A low-cost, high-efficiency solar cell based on dye-sensitized colloidal TiO2 films | Q26778451 | ||
Carbon Nanotubes as Schottky Barrier Transistors | Q27348763 | ||
Highly efficient multiple exciton generation in colloidal PbSe and PbS quantum dots | Q28249572 | ||
Nanowelded carbon-nanotube-based solar microcells | Q28290771 | ||
Ultrathin PbS Sheets by Two-Dimensional Oriented Attachment | Q34128711 | ||
Air-stable all-inorganic nanocrystal solar cells processed from solution | Q34461510 | ||
Photoinduced electron transfer from a conducting polymer to buckminsterfullerene | Q34672056 | ||
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Hybrid nanorod-polymer solar cells | Q44138241 | ||
Stoichiometric control of lead chalcogenide nanocrystal solids to enhance their electronic and optoelectronic device performance | Q45082949 | ||
Enhanced semiconductor nanocrystal conductance via solution grown contacts | Q46381133 | ||
Nanowire dye-sensitized solar cells | Q46474418 | ||
PbS nanoparticles capped with tetrathiafulvalenetetracarboxylate: utilizing energy level alignment for efficient carrier transport | Q46732607 | ||
Schottky solar cells based on colloidal nanocrystal films | Q47379901 | ||
PbSe nanocrystal solids for n- and p-channel thin film field-effect transistors. | Q51342511 | ||
Solution-processed PbS quantum dot infrared photodetectors and photovoltaics. | Q51556453 | ||
Colloidal PbS Quantum Dot Solar Cells with High Fill Factor | Q55014323 | ||
Single wall carbon nanotube scaffolds for photoelectrochemical solar cells. Capture and transport of photogenerated electrons. | Q55043274 | ||
Interfacing quantum dots and graphitic surfaces with chlorine atomic ligands | Q57096287 | ||
Quantum dot field effect transistors | Q57346842 | ||
Evolution of Long Range Bandgap Tunable Lead Sulfide Nanocrystals with Photovoltaic Properties | Q57349359 | ||
P433 | issue | 11 | |
P407 | language of work or name | English | Q1860 |
P921 | main subject | photovoltaics | Q192127 |
P304 | page(s) | 4875-4883 | |
P577 | publication date | 2015-03-01 | |
P1433 | published in | Nanoscale | Q3335756 |
P1476 | title | Photovoltaic effect in individual asymmetrically contacted lead sulfide nanosheets | |
P478 | volume | 7 |
Q57344612 | A robust method for the synthesis of colloidal PbS nanosheets |
Q49849102 | Addressing the exciton fine structure in colloidal nanocrystals: the case of CdSe nanoplatelets |
Q60054929 | Colloidal lead iodide nanorings |
Q50248127 | Growth of colloidal PbS nanosheets and the enhancement of their photoluminescence |
Q49931829 | Insights into the formation mechanism of two-dimensional lead halide nanostructures |
Q57354531 | Synthesis of colloidal PbS nanosheets with nearly 100% success rate |
Q38673802 | Towards colloidal spintronics through Rashba spin-orbit interaction in lead sulphide nanosheets. |
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