Arup K. Rath scite author profile

Colloidal quantum dots have emerged as a material platform for low-cost high-performance optoelectronics. At the heart of optoelectronic devices lies the formation of a junction, which requires the intimate contact of n-type and p-type semiconductors. Doping in bulk semiconductors has been largely deployed for many decades, yet electronically active doping in quantum dots has remained a challenge and the demonstration of robust functional optoelectronic devices had thus far been elusive. Here we report an optoelectronic device, a quantum dot homojunction solar cell, based on heterovalent cation substitution. We used PbS quantum dots as a reference material, which is a p-type semiconductor, and we employed Bi-doping to transform it into an n-type semiconductor. We then combined the two layers into a homojunction device operating as a solar cell robustly under ambient air conditions with power conversion efficiency of 2.7%.

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Solution‐Processed Heterojunction Solar Cells Based on p‐type PbS Quantum Dots and n‐type Bi₂S₃ Nanocrystals

Rath

et al. 2011

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Remote Trap Passivation in Colloidal Quantum Dot Bulk Nano‐heterojunctions and Its Effect in Solution‐Processed Solar Cells

et al. 2014

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More-efficient charge collection and suppressed trap recombination in colloidal quantum dot (CQD) solar cells is achieved by means of a bulk nano-heterojunction (BNH) structure, in which p-type and n-type materials are blended on the nanometer scale. The improved performance of the BNH devices, compared with that of bilayer devices, is displayed in higher photocurrents and higher open-circuit voltages (resulting from a trap passivation mechanism).

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Arup K. Rath

Solution-processed inorganic bulk nano-heterojunctions and their application to solar cells

Heterovalent cation substitutional doping for quantum dot homojunction solar cells

Solution‐Processed Heterojunction Solar Cells Based on p‐type PbS Quantum Dots and n‐type Bi₂S₃ Nanocrystals

Remote Trap Passivation in Colloidal Quantum Dot Bulk Nano‐heterojunctions and Its Effect in Solution‐Processed Solar Cells

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Arup K. Rath

Solution-processed inorganic bulk nano-heterojunctions and their application to solar cells

Heterovalent cation substitutional doping for quantum dot homojunction solar cells

Solution‐Processed Heterojunction Solar Cells Based on p‐type PbS Quantum Dots and n‐type Bi2S3 Nanocrystals

Remote Trap Passivation in Colloidal Quantum Dot Bulk Nano‐heterojunctions and Its Effect in Solution‐Processed Solar Cells

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Solution‐Processed Heterojunction Solar Cells Based on p‐type PbS Quantum Dots and n‐type Bi₂S₃ Nanocrystals