Molecular engineering of organic–inorganic hybrid perovskites quantum wells
Semiconductor quantum-well structures and superlattices are key building blocks in modern optoelectronics, but it is difficult to simultaneously realize defect-free epitaxial growth while fine tuning the chemical composition, layer thickness and band structure of each layer to achieve the desired pe...
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| Published in | Nature chemistry Vol. 11; no. 12; pp. 1151 - 1157 |
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| Main Authors | , , , , , , , , , , , , , , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
London
Nature Publishing Group UK
01.12.2019
Springer Nature Nature Publishing Group |
| Subjects | |
| Online Access | Get full text |
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| Abstract | Semiconductor quantum-well structures and superlattices are key building blocks in modern optoelectronics, but it is difficult to simultaneously realize defect-free epitaxial growth while fine tuning the chemical composition, layer thickness and band structure of each layer to achieve the desired performance. Here we demonstrate the modulation of the electronic structure—and consequently the optical properties—of organic semiconducting building blocks that are incorporated between the layers of perovskites through a facile solution processing step. Self-aggregation of the conjugated organic molecules is suppressed by functionalization with sterically demanding groups and single crystalline organic–perovskite hybrid quantum wells (down to one-unit-cell thick) are obtained. The energy and charge transfers between adjacent organic and inorganic layers are shown to be fast and efficient, owing to the atomically flat interface and ultrasmall interlayer distance of the perovskite materials. The resulting two-dimensional hybrid perovskites are very stable due to protection given by the bulky hydrophobic organic groups.
A solution-processing step has been used to prepare quantum-well structures that comprise a thin layer of perovskite sandwiched between two layers of conjugated oligothiophene derivatives. The band gap of the resulting 2D hybrid perovskites can be fine-tuned by functionalizing the organic component, which also improves the stability of the system. |
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| AbstractList | Semiconductor quantum-well structures and superlattices are key building blocks in modern optoelectronics, but it is difficult to simultaneously realize defect-free epitaxial growth while fine tuning the chemical composition, layer thickness and band structure of each layer to achieve the desired performance. Here we demonstrate the modulation of the electronic structure—and consequently the optical properties—of organic semiconducting building blocks that are incorporated between the layers of perovskites through a facile solution processing step. Self-aggregation of the conjugated organic molecules is suppressed by functionalization with sterically demanding groups and single crystalline organic–perovskite hybrid quantum wells (down to one-unit-cell thick) are obtained. The energy and charge transfers between adjacent organic and inorganic layers are shown to be fast and efficient, owing to the atomically flat interface and ultrasmall interlayer distance of the perovskite materials. The resulting two-dimensional hybrid perovskites are very stable due to protection given by the bulky hydrophobic organic groups.
A solution-processing step has been used to prepare quantum-well structures that comprise a thin layer of perovskite sandwiched between two layers of conjugated oligothiophene derivatives. The band gap of the resulting 2D hybrid perovskites can be fine-tuned by functionalizing the organic component, which also improves the stability of the system. Semiconductor quantum-well structures and superlattices are key building blocks in modern optoelectronics, but it is difficult to simultaneously realize defect-free epitaxial growth while fine tuning the chemical composition, layer thickness and band structure of each layer to achieve the desired performance. Here we demonstrate the modulation of the electronic structure—and consequently the optical properties—of organic semiconducting building blocks that are incorporated between the layers of perovskites through a facile solution processing step. Self-aggregation of the conjugated organic molecules is suppressed by functionalization with sterically demanding groups and single crystalline organic–perovskite hybrid quantum wells (down to one-unit-cell thick) are obtained. The energy and charge transfers between adjacent organic and inorganic layers are shown to be fast and efficient, owing to the atomically flat interface and ultrasmall interlayer distance of the perovskite materials. The resulting two-dimensional hybrid perovskites are very stable due to protection given by the bulky hydrophobic organic groups.A solution-processing step has been used to prepare quantum-well structures that comprise a thin layer of perovskite sandwiched between two layers of conjugated oligothiophene derivatives. The band gap of the resulting 2D hybrid perovskites can be fine-tuned by functionalizing the organic component, which also improves the stability of the system. Semiconductor quantum-well structures and superlattices are key building blocks in modern optoelectronics, but it is difficult to simultaneously realize defect-free epitaxial growth while fine tuning the chemical composition, layer thickness and band structure of each layer to achieve the desired performance. Here we demonstrate the modulation of the electronic structure-and consequently the optical properties-of organic semiconducting building blocks that are incorporated between the layers of perovskites through a facile solution processing step. Self-aggregation of the conjugated organic molecules is suppressed by functionalization with sterically demanding groups and single crystalline organic-perovskite hybrid quantum wells (down to one-unit-cell thick) are obtained. The energy and charge transfers between adjacent organic and inorganic layers are shown to be fast and efficient, owing to the atomically flat interface and ultrasmall interlayer distance of the perovskite materials. The resulting two-dimensional hybrid perovskites are very stable due to protection given by the bulky hydrophobic organic groups. |
| Author | Janke, Svenja M. Liebman-Peláez, Alexander Zhu, Chenhui Savoie, Brett M. Snaider, Jordan M. Song, Ruyi Yu, Yi Deng, Shibin Liang, Chao Gao, Yao Shi, Enzheng Boudouris, Bryan W. Huang, Libai Yuan, Biao Liao, Peilin Dou, Letian Yoo, Pilsun Zeller, Matthias Blum, Volker Shiring, Stephen B. |
| Author_xml | – sequence: 1 givenname: Yao orcidid: 0000-0003-0172-8151 surname: Gao fullname: Gao, Yao organization: Charles D. Davidson School of Chemical Engineering, Purdue University – sequence: 2 givenname: Enzheng surname: Shi fullname: Shi, Enzheng organization: Charles D. Davidson School of Chemical Engineering, Purdue University – sequence: 3 givenname: Shibin surname: Deng fullname: Deng, Shibin organization: Department of Chemistry, Purdue University – sequence: 4 givenname: Stephen B. orcidid: 0000-0002-0209-6347 surname: Shiring fullname: Shiring, Stephen B. organization: Charles D. Davidson School of Chemical Engineering, Purdue University – sequence: 5 givenname: Jordan M. orcidid: 0000-0002-8754-6270 surname: Snaider fullname: Snaider, Jordan M. organization: Department of Chemistry, Purdue University – sequence: 6 givenname: Chao orcidid: 0000-0001-8251-5136 surname: Liang fullname: Liang, Chao organization: School of Physical Science and Technology, ShanghaiTech University – sequence: 7 givenname: Biao surname: Yuan fullname: Yuan, Biao organization: School of Physical Science and Technology, ShanghaiTech University – sequence: 8 givenname: Ruyi surname: Song fullname: Song, Ruyi organization: Department of Chemistry, Duke University – sequence: 9 givenname: Svenja M. surname: Janke fullname: Janke, Svenja M. organization: Department of Mechanical Engineering and Materials Science, Duke University – sequence: 10 givenname: Alexander surname: Liebman-Peláez fullname: Liebman-Peláez, Alexander organization: Advanced Light Source, Lawrence Berkeley National Laboratory, Department of Physics, University of California – sequence: 11 givenname: Pilsun surname: Yoo fullname: Yoo, Pilsun organization: School of Materials Engineering, Purdue University – sequence: 12 givenname: Matthias surname: Zeller fullname: Zeller, Matthias organization: Department of Chemistry, Purdue University – sequence: 13 givenname: Bryan W. orcidid: 0000-0003-0428-631X surname: Boudouris fullname: Boudouris, Bryan W. organization: Charles D. Davidson School of Chemical Engineering, Purdue University, Department of Chemistry, Purdue University – sequence: 14 givenname: Peilin surname: Liao fullname: Liao, Peilin organization: School of Materials Engineering, Purdue University – sequence: 15 givenname: Chenhui surname: Zhu fullname: Zhu, Chenhui organization: Advanced Light Source, Lawrence Berkeley National Laboratory – sequence: 16 givenname: Volker orcidid: 0000-0001-8660-7230 surname: Blum fullname: Blum, Volker organization: Department of Chemistry, Duke University, Department of Mechanical Engineering and Materials Science, Duke University – sequence: 17 givenname: Yi surname: Yu fullname: Yu, Yi organization: School of Physical Science and Technology, ShanghaiTech University – sequence: 18 givenname: Brett M. orcidid: 0000-0002-7039-4039 surname: Savoie fullname: Savoie, Brett M. organization: Charles D. Davidson School of Chemical Engineering, Purdue University – sequence: 19 givenname: Libai orcidid: 0000-0001-9975-3624 surname: Huang fullname: Huang, Libai organization: Department of Chemistry, Purdue University – sequence: 20 givenname: Letian orcidid: 0000-0001-6411-8591 surname: Dou fullname: Dou, Letian email: dou10@purdue.edu organization: Charles D. Davidson School of Chemical Engineering, Purdue University |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/31712613$$D View this record in MEDLINE/PubMed |
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| Title | Molecular engineering of organic–inorganic hybrid perovskites quantum wells |
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