Open Access

Science

, volume 347 , issue 6225 , pages 967-970

Electron-hole diffusion lengths > 175 μm in solution-grown CH3NH3PbI3 single crystals

Dong Qingfeng ¹

Yanjun Fang ¹

Yuchuan Shao Yuchuan ¹

Padhraic Mulligan ²

Jie Qiu ²

Lei Cao ²

Jinsong Huang ¹

Hide authors affiliations Show authors affiliations: 2 affiliations

Department of Mechanical and Materials Engineering, University of Nebraska, Lincoln, NE 68588, USA. |

Nuclear Engineering Program, Department of Mechanical and Aerospace Engineering, Ohio State University, Columbus, OH 43210, USA. |

Publication type: Journal Article

Publication date: 2015-02-27

American Association for the Advancement of Science (AAAS)

Science

scimago Q1

wos Q1

SJR: 10.416

CiteScore: 48.4

Impact factor: 45.8

ISSN: 00368075, 10959203

DOI: 10.1126/science.aaa5760

Copy DOI

PubMed ID: 25636799

Multidisciplinary

Abstract

Balanced carrier diffusion in perovskites The efficient operation of solar cells based on inorganic-organic perovskites requires balanced transport of positive and negative charge carriers over long distances. Dong et al. used a top-seeded solution growth method to obtain millimeter-scale single crystals of the organolead trihalide perovskite CH3NH3PbI3. Under low light illumination, the electron and hole diffusion lengths exceeded 3 mm, and under full sunlight illumination, they exceeded 175 µm. Science, this issue p. 967 Large perovskite crystals can exhibit long and balanced carrier diffusion lengths. Long, balanced electron and hole diffusion lengths greater than 100 nanometers in the polycrystalline organolead trihalide compound CH3NH3PbI3 are critical for highly efficient perovskite solar cells. We found that the diffusion lengths in CH3NH3PbI3 single crystals grown by a solution-growth method can exceed 175 micrometers under 1 sun (100 mW cm−2) illumination and exceed 3 millimeters under weak light for both electrons and holes. The internal quantum efficiencies approach 100% in 3-millimeter-thick single-crystal perovskite solar cells under weak light. These long diffusion lengths result from greater carrier mobility, longer lifetime, and much smaller trap densities in the single crystals than in polycrystalline thin films. The long carrier diffusion lengths enabled the use of CH3NH3PbI3 in radiation sensing and energy harvesting through the gammavoltaic effect, with an efficiency of 3.9% measured with an intense cesium-137 source.

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GOST Copy

Qingfeng D. et al. Electron-hole diffusion lengths > 175 μm in solution-grown CH3NH3PbI3 single crystals // Science. 2015. Vol. 347. No. 6225. pp. 967-970.

GOST all authors (up to 50) Copy

Qingfeng D., Fang Y., Shao Yuchuan Y., Mulligan P., Qiu J., Cao L., Huang J. Electron-hole diffusion lengths > 175 μm in solution-grown CH3NH3PbI3 single crystals // Science. 2015. Vol. 347. No. 6225. pp. 967-970.

RIS |

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RIS Copy

TY - JOUR

DO - 10.1126/science.aaa5760

UR - https://doi.org/10.1126/science.aaa5760

TI - Electron-hole diffusion lengths > 175 μm in solution-grown CH3NH3PbI3 single crystals

T2 - Science

AU - Qingfeng, Dong

AU - Fang, Yanjun

AU - Shao Yuchuan, Yuchuan

AU - Mulligan, Padhraic

AU - Qiu, Jie

AU - Cao, Lei

AU - Huang, Jinsong

PY - 2015

DA - 2015/02/27

PB - American Association for the Advancement of Science (AAAS)

SP - 967-970

IS - 6225

VL - 347

PMID - 25636799

SN - 0036-8075

SN - 1095-9203

ER -

BibTex |

Cite this

BibTex (up to 50 authors) Copy

@article{2015_Qingfeng,

author = {Dong Qingfeng and Yanjun Fang and Yuchuan Shao Yuchuan and Padhraic Mulligan and Jie Qiu and Lei Cao and Jinsong Huang},

title = {Electron-hole diffusion lengths > 175 μm in solution-grown CH3NH3PbI3 single crystals},

journal = {Science},

year = {2015},

volume = {347},

publisher = {American Association for the Advancement of Science (AAAS)},

month = {feb},

url = {https://doi.org/10.1126/science.aaa5760},

number = {6225},

pages = {967--970},

doi = {10.1126/science.aaa5760}

}

MLA

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MLA Copy

Qingfeng, Dong, et al. “Electron-hole diffusion lengths > 175 μm in solution-grown CH3NH3PbI3 single crystals.” Science, vol. 347, no. 6225, Feb. 2015, pp. 967-970. https://doi.org/10.1126/science.aaa5760.

Publisher

American Association for the Advancement of Science (AAAS)

Journal

Science

scimago Q1

wos Q1

SJR

10.416

CiteScore

48.4

Impact factor

45.8

ISSN

00368075 (Print)

10959203 (Electronic)