Your search keyword '"Tsai, Cheng‐Min"' showing total 4 results

1. Functionalization of Graphene Oxide Films with Au and MoOx Nanoparticles as Efficient p‐Contact Electrodes for Inverted Planar Perovskite Solar Cells.

Author

Bhosale, Sumit S., Jokar, Efat, Fathi, Amir, Tsai, Cheng‐min, Wang, Chi‐yung, and Diau, Eric Wei‐guang

Subjects

GRAPHENE oxide, OXIDE coating, GOLD nanoparticles, MOLYBDENUM oxides, ELECTRODE efficiency, SOLAR cells

Abstract

Abstract: A graphene oxide (GO) film is functionalized with metal (Au) and metal‐oxide (MoOx) nanoparticles (NPs) as a hole‐extraction layer for high‐performance inverted planar‐heterojunction perovskite solar cells (PSCs). These NPs can increase the work function of GO, which is confirmed with X‐ray photoelectron spectra, Kelvin probe force microscopy, and ultraviolet photoelectron spectra measurements. The down‐shifts of work functions lead to a decreased level of potential energy and hence increased Voc of the PSC devices. Although the GO‐AuNP film shows rapid hole extraction and increased Voc, a Jsc improvement is not observed because of localization of the extracted holes inside the AuNP that leads to rapid charge recombination, which is confirmed with transient photoelectric measurements. The power conversion efficiency (PCE) of the GO‐AuNP device attains 14.6%, which is comparable with that of the GO‐based device (14.4%). In contrast, the rapid hole extraction from perovskite to the GO‐MoOx layer does not cause trapping of holes and delocalization of holes in the GO film accelerates rapid charge transfer to the indium tin oxide substrate; charge recombination in the perovskite/GO‐MoOx interface is hence significantly retarded. The GO‐MoOx device consequently shows significantly enhanced Voc and Jsc, for which its device performance attains PCE of 16.7% with great reproducibility and enduring stability. [ABSTRACT FROM AUTHOR]

Published

2018

2. Formation of Stable Tin Perovskites Co-crystallized with Three Halides for Carbon-Based Mesoscopic Lead-Free Perovskite Solar Cells.

Author

Tsai, Cheng‐Min, Mohanta, Nayantara, Wang, Chi‐Yung, Lin, Yu‐Pei, Yang, Yaw‐Wen, Wang, Chien‐Lung, Hung, Chen‐Hsiung, and Diau, Eric Wei‐Guang

Subjects

*METHYLAMMONIUM, *MESOSCOPIC systems, *SOLAR cells, *PEROVSKITE, *HALIDES, *PHASE separation

Abstract

We synthesized and characterized methylammonium (MA) mixed tri-halide tin perovskites (MASnIBr2− xClx) for carbon-based mesoscopic solar cells free of lead and hole-transporting layers. Varied SnCl2/SnBr2 ratios yielded tin perovskites with three halides (I, Br, and Cl) co-crystallized inside the tin-perovskite. When the SnCl2 proportion was ≥50 % ( x≥1), phase separation occurred to give MASnI3− yBr y and MASnCl3− zBr z in the stoichiometric proportions of their precursors, confirmed by XRD. A device with MASnIBr1.8Cl0.2 (SnCl2=10 %) showed the best photovoltaic performance: JSC=14.0 mA cm−2, VOC=380 mV, FF=0.573, and PCE=3.1 %, and long-term stability. Electrochemical impedance spectra (EIS) show superior charge recombination and dielectric relaxation properties for the MASnIBr1.8Cl0.2 cell. Transient PL decays showed the intrinsic problem of tin-based perovskites with average lifetimes less than 100 ps. [ABSTRACT FROM AUTHOR]

Published

2017

3. Diammonium and Monoammonium Mixed-Organic-Cation Perovskites for High Performance Solar Cells with Improved Stability.

Author

Lu, Jianfeng, Jiang, Liangcong, Li, Wei, Li, Feng, Pai, Narendra K., Scully, Andrew D., Tsai, Cheng‐Min, Bach, Udo, Simonov, Alexandr N., Cheng, Yi‐Bing, and Spiccia, Leone

Subjects

AMMONIUM, PEROVSKITE, SOLAR cells, ELECTRONIC structure, PHOTOLUMINESCENCE

Abstract

Remarkable power conversion efficiencies (PCE) of metal-halide perovskite solar cells (PSCs) are overshadowed by concerns about their ultimate stability, which is arguably the prime obstacle to commercialization of this promising technology. Herein, the problem is addressed by introducing ethane-1,2-diammonium (+NH3(CH2)2NH3+, EDA2+) cations into the methyl ammonium (CH3NH3+, MA+) lead iodide perovskite, which enables, inter alia, systematic tuning of the morphology, electronic structure, light absorption, and photoluminescence properties of the perovskite films. Incorporation of <5 mol% EDA2+ induces strain in the perovskite crystal structure with no new phase formed. With 0.8 mol% EDA2+, PCE of the MAPbI3-based PSCs (aperture of 0.16 cm2) improves from 16.7% ± 0.6% to 17.9% ± 0.4% under 1 sun irradiation, and fabrication of larger area devices (aperture 1.04 cm2) with a certified PCE of 15.2% ± 0.5% is demonstrated. Most importantly, EDA2+/MA+-based solar cells retain 75% of the initial performance after 72 h of continuous operation at 50% relative humidity and 50 °C under 1 sun illumination, whereas the MAPbI3 devices degrade by approximately 90% within only 15 h. This substantial improvement in stability is attributed to the steric and coulombic interactions of embedded EDA2+ in the perovskite structure. [ABSTRACT FROM AUTHOR]

Published

2017

4. Robust Tin‐Based Perovskite Solar Cells with Hybrid Organic Cations to Attain Efficiency Approaching 10%.

Author

Jokar, Efat, Chien, Cheng‐Hsun, Tsai, Cheng‐Min, Fathi, Amir, and Diau, Eric Wei‐Guang

Published

2019