Your search keyword '"Cabanillas‐Gonzalez, Juan"' showing total 4 results

1. Ultrastable Supramolecular Self-Encapsulated Wide-Bandgap Conjugated Polymers for Large-Area and Flexible Electroluminescent Devices.

Author

Lin J, Liu B, Yu M, Wang X, Lin Z, Zhang X, Sun C, Cabanillas-Gonzalez J, Xie L, Liu F, Ou C, Bai L, Han Y, Xu M, Zhu W, Smith TA, Stavrinou PN, Bradley DDC, and Huang W

Abstract

Controlling chain behavior through smart molecular design provides the potential to develop ultrastable and efficient deep-blue light-emitting conjugated polymers (LCPs). Herein, a novel supramolecular self-encapsulation strategy is proposed to construct a robust ultrastable conjugated polydiarylfluorene (PHDPF-Cz) via precisely preventing excitons from interchain cross-transfer/coupling and contamination from external trace H 2 O/O 2 . PHDPF-Cz consists of a mainchain backbone where the diphenyl groups localize at the 9-position as steric bulk moieties, and carbazole (Cz) units localize at the 4-position as supramolecular π-stacked synthon with the dual functionalities of self-assembly capability and hole-transport facility. The synergistic effect of the steric bulk groups and π-stacked carbazoles affords PHDPF-Cz as an ultrastable property, including spectral, morphological stability, and storage stability. In addition, PHDPF-Cz spin-coated gelation films also show thickness-insensitive deep-blue emission with respect to the reference polymers, which are suitable to construct solution-processed large-scale optoelectronic devices with higher reproducibility. High-quality and uniform deep-blue emission is observed in large-area solution-processed films. The electroluminescence shows high-quality deep-blue intrachain emission with a CIE (0.16, 0.12) and a very narrow full width at half-maximum of 32 nm. Finally, large-area and flexible polymer light-emitting devices with a single-molecular excitonic behavior are also fabricated. The supramolecular self-encapsulation design provides an effective strategy to construct ultrastable LCPs for optoelectronic applications., (© 2018 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published

2019

2. H-shaped oligofluorenes for highly air-stable and low-threshold non-doped deep blue lasing.

Author

Qian Y, Wei Q, Del Pozo G, Mróz MM, Lüer L, Casado S, Cabanillas-Gonzalez J, Zhang Q, Xie L, Xia R, and Huang W

Abstract

H-shaped oligofluorenes as gain media exhibit excellent photo- (large robustness against oxidation) and thermal stabilities in ambient atmosphere for large σe and low-threshold (0.22 nJ pulse(-1) ) deep blue distributed feedback (DFB) lasers. Their amplified spontaneous emission (ASE) thresholds increase less than 3-fold and the emission spectra exhibit almost no shift with film samples annealed up to 200 °C in open air., (© 2014 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published

2014

3. Amplified spontaneous emission in conjugated polyrotaxanes under quasi-CW pumping.

Author

Mróz MM, Sforazzini G, Zhong Y, Wong KS, Anderson HL, Lanzani G, and Cabanillas-Gonzalez J

Abstract

Amplified spontaneous emission under millisecond pulsed excitation on a rotaxane-insulated conjugated polymer is reported. Pump-probe spectroscopy confirms the absence of polaron-pair absorption in the gain spectral region as the main factor contributing to quasi-steady-state amplified spontaneous emission. The low polaron-pair yield in this compound is the likely result of effective backbone encapsulation provided by the threading ring., (Copyright © 2013 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published

2013

4. Pump-probe spectroscopy in organic semiconductors: monitoring fundamental processes of relevance in optoelectronics.

Author

Cabanillas-Gonzalez J, Grancini G, and Lanzani G

Subjects

Electron Transport, Electronics, Optical Phenomena, Organic Chemicals chemistry, Semiconductors, Spectrum Analysis methods

Abstract

In this review we highlight the contribution of pump-probe spectroscopy to understand elementary processes taking place in organic based optoelectronic devices. The techniques described in this article span from conventional pump-probe spectroscopy to electromodulated pump-probe and the state-of-the-art confocal pump-probe microscopy. The article is structured according to three fundamental processes (optical gain, charge photogeneration and charge transport) and the contribution of these techniques on them. The combination of these tools opens up new perspectives for assessing the role of short-lived excited states on processes lying underneath organic device operation., (Copyright © 2011 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published

2011