Your search keyword '"Cabanillas‐Gonzalez, Juan"' showing total 30 results

1. Organic position sensitive photodetectors based on lateral donor-acceptor concentration gradients.

Author

Cabanillas-Gonzalez, Juan, Peña-Rodríguez, Ovidio, Suarez Lopez, Inma, Schmidt, Malte, Alonso, M. Isabel, Goñi, Alejandro R., and Campoy-Quiles, Mariano

Subjects

*OPTOELECTRONIC devices, *SOLID state electronics, *ELECTRONIC equipment, *PHOTODIODES, *SEMICONDUCTOR diodes

Abstract

We report on an organic photodiode configuration based on a donor/acceptor bilayer with opposed complementary thickness gradients. We rely on the strong dependence of the optical field on thickness to achieve spatially dependent spectral responses, a proof-of-concept for position sensitive detection. Ratiometric photocurrent values at two wavelengths allow for position determination independently of the light intensity with a spatial resolution below 600 μm. [ABSTRACT FROM AUTHOR]

Published

2011

2. Kinetics of interfacial charges in hybrid GaAs/oligothiophene semiconducting heterojunctions.

Author

Cabanillas-Gonzalez, Juan, Gambetta, Alessio, Zavelani-Rossi, Margherita, and Lanzani, Guglielmo

Subjects

*HETEROSTRUCTURES, *GALLIUM arsenide semiconductors, *HETEROJUNCTIONS, *SEMICONDUCTOR junctions, *ORGANIC semiconductors, *CATIONS

Abstract

The authors report on pump-probe measurements in a hybrid heterostructure consisting of a modified oligothiophene layer deposited over a GaAs substrate. Upon photoexcitation of the bilayer with 100 fs, a new photoinduced absorption band (PA2) appeared being attributed to oligothiophene cations arising from exciton diffusion and dissociation at the hybrid inorganic/organic interface. An exciton diffusion length in the organic layer of approximately 3.4 nm was estimated. [ABSTRACT FROM AUTHOR]

Published

2007

3. Tuning the Optical Properties of Au Nanoclusters by Designed Proteins.

Author

Lopez‐Martinez, Elena, Gianolio, Diego, Garcia‐Orrit, Saül, Vega‐Mayoral, Victor, Cabanillas‐Gonzalez, Juan, Sanchez‐Cano, Carlos, and Cortajarena, Aitziber L.

Subjects

*OPTICAL properties, *MOLECULAR recognition, *TIME-resolved spectroscopy, *SCAFFOLD proteins, *PROTEIN engineering, *PROTEINS, *OPTICAL spectra

Abstract

Gold nanoclusters (AuNCs) are nanomaterials with interesting photoluminescent properties that can be endowed with biomolecular recognition and biocompatibility when stabilized with proteins. The interplay between the optical features of AuNCs and the function added by the protein makes them perfect candidates for generating hybrid protein‐inorganic nanomaterials. Focusing on protein stabilized‐AuNCs, hitherto most of the work has covered the use of natural proteins for in situ growth of AuNCs. However, the exploitation of design proteins for such endeavors enables fine‐tuning of the photoluminescent assets of AuNCs. In this work, rational protein engineering of modular protein scaffolds is applied for capping of non‐emissive, non‐passivated naked AuNCs, resulting in a fast and easy method for the synthesis of customizable and emissive protein‐AuNC nanomaterials. Tuning of the photoluminescent properties of the final hybrid module is obtained by appropriate choice of the coordination residues grafted on the same protein scaffold. The effects of ligands and coordination bonds are studied using time‐resolved photoluminescence and X‐ray absorbance spectroscopies, shedding light on the mechanisms behind the emerging properties of these hybrid materials. Moreover, the described versatile strategy opens new avenues for the synthesis of on‐demand photoluminescent hybrids for a wide spectrum of optical applications. [ABSTRACT FROM AUTHOR]

Published

2022

4. Towards rainbow photo/electro-luminescence in copper(I) complexes with the versatile bridged bis-pyridyl ancillary ligand.

Author

Mahoro, Gilbert Umuhire, Fresta, Elisa, Elie, Margaux, di Nasso, Davide, Zhang, Qi, Lohier, Jean-François, Renaud, Jean-Luc, Linares, Mathieu, Wannemacher, Reinhold, Cabanillas-Gonzalez, Juan, Costa, Rubén D., and Gaillard, Sylvain

Subjects

*COPPER, *IONIC conductivity, *ELECTRIC batteries, *RAINBOWS, *MAGNITUDE (Mathematics), *LIGANDS (Chemistry), *COORDINATION compounds

Abstract

The synthesis and characterization of a family of copper(I) complexes bearing a bridged bis-pyridyl ancillary ligand is reported, highlighting how the bridge nature impacts the photo- and electro-luminescent behaviours within the family. In particular, the phosphonium bridge led to copper(I) complexes featuring good electrochemical stability and high ionic conductivity, as well as a stark blue-to-orange luminescence shift compared to the others. This resulted in high performance light-emitting electrochemical cells reaching stabilities of 10 mJ at ca. 40 cd m−2 that are one order of magnitude higher than those of the other complexes. Overall, this work sheds light onto the crucial role of the bridge nature of the bis-pyridyl ancillary ligand on the photophysical features, film forming and, in turn, on the final device performances. [ABSTRACT FROM AUTHOR]

Published

2021

5. Origin of Intramolecular Low‐Threshold Amplified Spontaneous Emission.

Author

Wei, Qi, Duan, Ruihong, Zhang, Qi, Xie, Linghai, Xia, Ruidong, Yi, Yuanping, Léonard, Jérémie, Haacke, Stefan, Cabanillas‐Gonzalez, Juan, Qian, Yan, and Huang, Wei

Subjects

*STIMULATED emission, *CHEMICAL structure, *THIN films, *EXCITED states, *ELECTRONIC structure

Abstract

Amorphous thin films from solution‐processable semiconductors are key materials for low‐cost and large area optoelectronics. Design rules toward novel amorphous compounds with outstanding light emission and light amplification properties require understanding of the intimate relation between chemical and electronic structure. Here, a series of compounds with tunable electronic transition characters of the lowest excited state, from local excited (LE), hybrid local charge‐transfer (HLCT) to charge‐transfer (CT) character is delicately designed. By deploying a combination of computational calculations and femtosecond‐transient absorption experiments, it is shown that pure LE states strongly coupled to high wavenumber vibrational modes favor to form a few dominant discrete vibrational levels and are essential for optical gain, whereas HLCT or CT states are preferably coupled to low frequency vibrational modes and form a large number of consecutive vibrational levels which lead to broad excited‐state absorption overwhelming stimulated emission. The results provide guidelines for the rational design of efficient organic laser materials. [ABSTRACT FROM AUTHOR]

Published

2021

6. Organic Semiconductor Micro/Nanocrystals for Laser Applications.

Author

Álvarez-Conde, Javier, García-Frutos, Eva M., Cabanillas-Gonzalez, Juan, and Virgili, Tersilla

Subjects

*OPTICAL resonators, *SOLID-state lasers, *OPTOELECTRONIC devices, *NANOCRYSTALS, *LASERS, *ORGANIC semiconductors

Abstract

Organic semiconductor micro/nanocrystals (OSMCs) have attracted great attention due to their numerous advantages such us free grain boundaries, minimal defects and traps, molecular diversity, low cost, flexibility and solution processability. Due to all these characteristics, they are strong candidates for the next generation of electronic and optoelectronic devices. In this review, we present a comprehensive overview of these OSMCs, discussing molecular packing, the methods to control crystallization and their applications to the area of organic solid-state lasers. Special emphasis is given to OSMC lasers which self-assemble into geometrically defined optical resonators owing to their attractive prospects for tuning/control of light emission properties through geometrical resonator design. The most recent developments together with novel strategies for light emission tuning and effective light extraction are presented. [ABSTRACT FROM AUTHOR]

Published

2021

7. Simultaneously Enhancing Photoluminescence Quantum Efficiency and Optical Gain of Polyfluorene via Backbone Intercalation of 2,5‐Dimethyl‐1,4‐Phenylene.

Author

Zhang, Qi, Wu, Yinan, Lian, Shaoshan, Gao, Jinxin, Zhang, Sihao, Hai, Gang, Sun, Chen, Li, Xiangchun, Xia, Ruidong, Cabanillas‐Gonzalez, Juan, and Mo, Yueqi

Subjects

*QUANTUM efficiency, *POLYFLUORENES, *DISTRIBUTED feedback lasers, *CONJUGATED polymers, *SOLID-state lasers, *PHOTOLUMINESCENCE

Abstract

Simultaneous enhancement of photoluminescence quantum efficiency (PLQE) and optical gain in semiconducting polymer films is desirable for optically‐ or electrically‐pumped organic solid‐state lasers. In this work, a simple self‐dilution effect is achieved by introducing a small amount (≈10% by weight) of 2,5‐dimethyl‐1,4‐phenylene (DP) units in the backbone of poly(9,9‐dioctylfluorene) (PFO). The resulting copolymers, compared with PFO (PLQE 39%), exhibit a significantly increased PLQE (66%) while keeping similar absorption and photoluminescence profile, concomitant with an enhancement in optical gain properties. The radiative decay rate increases sharply along with a sustaining reduction in the non‐radiative decay rate in these copolymers, following similar principle of physical dilution of a luminescent compound in solution or in a polymer matrix. Among all the copolymers, the one containing 10% DP units exhibits the lowest amplified spontaneous emission/distributed feedback laser threshold (10.9 nJ/1.4 nJ, eightfold reduction), and the highest gain coefficient (54.4 cm−1). The results demonstrate that a moderate DP/fluorene ratio can maximize the beneficial self‐dilution effects. These investigations shed light on new design strategies to achieve conjugated polymers with concurrent high PLQE and large optical gain properties. [ABSTRACT FROM AUTHOR]

Published

2020

8. Deep‐Blue Thiophene‐Based Steric Oligomers as a Low‐Threshold Laser Gain and Host Material.

Author

Han, Yamin, Bai, Lubing, Xu, Man, An, Xiang, Wei, Chuanxin, Sun, Lili, Sun, Ning, Yu, Mengna, Zhang, He, Lin, Jinyi, Ou, Changjin, Xie, Linghai, Yin, Chengrong, Sun, Chen, Ding, Xuehua, Cabanillas‐Gonzalez, Juan, and Huang, Wei

Subjects

*ACTIVE medium, *FLUORESCENCE resonance energy transfer, *OPTOELECTRONIC devices, *ORGANIC light emitting diodes, *OLIGOMERS, *LASERS

Abstract

Thiophene‐based (Th‐based) derivatives have received wide attentions in organic optoelectronics due to their excellent and tuneable optoelectrical properties as well as chemical modification. However, the low photoluminescence quantum yield in solid state limits their application in solution‐processed light‐emitting optoelectronic devices, especially in organic lasers. Herein, a novel blue‐emitting steric Th‐based fluorophore (MC8‐Th) with excellent optical gain behavior for organic laser is reported. Interestingly, MC8‐Th neat film exhibits efficient exceptional deep‐blue amplified spontaneous emission (ASE) behavior with a remarkably low threshold of 6.0 µJ cm−2 and full‐width‐at‐half‐maximum value of 2.6 nm. Furthermore, random laser signals are also obtained with the lowest threshold of 4.1 µJ cm−2 when incorporating the compound into an inert polystyrene (PS) matrix. In addition, low threshold (16 µJ cm−2, fivefold lower than those of F8BT neat films) yellow–green ASE emission (560 nm) is achieved through Förster resonance energy transfer. Meanwhile, ultrafast transient absorption spectroscopy is deployed here to observe the single‐molecular excitonic behavior in solution and PS‐blend, intermolecular excited state in neat film, and efficient energy transfer in MC8‐Th:F8BT‐blend films. As far as known, MC8‐Th shows lower threshold ASE/lasing behavior for the Th‐based conjugated materials. [ABSTRACT FROM AUTHOR]

Published

2020

9. Steric Poly(diarylfluorene‐co‐benzothiadiazole) for Efficient Amplified Spontaneous Emission and Polymer Light‐Emitting Diodes: Benefit from Preventing Interchain Aggregation and Polaron Formation.

Author

Bai, Lubing, Sun, Chen, Han, Yamin, Wei, Chuanxin, An, Xiang, Sun, Lili, Sun, Ning, Yu, Mengna, Zhang, Kangning, Lin, Jinyi, Xu, Man, Xie, Linghai, Ling, Haifeng, Cabanillas‐Gonzalez, Juan, Song, Ling, Hao, Xiaotao, and Huang, Wei

Subjects

*DIODES, *STIMULATED emission, *POLYMERS, *STERIC hindrance, *OPTICAL spectra

Abstract

The effect of introducing side‐chain steric hindrance on the optoelectronic properties of the well‐studied green light emitting polymer (poly(9,9‐di‐n‐octylfluorene‐alt‐benzothiadiazole), F8BT) is investigated by means of replacing the 9,9‐dioctylfluorene unit by two novel steric hindrance functionalized monomers, namely, poly(9,9‐diarylfluorene‐alt‐benzothiadiazole) (FDFBT) and poly(9,9‐diarylfluorene‐4‐carbazole‐alt‐benzothiadiazole) (FCzBT). Bathochromic shifts of the optical spectra concomitant with enhanced photoluminescence quantum yields and improved film morphologies are found on the novel copolymers compared to F8BT. Femtosecond transient absorption spectroscopy demonstrates how steric hindrance effect in the novel copolymers manifests into enhanced stimulated emission and longer excited state lifetimes, associated with the suppression of polaron formation, all these being favorable features for light amplifying applications. Consequently, random lasing emission is achieved in films based on these copolymers with a threshold of three times lower than that of F8BT (22.95 µJ cm−2 for F8BT; 6.36 µJ cm−2 for FDFBT and 8.44 µJ cm−2 for FCzBT). Polymer light‐emitting diodes based on the novel copolymers exhibit performances comparable to the best reported on fluorene‐based devices. All of these results manifest the great potential of these novel copolymers for the application in the field of light‐emitting devices. [ABSTRACT FROM AUTHOR]

Published

2020

10. Facile and Controllable Fabrication of High-Performance Methylammonium Lead Triiodide Films Using Lead Acetate Precursor for Low-Threshold Amplified Spontaneous Emission and Distributed-Feedback Lasers.

Author

Qi Zhang, Huizhi Sun, Heyi Zhang, Mao Jiang, Xiaodong Wu, Zhiyuan Zhang, Tongyin Yang, Ruidong Xia, and Cabanillas-Gonzalez, Juan

Subjects

*METHYLAMMONIUM, *SEMICONDUCTOR lasers, *DISTRIBUTED feedback lasers, *ACETATES, *CRYSTAL growth, *CRYSTAL morphology, *ACTIVE medium

Abstract

Organic–inorganic lead halide perovskites have emerged rapidly as the most attractive materials for photovoltaics in the last 10 years. Intense research has been done on crystal growth and morphology control to improve their power conversion efficiencies. Furthermore, perovskites also show great potential for optical amplification and lasing. Despite the numerous reports on how processing conditions affect the perovskite light-harvesting properties, effects on amplified spontaneous emission (ASE) or lasing performance have attracted considerably less attention. Herein, a detailed study on the ASE performance of methylammonium lead triiodide (MAPbI3) films, processed with lead acetate (Pb(Ac)2) as lead source following a one-step spin-coating method and exposed to different post-deposition conditions, is presented. It is found that the use of Pb(Ac)2 instead of lead iodide (PbI2) accelerates the crystal growth and simplifies the fabrication procedure. Even very thin MAPbI3 films (≈70 nm) can sufficiently support optical amplification and lasing in surface-emitting distributed-feedback (DFB) cavities. The facile and highly controllable MAPbI3 film formation observed with Pb(Ac)2 as precursor makes it a preferred choice with respect to PbI2 for future perovskite laser diodes. [ABSTRACT FROM AUTHOR]

Published

2019

11. A Simple Approach to Design Proteins for the Sustainable Synthesis of Metal Nanoclusters.

Author

Aires, Antonio, Llarena, Irantzu, Moller, Marco, Castro‐Smirnov, Jose, Cabanillas‐Gonzalez, Juan, and Cortajarena, Aitziber L.

Subjects

*PROTEIN engineering, *NANOSTRUCTURED materials, *PHOTOLUMINESCENCE, *METALLIC composites, *CELL culture, *CELL imaging

Abstract

Metal nanoclusters (NCs) are considered ideal nanomaterials for biological applications owing to their strong photoluminescence (PL), excellent photostability, and good biocompatibility. This study presents a simple and versatile strategy to design proteins, via incorporation of a di‐histidine cluster coordination site, for the sustainable synthesis and stabilization of metal NCs with different metal composition. The resulting protein‐stabilized metal NCs (Prot‐NCs) of gold, silver, and copper are highly photoluminescent and photostable, have a long shelf life, and are stable under physiological conditions. The biocompatibility of the clusters was demonstrated in cell cultures in which Prot‐NCs showed efficient cell internalization without affecting cell viability or losing luminescence. Moreover, the approach is translatable to other proteins to obtain Prot‐NCs for various biomedical applications such as cell imaging or labeling. [ABSTRACT FROM AUTHOR]

Published

2019

12. A Simple Approach to Design Proteins for the Sustainable Synthesis of Metal Nanoclusters.

Author

Aires, Antonio, Llarena, Irantzu, Moller, Marco, Castro‐Smirnov, Jose, Cabanillas‐Gonzalez, Juan, and Cortajarena, Aitziber L.

Subjects

*PROTEIN engineering, *PROTEIN synthesis, *SUSTAINABLE design, *METALS, *CELL imaging

Abstract

Metal nanoclusters (NCs) are considered ideal nanomaterials for biological applications owing to their strong photoluminescence (PL), excellent photostability, and good biocompatibility. This study presents a simple and versatile strategy to design proteins, via incorporation of a di‐histidine cluster coordination site, for the sustainable synthesis and stabilization of metal NCs with different metal composition. The resulting protein‐stabilized metal NCs (Prot‐NCs) of gold, silver, and copper are highly photoluminescent and photostable, have a long shelf life, and are stable under physiological conditions. The biocompatibility of the clusters was demonstrated in cell cultures in which Prot‐NCs showed efficient cell internalization without affecting cell viability or losing luminescence. Moreover, the approach is translatable to other proteins to obtain Prot‐NCs for various biomedical applications such as cell imaging or labeling. [ABSTRACT FROM AUTHOR]

Published

2019

13. Synthesis and characterization of two fluorescent isophthalate rosamines: From solution to immobilization in solid substrates.

Author

Queirós, Carla, Leite, Andreia, Cunha-Silva, Luís, De Castro, Baltazar, Rangel, Maria, Sousaraei, Ahmad, Cabanillas-Gonzalez, Juan, Gámez, Francisco, Jamardo, Estefanía, Vargas, Alejandro P., Moscoso, Francisco G., Lopes-Costa, Tânia, Pedrosa, José M., and Silva, Ana M.g.

Subjects

*FLUORESCENT minerals, *STRUCTURAL design, *THERAPEUTIC immobilization, *POLYMERIC composites, *MECHANICAL chemistry

Abstract

The design of fluorescent molecules with structural features for efficient immobilization in polymeric supports or binding matrixes is an active research topic, which aims to create materials with optical and mechanical properties suitable for sensing applications. Herein, we describe the synthesis and characterization of two new fluorescent ligands prepared by a combination of a rosamine platform and an isophthalate receptor using amine and amide linkages. In order to evaluate their potential application as fluorescence sensors, the photophysical properties of the ligands were accessed by UV-Vis and photoluminescence measurements in solution and after immobilization (infiltrated in TiO 2 thin films). Furthermore, molecular and electronic structures of both ligands were rationalized by DFT and TD-DFT calculations. Interesting features were found for the ligand containing an amide bond, which has shown to be less prone to aggregation and has higher emission capacity, being a promising candidate in fluorescence sensor devices. [ABSTRACT FROM AUTHOR]

Published

2018

14. Efficient Optical Gain from Near‐Infrared Polymer Lasers Based on Poly[N‐9′‐heptadecanyl‐2,7‐carbazole‐alt‐5,5‐(4′,7′‐di‐2‐thienyl‐2′,1′,3′‐benzothiadiazole)]

Author

Xu, Yan, Hai, Gang, Xu, Haowen, Zhang, Haoran, Zuo, Zongyan, Zhang, Qi, Xia, Ruidong, Sun, Chen, Castro‐Smirnov, Jose, Sousaraei, Ahmad, Casado, Santiago, Osorio, Manuel R., Granados, Daniel, Rodriguez, Isabel, and Cabanillas‐Gonzalez, Juan

Abstract

Abstract: State‐of‐the‐art near‐infrared lasers based on poly[N‐9′‐heptadecanyl‐2,7‐carbazole‐alt‐5,5‐(4′,7′‐di‐2‐thienyl‐2′,1′,3′‐benzothiadiazole)] (PCDTBT) and poly(9,9‐dioctylfluorene‐alt‐benzothiadiazole) (F8BT) blends are reported. Polymer light‐emitting diodes (PLEDs) based on PCDTBT/F8BT blends with 30 wt% PCDTBT content exhibit a maximum radiance of 64.3 W sr−1 m−2 and external quantum efficiency of 2.11% with Commission Internationale de L'Eclairage (CIE) coordinates (x = 0.69, y = 0.30). Using an optimal blend ratio of 15 wt% PCDTBT in F8BT, a maximum gain value of 28.2 cm−1 at 710 nm is achieved, a remarkable value given that PCDTBT is a low emissive polymer extensively employed as donor polymer in organic photovoltaics. The lowest amplified spontaneous emission (ASE) and laser thresholds exhibited by the blends are 590 nJ pulse−1 (21 µJ cm−2) and 63.1 nJ pulse−1 (201 µJ cm−2). Transient absorption spectroscopy confirms efficient Förster resonant energy transfer from F8BT to PCDTBT which, together with the large miscibility of PCDTBT in F8BT, enables PCDTBT emission enhancement and optical gain. Furthermore, a ternary blend system composed of F8BT, PCDTBT, and poly(3‐hexylthiophene) is demonstrated, in which the ASE wavelength can be tuned in a 60 nm range from 650 to 710 nm at a very low threshold level via control of the blend content ratio. [ABSTRACT FROM AUTHOR]

Published

2018

15. Combinatorial optimization of evaporated bilayer small molecule organic solar cells through orthogonal thickness gradients.

Author

Rodríguez-Martínez, Xabier, Sánchez-Díaz, Antonio, Liu, Guilin, Niño, M.A., Cabanillas-Gonzalez, Juan, and Campoy-Quiles, Mariano

Subjects

*SOLAR cells, *COMBINATORIAL optimization, *EVAPORATION (Chemistry), *SMALL molecules, *THICKNESS measurement, *IMIDAZOLES

Abstract

Abstract We report on a combinatorial optimization procedure applied to heterojunction small molecule organic solar cells made of evaporated copper phthalocyanine (CuPc) and 3,4,9,10-perylenetetracarboxylic bisbenzimidazole (PTCBI). Our strategy consists of depositing both light harvesting compounds as orthogonally arranged wedge-shaped layers to then determine the optimum thicknesses which yield the highest photoconversion efficiency. The device performance is locally assessed by means of light-beam induced current images. A quantitative model of co-locally measured Raman images allows determining the corresponding local thicknesses of the active layers. The spatial correlation of both datasets (i.e. local photocurrent density and active layer film thicknesses) enables the rapid optimization of the photovoltaic system studied employing a single functional device, reducing in approximately 20 times the use of resources and time. Graphical abstract Image 1 Highlights • Combinatorial optimization approach applied to heterojunction organic solar cells. • The active layers are disposed as orthogonal wedges. • Thicknesses are optimized combining Raman spectroscopy and photocurrent mapping. • 20-fold reduction in the use of resources and time employing a single device. [ABSTRACT FROM AUTHOR]

Published

2018

16. Host Exciton Confinement for Enhanced Förster‐Transfer‐Blend Gain Media Yielding Highly Efficient Yellow‐Green Lasers.

Author

Zhang, Qi, Liu, Jingguan, Wei, Qi, Guo, Xiangru, Xu, Yan, Xia, Ruidong, Xie, Linghai, Qian, Yan, Sun, Chen, Lüer, Larry, Cabanillas‐Gonzalez, Juan, Bradley, Donal D. C., and Huang, Wei

Subjects

*FLUORESCENCE resonance energy transfer, *PHOTOLUMINESCENT polymers, *EXCITON theory, *LIGHT emitting diodes, *PHOTOLUMINESCENCE

Abstract

Abstract: This paper reports state‐of‐the‐art fluorene‐based yellow‐green conjugated polymer blend gain media using Förster resonant‐energy‐transfer from novel blue‐emitting hosts to yield low threshold (≤7 kW cm−2) lasers operating between 540 and 590 nm. For poly(9,9‐dioctylfluorene‐co‐benzothiadiazole) (F8BT) (15 wt%) blended with the newly synthesized 3,6‐bis(2,7‐di([1,1′‐biphenyl]‐4‐yl)‐9‐phenyl‐9H‐fluoren‐9‐yl)‐9‐octyl‐9H–carbazole (DBPhFCz) a highly desirable more than four times increase (relative to F8BT) in net optical gain to 90 cm−1 and 34 times reduction in amplified spontaneous emission threshold to 3 µJ cm−2 is achieved. Detailed transient absorption studies confirm effective exciton confinement with consequent diffusion‐limited polaron‐pair generation for DBPhFCz. This delays formation of host photoinduced absorption long enough to enable build‐up of the spectrally overlapped, guest optical gain, and resolves a longstanding issue for conjugated polymer photonics. The comprehensive study further establishes that limiting host conjugation length is a key factor therein, with 9,9‐dialkylfluorene trimers also suitable hosts for F8BT but not pentamers, heptamers, or polymers. It is additionally demonstrated that the host highest occupied and lowest unoccupied molecular orbitals can be tuned independently from the guest gain properties. This provides the tantalizing prospect of enhanced electron and hole injection and transport without endangering efficient optical gain; a scenario of great interest for electrically pumped amplifiers and lasers. [ABSTRACT FROM AUTHOR]

Published

2018

17. Design of donor-acceptor small molecules based on diazaisoindigo unit: Synthesis, theoretical calculations and photophysical studies.

Author

Martin, M. Belén, Recuero, Álvaro, Garzón-Ruiz, Andrés, Moral, Mónica, García-Espejo, Gonzalo, Cabanillas-Gonzalez, Juan, de Miguel, Gustavo, and García-Frutos, Eva M.

Subjects

*SMALL molecules, *ELECTRONIC spectra, *MOLECULAR structure, *DOUBLE bonds, *ABSORPTION spectra, *THIOPHENE derivatives

Abstract

Two donor-acceptor-donor (D–A–D) and two donor-acceptor (D-A) small molecular systems involving alkyl bithiophene and thiophene derivatives as donor blocks and 5,5′- and 5-linked 7,7′-diazaisoindigo (DAIID) as acceptor blocks have been synthesized and investigated with theoretical calculations and photophysical studies. The incorporation of the thiophene groups led to significant changes in the UV–vis absorption spectra and electronic structure of the diazaisoindigo. Bithiophene and thiophene derivatives did not show fluorescence, in contrast to their dibrominated and brominated precursors. This fact was attributed to both a decrease of the radiative rate constant and an increase of the non-radiative deactivation associated to the incorporation of the thiophenyl groups. Additionally, picosecond transient absorption experiments revealed short time decays for the thiophenyl derivatives indicating a faster non-radiative deactivation associated to a rotation of the central double bond of 7,7′-diazaisoindigo in the excited state. [Display omitted] • Diazaisoindigos derivates incorporating thiophenyl groups have been prepared. • Thiophenyl groups do not lead to a significant change of the molecular structure. • Electronic structure of diazaisoindigos is notably altered by thiophenyl moieties. • Thiophenyl groups leads to a decrease of the radiative rate constant. • Picosecond TA experiments revealed shorter time decays for the thiophenyl derivates. [ABSTRACT FROM AUTHOR]

Published

2023

18. Preparation of Luminescent Metal-Organic Framework Films by Soft-Imprinting for 2,4-Dinitrotoluene Sensing.

Author

Roales, Javier, Moscoso, Francisco G., Gámez, Francisco, Lopes-Costa, Tânia, Sousaraei, Ahmad, Casado, Santiago, Castro-Smirnov, Jose R., Cabanillas-Gonzalez, Juan, Almeida, José, Queirós, Carla, Cunha-Silva, Luís, Silva, Ana M. G., and Pedrosa, José M.

Subjects

*METAL-organic frameworks, *STRUCTURAL frames, *X-ray diffraction, *FLUORESCENCE spectroscopy, *EXCITATION spectrum

Abstract

A novel technique for the creation of metal-organic framework (MOF) films based on soft-imprinting and their use as gas sensors was developed. The microporous MOF material [Zn2(bpdc) 2 (bpee)] (bpdc = 4,4'-biphenyldicarboxylate; bpee = 1,2-bipyridylethene) was synthesized solvothermally and activated by removing the occluded solvent molecules from its inner channels. MOF particles were characterized by powder X-ray diffraction and fluorescence spectroscopy, showing high crystallinity and intense photoluminescence. Scanning electron microscope images revealed that MOF crystals were mainly in the form of microneedles with a high surface-to-volume ratio, which together with the high porosity of the material enhances its interaction with gas molecules. MOF crystals were soft-imprinted into cellulose acetate (CA) films on quartz at different pressures. Atomic force microscope images of soft-imprinted films showed that MOF crystals were partially embedded into the CA. With this procedure, mechanically stable films were created, with crystals protruding from the CA surface and therefore available for incoming gas molecules. The sensing properties of the films were assessed by exposing them to saturated atmospheres of 2,4-dinitrotoluene, which resulted in a substantial quenching of the fluorescence after few seconds. The soft-imprinted MOF films on CA/quartz exhibit good sensing capabilities for the detection of nitroaromatics, which was attributed to the MOF sensitivity and to the novel and more efficient film processing method based on soft-imprinting. [ABSTRACT FROM AUTHOR]

Published

2017

19. Quantifying the efficiency of förster-assisted optical gain in semiconducting polymer blends by excitation wavelength selective amplified spontaneous emission.

Author

Wu, Longfei, Luo, Feng, Lüer, Larry, Romero, Beatriz, Manuel Otón, Jose, Zhang, Qi, Xia, Ruidong, and Cabanillas‐Gonzalez, Juan

Subjects

*POLYMER blends, *EXCITATION spectrum, *PHOTON emission, *THIOPHENE derivatives, *THIADIAZOLES, *FLUORESCENCE resonance energy transfer, *PHOTOEXCITATION

Abstract

ABSTRACT We study the correlation between Förster resonance energy transfer (FRET) and optical gain properties in conjugated polymer blends based on regioregular poly(3-hexylthiophene) (P3HT) and poly(9,9-dioctylfluorene-alt-benzothiadiazole) (F8BT). First, FRET dynamics are investigated with femtosecond transient absorption spectroscopy observing a sub-picosecond energy transfer from F8BT to P3HT (550 fs) at medium doping levels (40% wt P3HT in F8BT). Amplified spontaneous emission (ASE) is then characterized in blends upon exciting predominantly the host and guest polymers, respectively. The corresponding density of absorbed photons at threshold conditions is compared upon host or guest photoexcitation as a method to quantitatively determine the FRET-assisted ASE efficiencies. We observe a reduction in ASE efficiency upon host photoexcitation of 20%, in the best case, respect to guest photoexcitation. Our results confirm that even in strongly coupled host:guest mixtures delayed exciton population by energy transfer is subtle to losses ascribed to exciton-exciton annihilation. © 2016 Wiley Periodicals, Inc. J. Polym. Sci., Part B: Polym. Phys. 2016, 54, 2311-2317. [ABSTRACT FROM AUTHOR]

Published

2016

20. Ground State Host-Guest Interactions upon Effective Dispersion of Regioregular Poly(3-hexylthiophene) in Poly(9,9-dioctylfluorene-alt-benzothiadiazole).

Author

Longfei Wu, Casado, Santiago, Romero, Beatriz, Manuel Otón, Jose, Morgado, Jorge, Müller, Christian, Ruidong Xia, and Cabanillas-Gonzalez, Juan

Subjects

*POLY(3-hexylthiophene), *THIAZOLE derivatives, *GROUND state energy, *ELECTRON donors, *SOLAR cells, *PHOTOLUMINESCENCE

Abstract

Regioregular poly(3-hexylthiophene), (rr-P3HT), is widely regarded as an archetypical semiconducting electron-donor polymer in bulk heterojunction solar cells, mainly due to its notable exciton and charge transport properties. Conversely, its use in photonic/lighting devices received little interest owing to its low emission quantum yield in the solid state, related to its large tendency to self-organize into lamellar domains with highly nonemissive character. We present experimental evidence pointing to a large miscibility of P3HT in poly(9,9-dioctylfluorene-alt-benzothiadiazole) (F8BT), accompanied by mutual p-p interactions. Concomitant to this effect, the emission properties of P3HT:F8BT blends, which are attributed to heterogeneous interchain complexes, experience a significant improvement, with photoluminescence quantum efficiency (PLQE) values approaching 25% (almost a 7-fold efficiency enhancement with respect to neat/aggregated rr-P3HT). Our results open up new prospects for improved photonic properties through appropriate control of interchain interactions. [ABSTRACT FROM AUTHOR]

Published

2015

21. Fluorene-based rib waveguides with optimized geometry for long-term amplified spontaneous emission stability.

Author

Del Pozo, Gonzalo, Bennis, Noureddine, Quintana, Xabier, Otón, Jose Manuel, Lin, Jinyi, Xie, Linghai H., Wei, Qi, Xia, Ruidong, Bernardo‐Gavito, Ramon, Granados, Daniel, and Cabanillas‐Gonzalez, Juan

Subjects

*FLUORENE, *WAVEGUIDES, *EMISSIONS (Air pollution), *CONJUGATED polymers, *FLUORESCENCE, *PHOTOLITHOGRAPHY

Abstract

ABSTRACT Amongst the different optoelectronic applications of conjugated polymers, waveguide amplifiers and optically pumped lasers are those requiring larger photochemical stability, owing to the large irradiation conditions under operation. In this context, suitable waveguide optimization enabling the reduction of amplified spontaneous emission (ASE) threshold values appears as important as synthetic chemistry protocols to promote polymer robustness against photo-oxidation. In this work, we develop rib waveguides with different geometries based on four different fluorene-based compounds and assess the influence of rib confinement on ASE properties. We observe ASE threshold values as low as 8.9 × 10−4 mJ cm−2, being among the lowest threshold values reported so far on blue emitting polymer/oligomer waveguides. We demonstrate that the enhanced ASE efficiency on some of these rib waveguides leads to a fivefold increase in operation lifetime respect to spin-coated slab waveguides, thus confirming the impact of waveguide geometry on ASE operation stability. © 2015 Wiley Periodicals, Inc. J. Polym. Sci., Part B: Polym. Phys. 2015, 53, 1040-1045 [ABSTRACT FROM AUTHOR]

Published

2015

22. Role of amorphous and aggregate phases on field-induced exciton dissociation in a conjugated polymer.

Author

Mróz, Marta M., Lüer, Larry, Houamer-Rassin, Coralie, Anderson, Harry L., and Cabanillas-Gonzalez, Juan

Subjects

*POLYMERS, *POLARONS, *PORPHYRINS, *EXCITON theory, *ELECTRIC fields

Abstract

We have applied electric field assisted pump-probe spectroscopy in order to unravel the interplay of amorphous and aggregate phases on the polaron-pair photogeneration process in a conjugated porphyrin polymer. We find that excitons photogenerated in both phases are precursors for polaron pairs with different yields. Kinetic modeling indicates a substantially larger barrier for exciton dissociation in aggregates compared to amorphous areas. The majority of polaron pairs are however formed in aggregate phases due to efficient energy transfer from the amorphous phase. Based on the change in the Stark shift associated with the photogenerated polaron density, we provide a picture of the motion of polaron pairs under the external electric field. [ABSTRACT FROM AUTHOR]

Published

2013

23. Europium complex-based thermochromic sensor for integration in plastic optical fibres

Author

Lopez, Inma Suarez, Luisa Mendonça, A., Fernandes, Mariana, Bermudez, Verónica de Zea, Morgado, Jorge, Del Pozo, G., Romero, B., and Cabanillas-Gonzalez, Juan

Subjects

*EUROPIUM, *TRANSITION metal complexes, *OPTICAL fibers, *THERMOCHROMISM, *FLUORESCENCE, *TEMPERATURE effect

Abstract

Abstract: We report on a new thermochromic material containing a europium complex for thermal sensing through its fluorescence response to temperature. The ratio between the strong luminescence peak of europium (III) and a side band emission is employed as a new probe for optical sensing of temperature. The ratio is observed to follow an Arrhenius-type dependence with temperature. Based on these results we developed a thermal probe based on a segment of luminescent thermometer optically cemented to the tip of a PMMA fibre. [Copyright &y& Elsevier]

Published

2012

24. Electric field and charge distribution imaging with sub-micron resolution in an organic Thin-Film Transistor

Author

Sciascia, Calogero, Celebrano, Michele, Binda, Maddalena, Natali, Dario, Lanzani, Guglielmo, and Cabanillas-Gonzalez, Juan R.

Subjects

*ELECTRIC fields, *ELECTRIC charge, *ORGANIC thin films, *THIN film transistors, *CONFOCAL microscopy, *ELECTRON mobility

Abstract

Abstract: Here we show how Stark spectroscopy, coupled with confocal microscopy, is able to directly map the electric field in an n-type Copper-Fluorinated Phthalocyanine Thin-Film Transistor (TFT) under different operating conditions. To this extent, we locally probe Electro-Reflectance, with a nominal spatial resolution better than 500nm, exploiting the fact that the detected signal is directly proportional to the square of the local field on the probe volume. This electric field imaging technique has unique advantages because it is non-invasive, since it exploits low incident power and because it probes the existing field in the bulk rather than the surface. Combining the experimental data with numerical modeling, it is possible not only to reconstruct the space charge profile in the few-nanometer thick accumulation layer, but also to extract the AC electron mobility. [Copyright &y& Elsevier]

Published

2012

25. Multidimensional Ln-Aminophthalate Photoluminescent Coordination Polymers.

Author

Queirós, Carla, Sun, Chen, Silva, Ana M. G., de Castro, Baltazar, Cabanillas-Gonzalez, Juan, Cunha-Silva, Luís, and Potapov, Andrei S.

Subjects

*PHOTOLUMINESCENT polymers, *COORDINATION polymers, *X-ray powder diffraction, *ACID derivatives, *CHEMICAL detectors, *METHYL methacrylate

Abstract

The development of straightforward reproducible methods for the preparation of new photoluminescent coordination polymers (CPs) is an important goal in luminescence and chemical sensing fields. Isophthalic acid derivatives have been reported for a wide range of applications, and in addition to their relatively low cost, have encouraged its use in the preparation of novel lanthanide-based coordination polymers (LnCPs). Considering that the photoluminescent properties of these CPs are highly dependent on the existence of water molecules in the crystal structure, our research efforts are now focused on the preparation of CP with the lowest water content possible, while considering a green chemistry approach. One- and two-dimensional (1D and 2D) LnCPs were prepared from 5-aminoisophthalic acid and Sm3+/Tb3+ using hydrothermal and/or microwave-assisted synthesis. The unprecedented LnCPs were characterized by single-crystal X-ray diffraction (SCRXD), powder X-ray diffraction (PXRD), Fourier transform infrared (FT-IR) spectroscopy and scanning electron microscopy (SEM), and their photoluminescence (PL) properties were studied in the solid state, at room temperature, using the CPs as powders and encapsulated in poly(methyl methacrylate (PMMA) films, envisaging the potential preparation of devices for sensing. The materials revealed interesting PL properties that depend on the dimensionality, metal ion, co-ligand used and water content. [ABSTRACT FROM AUTHOR]

Published

2021

26. Matrix Encapsulation of Solution‐Processed Thiophene‐Based Fluorophores for Enhanced Red and Green Amplified Spontaneous Emission.

Author

Han, Yamin, Sun, Chen, Bai, Lubing, Zuo, Zongyan, Xu, Man, Yu, Mengna, An, Xiang, Wei, Chuanxin, Lin, Jinyi, Wang, Ning, Ou, Changjin, Xie, Linghai, Ding, Xuehua, Cabanillas-Gonzalez, Juan, and Huang, Wei

Subjects

*FLUOROPHORES, *MICROENCAPSULATION, *POLYSTYRENE, *OPTICAL properties, *VALUATION

Abstract

Precise control of exciton behavior is key in constructing high‐performance material systems for optoelectronic applications. Intrinsic sulfur in building aromatic units always results in strong aggregation, which causes exciton quenching, polaron formation, and enhanced nonradiative components. Herein, a series of solution‐processed thiophene‐based diarylfluorene derivatives is demonstrated and these fluorophores are encapsulated in the matrix system to suppress polaron formation for efficient green and red amplified spontaneous emission (ASE). A systematic photophysical study in solution, neat films, and polystyrene (PS)‐based encapsulated systems reveals that their emission behaviors are substantially promoted in PS encapsulated matrix due to the suppressed intermolecular aggregation. Furthermore, fs‐transient absorption (TA) measurements confirm that the encapsulated systems present stimulated emission (SE) and obtain the same intramolecular excited‐state character to those in solution, associated with the effective suppression of polaron formation and exciton quenched, in opposition to neat films with broad photoinduced absorption (PA) bands. Therefore, in contrast to the neat spin‐coated film without gain processing, these encapsulated systems give rise to notable optical gain properties with threshold values for green and red ASE as low as 70 μJ cm−2. Molecular encapsulation is an effective strategy to precisely enhance exciton behavior and emission efficiency for optoelectronic applications. [ABSTRACT FROM AUTHOR]

Published

2020

27. A near infrared light emitting electrochemical cell with a 2.3 V turn-on voltage.

Author

Nemati Bideh, Babak, Shahroosvand, Hashem, Sousaraei, Ahmad, and Cabanillas-Gonzalez, Juan

Abstract

We report on an organic electroluminescent device with simplified geometry and emission in the red to near infrared (NIR) spectral region which, has the lowest turn-on voltage value, 2.3 V, among light emitting electrochemical cells (LEECs). We have synthesized and characterized three novel ruthenium π-extended phenanthroimidazoles which differ on their N^N ligands. The use of dimethyl electron donating groups along with the π-extended phenanthroimidazole moiety promotes ambipolar transport thereby avoiding the use of additional charge transport layers. Furthermore, a facile cathode deposition method based on transfer of a molten alloy (Ga:In) on top of the active layer is deployed, thus avoiding high vacuum thermal deposition which adds versatile assets to our approach. We combine ambipolar charge transport organic complex design and a simple ambient cathode deposition to achieve a potentially cost effective red to NIR emitting device with outstanding performance, opening new avenues towards the development of simplified light emitting sources through device optimization. [ABSTRACT FROM AUTHOR]

Published

2019

28. Concurrent Optical Gain Optimization and Electrical Tuning in Novel Oligomer:Polymer Blends with Yellow‐Green Laser Emission.

Author

Zhang, Qi, Wei, Qi, Guo, Xiangru, Hai, Gang, Sun, Huizhi, Li, Jiewei, Xia, Ruidong, Qian, Yan, Casado, Santiago, Castro‐Smirnov, José Raúl, and Cabanillas‐Gonzalez, Juan

Abstract

Electrically pumped organic lasing requires the integration of electrodes contact into the laser cavity in an organic light‐emitting diode (OLED) or organic field effect transistor configuration to enable charge injection. Efficient and balanced carrier injection requires in turn alignment of the energy levels of the organic active layers with the Fermi levels of the cathode and anode. This can be achieved through chemical substitution with specific aromatic functional groups, although paying the price for a substantial (and often detrimental) change in the emission and light amplifying properties of the organic gain medium. Here, using host–guest energy transfer mixtures with hosts bearing a systematic and gradual shift in molecular orbitals is proposed, which reduces the amplified spontaneous emission (ASE) threshold of the organic gain medium significantly while leaving the peak emission unaffected. By virtue of the low guest doping required for complete host‐to‐guest energy transfer, the injection levels in the blends are attributed to the host whereas the gain properties solely depend on the guest. It is demonstrated that the ASE peak and thresholds of blends with different hosts do not differ while the current efficiency of OLEDs devices is deeply influenced by molecular orbital tuning of the hosts. Energy level engineering is requested in future electrically pumped organic lasers. Chemical modification of active layer using functional substitution group such as fluorine atom may introduce unpredictable damage on emission or gain of the medium. Constructing efficient energy transfer system allows isolate tuning of electrical property of the hosts while the gain property of the guest remains undisturbed. [ABSTRACT FROM AUTHOR]

Published

2019

29. Lasing: Host Exciton Confinement for Enhanced Förster‐Transfer‐Blend Gain Media Yielding Highly Efficient Yellow‐Green Lasers (Adv. Funct. Mater. 17/2018).

Author

Zhang, Qi, Liu, Jingguan, Wei, Qi, Guo, Xiangru, Xu, Yan, Xia, Ruidong, Xie, Linghai, Qian, Yan, Sun, Chen, Lüer, Larry, Cabanillas‐Gonzalez, Juan, Bradley, Donal D. C., and Huang, Wei

Subjects

*LASERS, *EXCITON theory, *FLUORESCENCE resonance energy transfer

Published

2018

30. Highly pH-responsive sensor based on amplified spontaneous emission coupled to colorimetry.

Author

Zhang, Qi, Castro Smirnov, Jose R., Xia, Ruidong, Pedrosa, Jose M., Rodriguez, Isabel, Cabanillas-Gonzalez, Juan, and Huang, Wei

Abstract

We demonstrated a simple, directly-readable approach for high resolution pH sensing. The method was based on sharp changes in Amplified Spontaneous Emission (ASE) of a Stilbene 420 (ST) laser dye triggered by the pH-dependent absorption of Bromocresol Green (BG). The ASE threshold of BG:ST solution mixtures exhibited a strong dependence on BG absorption, which was drastically changed by the variations of the pH of BG solution. As a result, ASE on-off or off-on was observed with different pH levels achieved by ammonia doping. By changing the concentration of the BG solution and the BG:ST blend ratio, this approach allowed to detect pH changes with a sensitivity down to 0.05 in the 10-11 pH range. [ABSTRACT FROM AUTHOR]

Published

2017