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1.
Org Biomol Chem ; 20(35): 7067-7070, 2022 Sep 14.
Artigo em Inglês | MEDLINE | ID: mdl-35993972

RESUMO

The novel polychloromethylation/acyloxylation of 1,6-enynes with chloroalkanes and diacyl peroxides through dual-role designs has been developed to prepare 2-pyrrolidinone derivatives with polychloromethyl units with the use of an inexpensive copper salt under mild conditions. This strategy includes two dual-role designs, not only improving atomic utilization but also allowing a cleaner process. The wide substrate scope and simple reaction conditions demonstrate the practicability of this protocol.

2.
Nanoscale ; 16(37): 17488-17494, 2024 Sep 26.
Artigo em Inglês | MEDLINE | ID: mdl-39224054

RESUMO

Controlling the random lasing action from disordered media is important to obtain customizable lasers with unprecedented properties. In this paper, systematic investigations of random scattering based on GaAs/AlGaAs axial heterostructure nanowire (NW) arrays are presented. By manipulating the diameter and density of GaAs/AlGaAs axial heterostructure NWs during growth, different types of random lasers (Anderson localized and delocalized random lasers) have been successfully realized. The threshold, Q factor, and spatial coherence of these two types of lasers are experimentally discussed and analyzed. Finally, a proof-of-concept demonstration of speckle-free imaging based on the NW lasers has been conducted. This research enables the tunability of random lasers with exceptional performance and lays the foundation for achieving random lasing control.

3.
ACS Appl Mater Interfaces ; 16(31): 41677-41683, 2024 Aug 07.
Artigo em Inglês | MEDLINE | ID: mdl-39069675

RESUMO

Room-temperature lasing based on low-dimensional GaAs nanowires (NWs) is one of the most critical and challenging issues in realizing near-infrared lasers for nanophotonics. In this article, the random lasing characteristics based on GaAs NW arrays have been discussed theoretically. According to the simulation, GaAs/AlGaAs core-shell NWs with an optimal diameter, density, and Al content in the shell have been grown. Systematic morphological and optical characterizations were carried out. It is found that the GaAs NWs with the additional growth of the AlGaAs shell exhibit improved emission by about 2 orders of magnitude at low temperatures, which can be attributed to the suppression of crystal defects. At room temperature, lasing was observed with a threshold around 70.16 mW/cm2, and the random lasing mechanism was discussed in detail. This work is of great significance for the design of random cavities based on semiconductor NWs, which is important for optoelectronic integration.

4.
Nanomicro Lett ; 16(1): 205, 2024 May 31.
Artigo em Inglês | MEDLINE | ID: mdl-38819522

RESUMO

Metal halide perovskites, particularly the quasi-two-dimensional perovskite subclass, have exhibited considerable potential for next-generation electroluminescent materials for lighting and display. Nevertheless, the presence of defects within these perovskites has a substantial influence on the emission efficiency and durability of the devices. In this study, we revealed a synergistic passivation mechanism on perovskite films by using a dual-functional compound of potassium bromide. The dual functional potassium bromide on the one hand can passivate the defects of halide vacancies with bromine anions and, on the other hand, can screen the charged defects at the grain boundaries with potassium cations. This approach effectively reduces the probability of carriers quenching resulting from charged defects capture and consequently enhances the radiative recombination efficiency of perovskite thin films, leading to a significant enhancement of photoluminescence quantum yield to near-unity values (95%). Meanwhile, the potassium bromide treatment promoted the growth of homogeneous and smooth film, facilitating the charge carrier injection in the devices. Consequently, the perovskite light-emitting diodes based on this strategy achieve a maximum external quantum efficiency of ~ 21% and maximum luminance of ~ 60,000 cd m-2. This work provides a deeper insight into the passivation mechanism of ionic compound additives in perovskite with the solution method.

5.
Org Lett ; 25(31): 5862-5868, 2023 Aug 11.
Artigo em Inglês | MEDLINE | ID: mdl-37534703

RESUMO

The combination of photo and copper catalysts has emerged as a novel paradigm in organic catalysis, which provides access to the acceleration of chemical synthesis. Herein, we describe an aminoalkylation of amino-dependent olefins with maleimides through a cooperative photo/copper catalytic system. In this report, the strategy allows the generation of a broad complex of functionalized nitrogenous molecules including oxazolidinones, 2-pyrrolidones, imidazolidinones, thiazolidinones, pyridines, and piperidines in the absence of an external photosensitizer and base. The approach is achieved through a photoinduced Cu(I)/Cu(II)/Cu(III) complex species of nitrogen nucleophiles, intermolecular radical addition, and hydrogen atom transfer (HAT) processes. The plausible mechanism is investigated by a series of control experiments and theoretical tests, including radical scavenging experiments, deuterium labeling experiments, ultraviolet-visible absorption, and cyclic voltammetry (CV) tests.

6.
J Phys Chem Lett ; 11(15): 5877-5882, 2020 Aug 06.
Artigo em Inglês | MEDLINE | ID: mdl-32584040

RESUMO

Metal-halide perovskites are promising light-emitting materials due to their continually tunable emission peak, high color purity, high emission efficiency, and low cost. Incorporating some two-dimensional (2D) perovskites into the three-dimensional (3D) perovskite can facilitate carrier localization to the emitting area and reduce nonradiative recombination. However, the incorporated 2D perovskites typically contain diverse phases with different bandgaps and random distribution, which significantly limits the performance of perovskite light emitting diodes (PeLEDs). Furthermore, the morphology of the quasi-2D perovskite film is also a key issue to the device performance. Herein, through replacing part of FA+ with Cs+, the phase distribution and morphology of perovskite film can be tailored simultaneously. When 20% of FA+ is replaced by Cs+ in the perovskite film, the charge transfer efficiency is enhanced and the current leakage is suppressed. Eventually, the efficiency of PeLED is almost doubled and the stability is also significantly improved.

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