这是我们最新精选的有关包光体的全球英文出版物和专利,涉及许多科学在线期刊,分类并侧重于包光体、ABX3 结构、戈德施密特容限因子、激子结合、带隙可调性、电荷传输层、n-i-p 和 p-i-n 结构、戈德施密特容限、n-i-p 结构、介结构支架、电荷传输层、p-i-n 结构和戈德施密特因子。
Solar cell unit
Patent published on the 2026-06-11 in WO under Ref WO2026120774 by TOSHIBA ENERGY SYSTEMS & SOLUTIONS CORP [JP] (Tobari Tomohiro [jp], Naito Katsuyuki [jp])
Abstract: A solar cell unit according to one embodiment of the present invention has a solar cell film, an infrared reflective film, and an area adjustment mechanism. The solar cell film has a perovskite-based compound as a photoelectric conversion layer and is disposed on the indoor side of a window pane. The infrared reflective film is disposed between the window pane and the solar cell film. The area adjustment mechanism is capable of adjusting the overlapping area of the infrared reflective film and t[...]
Our summary: The solar cell unit features a perovskite-based solar cell film positioned on the indoor side of a window pane. An infrared reflective film is placed between the window pane and the solar cell film. The unit includes an area adjustment mechanism to modify the overlap between the two films.
solar cell, perovskite, infrared reflective film, area adjustment mechanism
Patent
Low-dimensional tellurium iodide perovskite structure and an aqueous zinc battery using the same
Patent published on the 2026-06-11 in US under Ref US20260163071 by CITY UNIV OF HONG KONG [HK] (Zhi Chunyi [hk], Wang Shixun [hk])
Abstract: The present invention relates to a low-dimensional tellurium iodide perovskite structure. The low-dimensional structure, specifically an organic-inorganic hybrid benzyltriethylammonium tellurium iodide ((BzTEA)2TeI6), enables a highly efficient eleven-electron transfer process involving redox pairs of Cl0/Cl−, I+/I0/I−, and Te6+/Te4+/Te0/Te2−. This innovative perovskite structure confines both chalcogen and halogen elements, effectively mitigating the shuttle effect and enhancing stability[...]
Our summary: The invention presents a low-dimensional tellurium iodide perovskite structure for efficient electron transfer. The Zn∥(BzTEA)2TeI6 battery demonstrates high capacity and energy density with excellent cycle stability. This work advances the design of high-energy batteries using chalcogen-halide perovskite cathodes.
perovskite, tellurium iodide, zinc battery, energy density
Patent
Compound having unshared electron pair for perovskite solar cell, perovskite solar cell having the same and manufacturing method thereof
Patent published on the 2026-06-11 in US under Ref US20260165027 by HANWHA SOLUTIONS CORP [KR] (Jung Dongki [kr], Choi In Taek [kr], Jang Eunsoo [kr])
Abstract: [0000] The present disclosure relates to a novel compound having an unshared electron pair for a perovskite solar cell, a perovskite solar cell including the same, and a method of manufacturing the same.[...]
Our summary: The disclosure presents a novel compound with an unshared electron pair for use in perovskite solar cells. It details the composition of the perovskite solar cell that incorporates this compound. Additionally, it outlines the manufacturing method for producing the solar cell.
unshared electron pair, perovskite solar cell, novel compound, manufacturing method
Patent
Photoelectric conversion element, photoelectric conversion apparatus, photoelectric conversion system, mobile body, and building material
Patent published on the 2026-06-04 in WO under Ref WO2026116424 by CANON KK [JP] (Watanabe Masahiro [jp], Aoyama Takehiko [jp], Nakamura Nobuhiro [jp], Nishida Tsutomu [jp], Ohsawa Tatsuya [jp])
Abstract: A photoelectric conversion element comprises a first electrode, a second electrode, and a photoelectric conversion layer which is disposed between the first electrode and the second electrode and contains crystals of a perovskite structure. The photoelectric conversion element comprises a first charge transport layer between the photoelectric conversion layer and the first electrode, and a second charge transport layer between the first charge transport layer and the first electrode. The second [...]
Our summary: A photoelectric conversion element includes a first and second electrode with a photoelectric conversion layer of perovskite crystals in between. It features a first charge transport layer and a second charge transport layer containing silver. The first charge transport layer utilizes a calixarene compound for enhanced performance.
photoelectric conversion, perovskite structure, charge transport layer, mobile body
Patent
Photoelectric conversion element, photoelectric conversion device, mobile body, and building material
Patent published on the 2026-06-04 in WO under Ref WO2026116387 by CANON KK [JP] (Aoyama Takehiko [jp], Nishida Tsutomu [jp], Nakamura Nobuhiro [jp], Ohsawa Tatsuya [jp])
Abstract: A photoelectric conversion element comprises: a first electrode; a second electrode; and a photoelectric conversion layer that is disposed between the first electrode and the second electrode and that contains crystals having a perovskite structure. A first charge transport layer is provided between the photoelectric conversion layer and the first electrode, and a second charge transport layer is provided between the first charge transport layer and the first electrode. The second charge transpo[...]
Our summary: The photoelectric conversion element features a first and second electrode with a perovskite layer in between. Charge transport layers enhance performance, with one containing silver and the other featuring cyclic conjugated compounds. The device maintains excellent efficiency over extended use.
photoelectric conversion, perovskite structure, charge transport layer, mobile body
Patent
Light-emitting element, display device, dispersion liquid of metal oxide nanoparticles, and method for manufacturing metal oxide layer
Patent published on the 2026-06-04 in WO under Ref WO2026115649 by SHARP DISPLAY TECH CORPORATION [JP] (Yaguchi Yuma)
Abstract: A red light-emitting element (5R), which is a light-emitting element, includes: an anode that is a lower electrode; a cathode that is an upper electrode; a red light-emitting layer (24 REM) that is provided between the anode that is the lower electrode and the cathode that is the upper electrode; and a first charge transport layer (24ET) that is a functional layer provided between the red light-emitting layer (24 REM) and the cathode that is the upper electrode. The first charge transport layer [...]
Our summary: A red light-emitting element consists of an anode, cathode, and a red light-emitting layer. A charge transport layer with electron-transporting metal oxide nanoparticles is placed between the red light-emitting layer and the cathode. The charge transport layer also incorporates alcohol protection groups for enhanced functionality.
light-emitting element, display device, metal oxide nanoparticles, charge transport layer
Patent
Thermally Fine-Tuned NiOx–MAPbI3 Interfaces Enabled by a Polymeric Surface Additive for High-Sensitivity Self-Powered Photodetectors
Published on 2026-01-30 by HyeRyun Jeong, Kimin Lee, Wonsun Kim, Byoungchoo Park @MDPI
Abstract: Self-powered perovskite photodiodes provide an attractive platform for low-power and high-sensitivity photodetection; however, their performance capabilities are often constrained by inefficient interfacial charge extraction and noise suppression. Here, we report a polymer-mediated interfacial engineering strategy for methylammonium lead iodide (MAPbI3) photodiodes by integrating thermally optimized nickel oxide (NiOx) hole-transport layers (HTLs) with a nonionic polymeric surfactant, poly(oxyet[...]
Our summary: A polymer-mediated interfacial engineering strategy enhances the performance of self-powered perovskite photodiodes. Incorporating thermally optimized nickel oxide and a nonionic polymeric surfactant improves charge extraction and reduces noise. This approach achieves high sensitivity and low noise without compromising dynamic performance.
Photodetectors, Perovskite, Interfacial Engineering, Nickel Oxide
Publication
Performance of CaMn0.625Ti0.125Fe0.125Mg0.125O3 Oxygen Carrier in the Chemical Looping Combustion of Biomass
Published on 2026-01-29 by Yingjie Mi, Wen Luo, Jinchen Ma, Zhenyi Du, Haibo Zhao @MDPI
Abstract: Chemical looping combustion (CLC) has been recognized as a promising CO2 capture technology, in which oxygen carriers (OCs) transport lattice oxygen to the fuel instead of the air. This study aims to evaluate a newly developed perovskite OC for biomass CLC and to clarify the role of staged fuel conversion in improving gas–solid redox efficiency. This is the first application of perovskite OC CaMn0.625Ti0.125Fe0.125Mg0.125O3 in biomass CLC using a dual-stage fluidized bed. The perov[...]
Our summary: This study evaluates the performance of the perovskite oxygen carrier CaMn0.625Ti0.125Fe0.125Mg0.125O3 in biomass chemical looping combustion. The research demonstrates that staged fuel conversion significantly enhances gas-solid redox efficiency, leading to improved combustion efficiency and CO2 yield. Optimal conditions resulted in a maximum combustion efficiency of 79% and a CO2 yield of 82% at specific operational parameters.
Chemical Looping Combustion, Oxygen Carrier, Biomass, Perovskite
Publication
