यह क्वांटम डॉट्स पर अंग्रेजी में दुनिया भर के प्रकाशनों और पेटेंटों का हमारा नवीनतम चयन है, जिसमें कई वैज्ञानिक ऑनलाइन जर्नल शामिल हैं, जिन्हें क्वांटम डॉट, एक्सिटॉन, क्वांटम यील्ड, बायएक्सिटॉन, फोर्स्टर कपलिंग, मल्टीपल एक्सिटॉन जनरेशन, टनलिंग कपलिंग, स्पिन क्यूबिट, कैडमियम-मुक्त क्वांटम डॉट, इनहोमोजेनस ब्रॉडनिंग, मल्टीपल एक्सिटॉन जनरेशन (MEG), Auger रीकॉम्बिनेशन और CFQD पर वर्गीकृत और केंद्रित किया गया है।
Optical fiber with circumferential illumination-generating portion
Patent published on the 2026-06-11 in WO under Ref WO2026122378 by GYRUS ACMI INC D/B/A OLYMPUS SURGICAL TECH AMERICA [US] (Bukesov Sergey A [us])
Abstract: In a fiber-based surgical system, an optical fiber can include a fiber core that can propagate excitation light toward a distal end of the fiber core. The optical fiber can include an illumination-generating portion that extends fully or partially around a circumference of the fiber core proximate the distal end of the fiber core. The illumination-generating portion can have an annular cross-section, taken in a plane orthogonal to a longitudinal axis of the optical fiber. The illumination-genera[...]
Our summary: The optical fiber features a circumferential illumination-generating portion near its distal end. This portion can absorb excitation light and emit illuminating light to illuminate a target. Reflected light from the target can form response light for further analysis.
Optical fiber, illumination-generating portion, excitation light, surgical system
Patent
Light-emitting device and manufacturing method therefor, and display panel
Patent published on the 2026-06-04 in WO under Ref WO2026112846 by BEIJING BOE TECHNOLOGY DEV CO LTD [CN] (Yu Donghui [cn], Zhang Di [cn], Fan Xiangbing [cn], Zhang Yichi [cn])
Abstract: The embodiments of the present disclosure relates to the technical field of display, and is at least used for reducing the quenching of excitons. Provided are a light-emitting device and a manufacturing method therefor, and a display panel. The light-emitting device comprises an anode, a cathode, a light-emitting layer, and a first functional layer, wherein the anode and the cathode are disposed opposite to each other, the light-emitting layer is located between the anode and the cathode, and th[...]
Our summary: The content describes a light-emitting device designed to reduce exciton quenching. It includes an anode, cathode, light-emitting layer, and a first functional layer made from a specific nano-material. The device is intended for use in display panels.
light-emitting device, display panel, manufacturing method, exciton quenching
Patent
A quantum dot population comprising silver chalcogenide quantum dots, a method for obtaining the quantum dot population and an optoelectronic device c
Patent published on the 2026-06-03 in EP under Ref EP4752188 by INST CATALANA DE RECERCA I ESTUDIS AVANCATS ICREA [ES] (Konstantatos Gerasimos [es], Wang Yongjie [es])
Abstract: [0001] The present invention relates to a quantum dot population comprising silver chalcogenide quantum dots, wherein the silver chalcogenide quantum dots do not include phosphine or halide. [0002] The present invention also relates to a method for obtaining the quantum dot population of the invention, and to an optoelectronic device comprising the quantum dot population.[...]
Our summary: The invention describes a population of silver chalcogenide quantum dots free of phosphine or halide. It includes a method for synthesizing these quantum dots. Additionally, it relates to an optoelectronic device utilizing the quantum dot population.
quantum dots, silver chalcogenide, optoelectronic device, synthesis
Patent
Light-emitting element and display device
Patent published on the 2026-05-28 in WO under Ref WO2026110279 by SHARP KK [JP] (Ueta Yoshihiro)
Abstract: A blue light-emitting element (5B) includes an anode, a cathode, and a blue light-emitting layer (24BEM) provided between the anode and the cathode. The blue light-emitting layer (24BEM) includes blue light-emitting quantum dots (BQD) including a core (BQDC). The core (BQDC) has GaP containing a nitrogen element or GaP containing a zinc element and an oxygen element.[...]
Our summary: A blue light-emitting element consists of an anode, cathode, and a blue light-emitting layer. The blue light-emitting layer contains blue light-emitting quantum dots with a core made of GaP. The core may include nitrogen or zinc and oxygen elements.
blue light-emitting element, quantum dots, anode, cathode
Patent
A qubit processing method
Patent published on the 2026-05-21 in WO under Ref WO2026104209 by QUANTUM MOTION TECH LIMITED [GB] (Siegel Adam [gb], Jnane Hamza [gb], Gonzalez-zalba Fernando [gb])
Abstract: A method is disclosed for performing operations in a silicon chip qubit processor. The method involves providing a qubit at a first quantum dot, having a first resonant spin frequency and transferring the qubit to a second quantum dot, having a second resonant spin frequency. The method involves applying an AC electromagnetic field to the first and second quantum dots in order to manipulate the qubit spin state, wherein the applied AC electric field has a frequency which is calculated from a wei[...]
Our summary: A method for qubit processing on silicon chips is disclosed. It involves transferring qubits between quantum dots while manipulating their spin states using an AC electromagnetic field. The method also includes performing two-qubit operations on pairs of shuttled qubits.
qubit, silicon chip, electromagnetic field, two-qubit operations
Patent
quantum dot lasers and the end of the optical isolator
Published on 2026-05-08 by Shujie Pan, Junjie Yang, Siming Chen @NATURE
Abstract: Light: Science & Applications, Published online: 08 May 2026; doi:10.1038/s41377-026-02290-wQuantum dot (QD) lasers enable intrinsically feedback-tolerant, isolator-free silicon photonic integrated circuits (PICs), eliminating the bulky optical isolators traditionally required to suppress destabilizing reflections. Owing to their delta-function-like density of states, near-zero linewidth enhancement factor, and strong damping, QD lasers sustain stable, high-speed operation without coherence [...]
Our summary: Quantum dot lasers eliminate the need for optical isolators in silicon photonic integrated circuits. They provide stable, high-speed operation under extreme optical feedback. This technology facilitates compact and scalable optical interconnects for industrial applications.
quantum dot lasers, optical isolators, silicon photonics, integrated circuits
Publication
Long-lived excitonic beatings in finite chains under adiabatic motion
Published on 2026-05-08 by Ritesh Pant, Sebastian Wster and Alexander Eisfeld @IOP SCIENCE
Abstract: We investigate transport of a Frenkel exciton in finite one-dimensional chains, where temperature induced interparticle vibrations dynamically modulate the electronic couplings between neighboring particles. In the adiabatic regime, where vibrational motion is slower than excitation transfer between sites, this modulation gives rise to long-lived oscillations in the exciton populations. These oscillations, which we refer to as adiabatic beatings, are most pronounced at the boundaries of the chai[...]
Our summary: This study explores the transport of a Frenkel exciton in finite one-dimensional chains under adiabatic conditions. Long-lived oscillations, termed adiabatic beatings, emerge due to temperature-induced interparticle vibrations modulating electronic couplings. The amplitude of these beatings varies with chain length and particle parity, and they persist even in the presence of disorder.
Frenkel exciton, adiabatic motion, exciton populations, interparticle vibrations
Publication
Scalable qubit arrays with merged barrier gate
Patent published on the 2026-05-07 in WO under Ref WO2026095797 by UNIV DELFT TECH [NL] (Ivlev Alexander Sergeyevich [nl])
Abstract: Barrier-gate configurations for quantum-dot structures are disclosed, as well as methods to operate quantum-dot structures provided with such barrier-gate configurations and methods to fabricate quantum-dot structures provided with such barrier-gate configurations. The quantum-dot structure comprises a quantum-dot array, e.g., a two-dimensional quantum-dot array or a three-dimensional quantum-dot array. Each quantum dot in the quantum-dot array is provided with a plunger gate. The quantum-dot st[...]
Our summary: The content discusses scalable qubit arrays utilizing merged barrier gates. It details configurations and operational methods for quantum-dot structures with these barrier gates. Additionally, it describes fabrication techniques for creating such quantum-dot structures.
Quantum-dot structures, Barrier gates, Qubit arrays, Fabrication methods
Patent
