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A new type of luminescent nanocomposite based on 0D/2D vertical heterojunction is prepared, enabling the fabrication of a multifunctional optical device for blue light emission, light modulation and UV detection.
We develop a high-speed focal scanning method for laser processing that can significantly improve processing times. The innovative single-lens approach uses a high-speed axial scanning lens to detect surfaces and adjust laser focus simultaneously, overcoming the slower speeds associated with surface mapping or other mechanical auto-focusing methods.
We develop optothermal tweezers to boost CRISPR-based single-nucleotide polymorphism (SNP) detection at the single-molecule level. Additionally, this innovative approach has endowed optical tweezers with DNA identification ability.
A highly efficient open-shell singlet luminescent diradical demonstrates significant magnetoluminescence properties. A giant magnetoluminescence value of 210% is achieved at a magnetic field of 7 T, showing great potential in magneto-optoelectronic devices.
The E2E-BPF microscope, a DoF-extension computational imaging platform, enabled by an end-to-end optimized binary phase filter and image reconstruction, facilitates high-resolution imaging over an extended DoF without refocusing.
We report fabrication of multifunctional transition and temperature-responsive contact lenses that undergo colorimetric switch in response to UV light and physiological temperature changes.
We explore the transition from quantum to classical electrodynamics in light–matter interactions using a novel measurement-based approach. Our findings demonstrate that classical electron–photon couplings can be explained through weak measurement.
The polymer dielectrics with carboxyl groups are used to investigate the polarity modulation effect, which can effectively modulate a device to simulate artificial vision systems and to decode light information.
Flow diagram of the straightforward spectral emissivity estimating method for rough surfaces of metal solids based on constructing random rough surfaces
This study discover the potential of using 3D label-free CD8 + T cell morphology as a reliable biomarker for the diagnosis and prognosis of sepsis, highlighting its rapid analysis and minimal blood sample requirements.
We demonstrate the experimental realization of fractal photonic anomalous Floquet topological insulators for generating multiple single-photon chiral edge states in a single lattice fabricated by the femtosecond laser direct writing.
High transparent perovskite nanocrystals/polystyrene nanocomposites can be fabricated by a two-type ligand strategy and have enormous potential to serve as a new kind of light guide plate.
We develop a double-layer thin-film structure for active-matrix displays using InGaN/AlGaInP heterogeneous integration and demonstrate a prototype of full-color micro-LED micro-display with a pixel density of 391 ppi.