Publications by authors named "Panpan Yu"

Article Synopsis
  • Optothermal manipulation technologies use light-based temperature gradients to trap and move microparticles, demonstrating potential applications in various fields.
  • The study explores the optical force of an annular beam on a reflective surface and finds that it cannot effectively trap particles in that scenario.
  • By shaping a Gaussian beam with axicons, researchers generate an annular beam that heats a gold film, creating a successful optothermal trap that binds particles with significant trapping stiffness measured at 8.1 ± 2.9 fN/μm at 100 mW laser power.
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  • - 2D hybrid perovskites (HPs) show promise for high-performance X-ray detection due to their strong ability to absorb radiation and adaptable structures, but improvements in detection capabilities are still needed.
  • - The study investigates how modifying the organic spacer layer in two types of 2D layered HPs, specifically through alternating cation intercalation (ACI), influences their X-ray detection performance.
  • - The findings reveal that structural changes, like adding ethylammonium (EA), enhance carrier transport and X-ray absorption, allowing for better detection performance, including self-driving detectors with a remarkably low detection limit.
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Self-powered broadband photodetection has evoked increased interest in next-generation photoelectronic devices. However, realizing self-powered broadband photodetection in a single material is still a challenge because of the harsh requirements, including powerful built-in field, excellent charge transport behaviors, as well as the broad absorption. Herein, we first realize broadband photodetection in the range from X-ray to UV-vis light in a polar two-dimensional perovskite (2-FBA)MAPbI (2-FBA = 2-fluorobenzylamine, MA = methylamine) by incorporating an aromatic spacer into a three-dimensional prototype.

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Empowered by wavefront shaping (WFS) techniques, scattering materials (SMs) hold significant potential in high-capacity, high-fidelity, and crosstalk-free 3D holographic projections. Here, we present an optimal accumulation algorithm (OAA) to generate binary amplitude holograms that enable simultaneous control of 3D intensity and polarization distributions through SMs. In particular, OAA is efficient for creating binary holograms since only addition and comparison operations are required.

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  • A flight experiment was conducted to assess the cognitive load involved in different turning tasks during simulated flight, using real pilot training modules as a basis.
  • Researchers collected heart rate variability (HRV) and flight data while classifying turning behaviors into climbing, descending, and level flight turns, applying machine learning techniques for analysis.
  • The study found that certain HRV indicators are linked to cognitive load, with an LSTM-Attention model achieving a high recognition score, suggesting potential improvements for pilot training and overall flight safety.
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  • Aggressive fibromatosis (AF) is a rare type of benign but aggressive tumor that can grow in various body parts, including the abdomen, with a high chance of returning after surgery.* -
  • A unique case is reported where AF was found in the sigmoid colon of a 27-year-old woman during an unrelated surgical procedure, leading to its surgical removal.* -
  • The successful removal of the mass, confirmed as AF, resulted in a positive recovery with no recurrence observed after 30 months, indicating that surgical excision can be effective.*
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Metal halide perovskite ferroelectrics combining spontaneous polarization and excellent semiconducting properties is an ideal platform for enabling self-driven X-ray detection. However, achievements to date have been only based on uniaxiality, which increases the complexity of device fabrication. Multi-axial ferroelectric materials have multiple equivalent polarization directions, making them potentially amenable to multi-axial self-driven X-ray detection, but the report on these types of materials is still a huge blank.

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  • USP52, a member of the deubiquitinase family, plays a critical role in colorectal cancer (CRC) by influencing immunotherapy effectiveness and immune evasion, suggesting a need for more research into its effects on patient outcomes.
  • Analysis of public databases revealed that USP52 is significantly overexpressed in CRC tissues, correlating with poor patient prognosis and a suppressed immune environment characterized by low immune cell infiltration.
  • The study highlights that high levels of USP52 are linked to reduced responsiveness to immunotherapy and chemotherapeutic drugs, along with a negative relationship to tumor mutation burden (TMB) and microsatellite instability (MSI), emphasizing its potential as a target for CRC therapy improvements.
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Background: Acute monocytic leukemia-M5 (AML-M5) remains a challenging disease due to its high morbidity and poor prognosis. In addition to the evidence mentioned earlier, several studies have shown that programmed cell death (PCD) serves a critical function in treatment of AML-M5. However, the role and relationship between ferroptosis and necroptosis in AML-M5 remains unclear.

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The spin angular momentum (SAM) of an elliptically or circularly polarized light beam can be transferred to matter to drive a spinning motion. It is counterintuitive to find that a light beam without SAM can also cause the spinning of microparticles. Here, we demonstrate controllable spinning of birefringent microparticles via a tightly focused radially polarized vortex beam that has no SAM prior to focusing.

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Metal halide perovskites have outperformed conventional inorganic semiconductors in direct X-ray detection due to their ease of synthesis and intriguing photoelectric properties. However, the operational instability caused by severe ion migration under a high external electric field is still a big concern for the practical application of perovskite detectors. Here, we report a 2D (BPEA)PbI (BPEA = -1-(4-bromophenyl)ethylammonium) perovskite with Br-substituted aromatic spacer capable of introducing abundant interactions, e.

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Optofluidic regulation of blood microflow represents a significant method for investigating illnesses linked to abnormal changes in blood circulation. Currently, non-invasive strategies are limited to regulation within capillaries of approximately 10 μm in diameter because the adaption to blood pressure levels in the order of several hundred pascals poses a significant challenge in larger microvessels. In this study, using laser-induced microbubble formation within microvessels of the mouse auricle, we regulate blood microflow in small vessels with diameters in the tens of micrometers.

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Article Synopsis
  • The study aimed to explore how systemic immune-inflammation indices can predict vascular access failure in patients undergoing hemodialysis (HD).
  • It analyzed data from 2,690 patients who received HD vascular access surgeries, finding that certain indices, particularly the SII, were strongly associated with access failure.
  • A prediction model using the SII was created to forecast HD access survival rates, showing promising results that could be enhanced with larger, multi-center studies.
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Exosomes, nano-sized small extracellular vesicles, have been shown to serve as mediators between intercellular communications by transferring bioactive molecules, such as non-coding RNA, proteins, and lipids from secretory to recipient cells, modulating a variety of physiological and pathophysiological processes. Recent studies have gradually demonstrated that altered exosome charges may represent a key mechanism driving the pathological process of ferroptosis. This review summarizes the potential mechanisms and signal pathways relevant to ferroptosis and then discusses the roles of exosome in ferroptosis.

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Background: Tie1 orphan receptor has become a focus of research, Tie1 can form a polymer with Tie2, regulate the Ang/Tie2 pathway and play a vital role in pathological angiogenesis and tumor progression, the function of Tie1 has remained uncertain in the progression of cervical cancer (CC). Here, we investigated the functional influences of Tie1 overexpress on CC in vitro and in vivo.

Methods: We used Immunohistochemistry (IHC) analysis to detect the relative expression of Tie1 in CC, and we analyzed its connection with the overall survival (OS) and progression free survival (PFS)of CC patients.

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An ultra-broadband TM-pass polarizer is designed, fabricated, and experimentally demonstrated based on subwavelength grating (SWG) metamaterials in a lithium niobate on an insulator (LNOI) platform. According to our simulation, the designed device is predicted to work at a 220 nm wavelength range from 1460 to 1680 nm, covering the S-, C-, L-, U-bands of optical fiber communication. By depositing and subsequently etching a silicon nitride thin film atop the LNOI chip, the SWG structures are formed successfully by using complementary metal-oxide semiconductor (CMOS)-compatible fabrication processes.

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The light-fueled microparticle oscillator, exemplifying sustained driving in a static light source, potentially holds applications in fundamental physics, cellular manipulation, fluid dynamics, and various other soft-matter systems. The challenges of photodamage due to laser focusing on particles and the control of the oscillation direction have always been two major issues for microparticle oscillators. Here, we present an optical-thermal method for achieving a 3D microparticle oscillator with a fixed direction by employing laser heating of the gold film surface.

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Malignant glioma exhibits immune evasion characterized by highly expressing the immune checkpoint CD47. RNA 5-methylcytosine(m5C) modification plays a pivotal role in tumor pathogenesis. However, the mechanism underlying m5C-modified RNA metabolism remains unclear, as does the contribution of m5C-modified RNA to the glioma immune microenvironment.

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The low-toxic and environmentally friendly 2D lead-free perovskite has made significant progress in the exploration of "green" X-ray detectors. However, the gap in detection performance between them and their lead-based analogues remains a matter of concern that cannot be ignored. To reduce this gap, shortening the interlayer spacing to accelerate the migration and collection of X-ray carriers is a promising strategy.

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Approximately 10% of gastric cancers are associated with Epstein-Barr virus (EBV). polysaccharides (TFPs) are characterized by antioxidative and anti-inflammatory effects in different diseases. However, whether TFP improves EBV-associated gastric cancer (EBVaGC) has never been explored.

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Circularly polarized light (CPL) detection has wide applications in many fields, where the anisotropy factor (g ) is an important indicator to characterize the CPL detection performance. So far, many materials with high g have been reported, however, the exploration of the regulation of g is still in its infancy. Herein, two novel alternating chiral-achiral cations intercalation-type chiral hybrid perovskites (CHPs), named (R/S-1-phenylpropylamine)(propylamine)PbBr (1-R/S), exhibit above room-temperature (RT) polar-phase transition, which greatly regulates the g value.

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Cell deformation often occurs during sample preparation and imaging with scanning electron microscope (SEM), especially with delicate samples, which influences the accuracy of the results. Here we investigate the influence of several preparation methods on cell deformation, using water content and tissue hardness as indicators to classify "delicate" samples of plant species. The degree of deformation in samples resulting from five preparation methods was measured at the tissue and single-cell levels, revealing that a cryo- and methanol-fixation produced lower degrees of tissue dimension deformation and better preservation of cell shape for delicate samples, while for harder tissues, other preparation methods for a dehydrated specimen are also suitable.

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Chiral hybrid perovskites combine the advantages of chiral materials and halide perovskites, offering an ideal platform for the design of circularly polarized light (CPL) detectors. The pyro-phototronic effect, as a special mechanism of the photoexcited pyroelectric signal, can significantly improve the performance of photodetectors, whereas it remains a great challenge to achieve pyroelectricity-based CPL detection. In this work, the chiroptical phenomena and the pyro-phototronic effect are combined in chiral-polar perovskites to achieve unprecedented pyroelectric-based CPL detection.

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Lead halide hybrid perovskites have made great progress in direct X-ray detection and broadband photodetection, but the existence of toxic Pb and the demand for external operating voltage have severely limited their further applications and operational stability improvements. Therefore, exploring "green" lead-free hybrid perovskite that can both achieve X-ray detection and broadband photodetection without external voltage is of great importance, but remains severely challenging. Herein, using centrosymmetric (BZA)BiI (1, BZA = benzylamine) as a template, a pair of chiral-polar lead-free perovskites, (BZA)(R/S-PPA)BiI (2-R/S, R/S-PPA = (R/S)-1-Phenylpropylamine) are successfully obtained by introducing chiral aryl cations of (R/S)-1-Phenylpropylamine.

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The intrinsic integration of structural flexibility, chiroptical activity, and photoelectric properties endows the two-dimensional (2D) chiral hybrid perovskites (CHPs) with significant application potential in chiroptoelectronics and spintronics. However, the scarcity of suitable chiral organic ligands severely hinders their extensive construction, necessitating the development of new strategies for designing 2D CHPs. Herein, by exploiting a half substitution method, we created a pair of 2D CHPs with alternating cations in the interlayer space (ACI), (/-PPA)(PA)PbBr (2/2, PPA = 1-phenylpropylamine, PA = -pentylamine), from the achiral Ruddlesden-Popper (RP) (PA)PbBr (1).

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