A5108167817- Crystallization and Solubility Studies
- X-ray Diffraction in Crystallography
- Bone Tissue Engineering Materials
- Titanium Alloys Microstructure and Properties
- Metal and Thin Film Mechanics
- Covalent Organic Framework Applications
- MXene and MAX Phase Materials
- Magnetic properties of thin films
- Gold and Silver Nanoparticles Synthesis and Applications
- Physics of Superconductivity and Magnetism
- Electrospun Nanofibers in Biomedical Applications
- Lower Extremity Biomechanics and Pathologies
- Advanced Photocatalysis Techniques
- Dental Implant Techniques and Outcomes
- Luminescence and Fluorescent Materials
- Cold Atom Physics and Bose-Einstein Condensates
- Polyoxometalates: Synthesis and Applications
- Hybrid Renewable Energy Systems
- Recycled Aggregate Concrete Performance
- Gas Sensing Nanomaterials and Sensors
- Intermetallics and Advanced Alloy Properties
- Quantum optics and atomic interactions
- DNA and Nucleic Acid Chemistry
- Hydrogen Storage and Materials
- Advancements in Battery Materials
Shandong University
2025
Shandong University of Technology
2025
Shandong Academy of Sciences
2024
Qilu University of Technology
2024
Huazhong University of Science and Technology
2023-2024
University of Arkansas at Fayetteville
2023-2024
University of Jinan
2024
Henan Normal University
2023
Qingdao University
2023
Shaanxi Normal University
2023
A longstanding interest in bone tissue engineering is the development of new bio-scaffolds that can be manufactured on a large scale with high throughput at low cost. Here, we report low-cost and systematically optimized hydrothermal synthesis for producing Mo-doped potassium titanate nanofibers structural purity. This nanosynthesis based growth an undoped nanowires-entangled scaffold, as previously reported by our team. The morphological characterization data suggest crystal structure...
Recent research efforts have increasingly concentrated on creating innovative biomaterials to improve bone tissue engineering techniques. Among these, hybrid nanomaterials stand out as a promising category of biomaterials. In this study, we present straightforward, cost-efficient, and optimized hydrothermal synthesis method produce high-purity Ta-doped potassium titanate nanofibers. Morphological characterizations revealed that Ta-doping maintained the native crystal structure titanate,...
Counterfeit items are growing worldwide, affecting the global economy and human health. Anticounterfeiting tags based on a physical microstructure or chemical materials have enjoyed long-term commercial success due to their visualization inexpensive production. However, conventional anticounterfeiting can be readily imitated. Herein, we overcome this limitation by assembling colloidal nanospheres two luminescent micromaterials into composited photonic crystal (PhC) achieved massive scale-up...
This study examines the properties of cement-based materials incorporating composite additions fly ash and ceramic waste powder (CWP) as supplementary cementitious (SCM). The resistance to sulfate erosion under dry-wet cycling conditions was investigated through experimental testing. A Box-Behnken Design employed establish a model using three factors: replacement ratio cement by SCMs, mass CWP water-to-binder ratio. response variable loss rate due after 24 cycles cycling. Significance...
Ochratoxin A (OTA) is a toxic metabolite commonly found in various foods and feedstuffs. Accurate sensitive detection of OTA needed for food safety human health. Based on common OTA-binding aptamer (OTABA), two structure-switching OTABAs, namely OTABA4 OTABA3, were designed by configuring split G-quadruplex G-triplex, respectively, at the ends OTABA to construct aptasensors OTA. The OTABA, G-quadruplex, G-triplex all can capture thioflavin T (ThT) probe, thereby enhancing fluorescence...
Abstract Fully aromatic π‐conjugated covalent organic frameworks (COFs) have garnered great attention because of their potential applications in optoelectronics and energy storage; however, achieving crystallinity is far from trivial mainly most bond connection these COFs been deemed as an irreversible synthetic dead end stabilization. Here we report a green photosynthesis approach towards crystalline superstructured COFs, the introduction aromatic‐ortho‐diamine (o‐diamine) dynamic modulator...
The effectiveness of time- and temperature-sensitive medical products (TTSMPs) (vaccines, medicines, biological agents) is generally evaluated by sporadically checking the storage conditions recorded in electronic thermometers. However, thermometers do not achieve all-time all-regional record, resulting wrong evaluation a single TTSMP seriously endangering public health. Herein, we report photonic crystal sensor for evaluating processing environment. assembled colloidal microspheres (WO3–x...
The magnetic penetration depth (<i>λ</i>) of a superconductor is an important parameter which connects the macroscopic electrodynamics with microscopic mechanism superconductivity. High-accuracy measurement <i>λ</i> great significance for revealing pairing superconductivity and exploring applications superconductors. Among various methods used to measure superconducting films, two-coil mutual inductance (MI) technique has been widely adopted due its high precision...
Topological phases have prevailed across diverse disciplines, spanning electronics, photonics, and acoustics. Hitherto, the understanding of these has centred on energy (frequency) bandstructures, showcasing topological boundary states at spatial interfaces. Recent strides uncovered a unique category bandstructures characterized by gaps in momentum, referred to as momentum bandgaps or k gaps, notably driven breakthroughs photonic time crystals. This discovery hints abundant defined within...
Recent research efforts in bone tissue engineering have been primarily directed towards manufacture-viable synthesis of biomaterials that can significantly enhance the biocompatibilities and osteogenic capabilities on new biomaterials. This paper presents a straightforward, cost-effective, optimized, well-controlled hydrothermal Nb-doped potassium titanate nanofibers high-purity. Characterization data revealed Nb-doping maintained crystal structure, showing great promise for applications engineering.
Recent research efforts in bone tissue engineering have been primarily directed towards manufacture-viable synthesis of biomaterials that can significantly enhance the biocompatibilities and osteogenic capabilities on new biomaterials. This paper presents a straightforward, cost-effective, optimized, well-controlled hydrothermal Nb-doped potassium titanate nanofibers high-purity. Characterization data revealed Nb-doping maintained crystal structure, showing great promise for applications engineering.
Using traditional FDM 3D printing manufacturing, the mechanical properties of formed components are limited and difficult to apply in engineering projects with high load requirements. However, combining laser assisted heating technology provides new ideas for solving above problems. This article addresses shortcomings control temperature control, redesigns system printer, mainly including design module motion module, achieve intelligent control.
Recent research efforts in bone tissue engineering have been primarily directed towards manufacture-viable synthesis of biomaterials that can significantly enhance the biocompatibilities and osteogenic capabilities on new biomaterials. This paper presents a straightforward, cost-effective, optimized, well-controlled hydrothermal Nb-doped potassium titanate nanofibers high-purity. Characterization data revealed Nb-doping maintained crystal structure, showing great promise for applications engineering.
In the previous four decades, a two-coil mutual inductance (MI) technique has been widely employed in characterizing magnetic penetration depth, $\lambda$, of superconducting films. However, conventional methods used to obtain $\lambda$ are not applicable small-sized films with common shapes, which limits application MI superconductivity research. Here, we first fast wavelet collocation (FWC) method system and then proposed possibility directly obtaining absolute polygonal arbitrary sizes....
A longstanding interest in bone tissue engineering is the development of new bio-scaffolds that can be manufactured on a large scale with high throughput at low cost. Here, we report low-cost and systematically optimized hydrothermal synthesis for producing Mo-doped potassium titanate nanofibers structural purity. This nanosynthesis based growth an undoped nanowires-entangled scaffold, as previously reported by our team. The morphological characterization data suggest crystal structure...