Article
Chemistry, Physical
Guangyi Ma, Shengnan Wu, Ruzheng Wang, Dehua Liu, Fangyong Niu, Guijun Bi, Dongjiang Wu
Summary: This study investigated laser-arc hybrid additive manufacturing (LAHAM) of Cu-Cr-Zr alloy and compared it with wire arc additive manufacturing (WAAM). LAHAM samples showed refined grain size, reduced texture index and pole density intensity compared to WAAM samples. The LAHAM copper alloy exhibited improved tensile properties, with increased ultimate strength and elongation.
JOURNAL OF ALLOYS AND COMPOUNDS
(2022)
Article
Materials Science, Multidisciplinary
Jingan Shi, Liu Liu, Dehua Liu, Guangyi Ma, Zhuo Chen, Fangyong Niu, Shiyong Yu, Dongjiang Wu
Summary: There is a growing demand for rapid and cost-effective additive manufacturing solutions for copper alloys with favorable mechanical properties. This research utilized laser-direct current arc hybrid additive manufacturing (LAHAM) to fabricate Cu-Cr-Zr alloy and systematically investigated the effect of scanning speed on microstructure through various characterization techniques. The results showed that increasing the scanning speed led to the growth of columnar grains and a higher proportion of high-angle grain boundaries. Precipitation of Cr phase from the Cu matrix was observed, with both submicron and nanoscale Cr precipitates. The mechanical properties of the Cu-Cr-Zr alloy were enhanced through precipitation strengthening, with an ultimate tensile strength of 311.3 & PLUSMN; 7.8 MPa and an elongation of 38.6 & PLUSMN; 5.6% achieved at a scanning speed of 250 mm/min.
Article
Nanoscience & Nanotechnology
J. P. Qu, W. S. Zhang, S. P. Yue, Q. Liu, Z. K. Guo, B. W. Dong, J. C. Jie, Z. Q. Cao, Y. Fu, T. J. Li
Summary: By investigating the influence mechanism of different alloy compositions on high-temperature softening resistance, a new copper alloy was designed and manufactured to improve its high-temperature softening resistance and mechanical properties.
MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES MICROSTRUCTURE AND PROCESSING
(2022)
Article
Materials Science, Coatings & Films
Weimian Guan, Mingyu Gao, Hao Lv, Jie Yuan, Dejiang Chen, Tao Zhu, Youtong Fang, Jiabin Liu, Hongtao Wang, Zhigong Tang, Wei Yang
Summary: The bi-layered Zr/Cu composite cathode, prepared through laser cladding, shows a 39.0% lower arc ablation rate and improved arc discharge homogeneity compared to the mono-layered Zr/Cu cathode in an air atmosphere. The enhanced performance is attributed to the surface ZrO2 layer, which enhances the service life of the cathode by combining an ablation-resistant surface with a conductive matrix.
SURFACE & COATINGS TECHNOLOGY
(2021)
Article
Materials Science, Multidisciplinary
Pan Deng, Wenfeng Mo, Zuoqiong Ouyang, Chenglu Tang, Binghui Luo, Zhenhai Bai
Summary: In order to develop high-strength and excellent corrosion resistance Al-Cu-Mg alloys for aircraft skins in aerospace, this study investigated the mechanical properties, corrosion behaviors, and microstructures of 2024 (Al-3.78Cu-1.27 Mg) and 2024SZ (Al-3.74Cu-1.17 Mg-0.1Sc-0.2Zr) alloys. The results show that the addition of (Sc, Zr) transformed the microstructure of the alloy, leading to improved mechanical properties and enhanced corrosion resistance. The present investigation provides a comprehensive understanding of the strengthening and corrosion mechanisms in Al-Cu-Mg alloy.
MATERIALS CHARACTERIZATION
(2023)
Article
Materials Science, Multidisciplinary
Chenying Shi, Muzhi Ma, Biaobiao Yang, Yuling Liu, Yushen Huang, Yong Du
Summary: In this study, the effect of Ti content on the microstructure, mechanical, and electrical properties of Cu-Cr-Zr alloys was investigated. The electrical conductivity decreased with increasing Ti content due to electron scattering. The higher hardness/strength was attributed to higher dislocation density and finer FCC-Cr precipitates. Thermodynamic and kinetic calculations showed that increasing Ti content facilitated the nucleation of FCC-Cr but hindered its growth process.
JOURNAL OF MATERIALS SCIENCE & TECHNOLOGY
(2023)
Article
Materials Science, Multidisciplinary
Jinghao Huang, Shuliang Zou, Weiwei Xiao, Chen Yang, Dewen Tang, Hongxing Yu, Lin Zhang, Kun Zhang
Summary: The study investigated the impact of arc current on microstructure evolution of Cr coatings for accident tolerant fuel. Different arc currents were used to prepare the coatings. EBSD technology was employed to characterize the microstructure evolution, revealing variations in grain size, crystallographic orientation, dislocation density, and DRX mechanisms among different arc current settings.
MATERIALS CHARACTERIZATION
(2021)
Article
Materials Science, Multidisciplinary
Aditya Sarkar, S. V. S. Narayana Murty, M. J. N. V. Prasad
Summary: Uniaxial and plane strain compression tests were conducted on Cu-Cr-Zr-Ti alloy specimens to examine the influence of deformation mode on stress-strain response, work hardening behavior, and microstructural evolution. The results showed that the alloy exhibited a transition from recovery stage to steady state under uniaxial compression, while a smooth transition was observed under plane strain compression. Additionally, the microstructures evolved differently under the two compression modes.
MATERIALS CHARACTERIZATION
(2022)
Article
Materials Science, Multidisciplinary
Hongbin Xie, Weimian Guan, Hao Lv, Huiya Yang, Mingyu Gao, Youtong Fang, Jiabin Liu, Hongtao Wang
Summary: Laser surface alloying was employed to prepare a novel W-Cu/Cu composite with high W content on the surface but low W content for the whole composite, exhibiting a lower arc ablation rate than the commercial one. The study opens a door to overcome the trade-off of the ablation resistance and W consumption of the W-Cu electrodes.
MATERIALS CHARACTERIZATION
(2022)
Article
Nanoscience & Nanotechnology
Zhangping Hu, Zunfeng Du, Zhenwen Yang, Liming Yu, Zongqing Ma
Summary: The evolution of microstructure and mechanical properties of Cu-Cr-Zr fabricated by selective laser melting (SLM) with different scanning parameters was investigated. Cu-Cr-Zr specimens with high density and superior mechanical properties were obtained by optimizing the scanning parameters. The anisotropic trend of crystallographic texture and grain microstructure was observed in different planes, and the formation of twins and nano precipitates contributed to the excellent mechanical properties of the specimens.
MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES MICROSTRUCTURE AND PROCESSING
(2022)
Article
Materials Science, Multidisciplinary
Jinghao Huang, Shuliang Zou, Weiwei Xiao, Chen Yang, Hongxing Yu, Lin Zhang, Kun Zhang
Summary: The microstructural evolution of Cr-coated Zr-4 alloy during high temperature oxidation was investigated. The thickness of the Cr2O3 layer formed on the surface after oxidation did not depend monotonously on the oxidation temperature, which was mainly due to the reduction of Cr2O3 to Cr and oxygen diffusion into the substrate. The Zr grains in the alloy grew and changed their shape after high temperature oxidation, and different oxidation temperatures resulted in different recrystallization energies and defect densities in the Zr grains.
JOURNAL OF NUCLEAR MATERIALS
(2022)
Article
Materials Science, Multidisciplinary
Sayed M. Amer, Maria V. Glavatskikh, Ruslan Yu. Barkov, Irina S. Loginova, Andrey V. Pozdniakov
Summary: The addition of 0.3% Cr in the Al-Cu-Y-Zr alloy forms a novel quaternary phase and enhances the mechanical properties. L1(2)-Al-3(Zr,Y) phase spherical particles are nucleated during solution treatment at 600 degrees C. The main strengthening effect is achieved from L1(2) and theta'(Al2Cu) precipitates.
Article
Chemistry, Physical
Qing Tian, Qiu-Mei Yang, Yong-Cheng Lin, Jun-Quan Wang, Xu-Hao Zhu
Summary: The effects of aging treatment on the corrosion resistance of an Al-Cu-Mn-Fe-Zr alloy were investigated. The impedance and polarization resistance increase with aging time and temperature, while corrosion current decreases. Intergranular and pitting corrosion are the main mechanisms, with intergranular corrosion likely in under-aged alloy and pitting corrosion in over-aged alloys.
Article
Materials Science, Multidisciplinary
Yibo Du, Yanjun Zhou, Kexing Song, Tao Huang, David Hui, Haitao Liu, Chu Cheng, Jingzhao Yang, Liye Niu, Huiwen Guo
Summary: The Zr-containing precipitates in the Cu alloy first form coherent Zr-rich atomic clusters on the {111} crystal plane of copper during aging, which then transform into Cu5Zr phase as aging time increases. The contribution of Zr-rich atomic clusters and Cu5Zr precipitates to the yield strength of the alloy is calculated by coherency strengthening and Orowan strengthening, respectively. The total yield strength is very close to the experimentally measured strength.
JOURNAL OF MATERIALS RESEARCH AND TECHNOLOGY-JMR&T
(2021)
Article
Materials Science, Multidisciplinary
Bowen Ma, Bailing An, Xue Zhao, Yunchao Li, Jingwen Du, Engang Wang
Summary: Doping Sc can enhance the mechanical properties of Cu-Cr-Zr alloy while maintaining its electrical conductivity. The addition of Sc leads to the formation of a new intermetallic compound with Zr, which segregates at the grain boundary. The solution + rolling + aging process results in improved properties, including the formation of nanoscale precipitates and subgrains. The addition of Sc increases the ultimate tensile strength and hardness of the alloy without significant reduction in electrical conductivity, expanding its application range.
Article
Chemistry, Multidisciplinary
Qian Zhang, Yong Wang, Dongsheng Li, Jin Xie, Kai Tao, PingAn Hu, Jian Zhou, Honglong Chang, Yongqing Fu
Summary: A wireless platform based on flexible piezoelectric acoustics is developed with multiple functions of sensing, communication, and positioning. Different frequency stimulations are used to achieve respiratory monitoring, communication, and positioning applications. This study offers new insights into the potential applications of wireless and wearable sensor networks.
ADVANCED FUNCTIONAL MATERIALS
(2023)
Article
Chemistry, Inorganic & Nuclear
Lin Fu, Dandan Wu, Ming Wen, Yuanzheng Zhu, Qingsheng Wu, Tao Zhou, Yongqing Fu
Summary: This study successfully synthesized reduced CuNiFe mixed-metal oxides with superior photocatalytic activity for the degradation of tetracycline antibiotics under visible light without the use of any additional oxidants.
INORGANIC CHEMISTRY FRONTIERS
(2023)
Article
Physics, Condensed Matter
Peizhao Li, Haibao Lu, Yong-Qing Fu
Summary: A theoretical model based on the Avrami equation is proposed to explain the complex homogeneous and inhomogeneous condensation of water. The model considers the coupling effects of temperature and electrolyte concentration. The accuracy and applicability of the model are confirmed by comparing the theoretical results with experimental data.
JOURNAL OF PHYSICS-CONDENSED MATTER
(2023)
Article
Chemistry, Multidisciplinary
Mehdi H. Biroun, Luke Haworth, Hossein Abdolnezhad, Arash Khosravi, Prashant Agrawal, Glen McHale, Hamdi Torun, Ciro Semprebon, Masoud Jabbari, Yong-Qing Fu
Summary: Droplet impact behavior on solid surfaces is crucial for industrial applications such as spray coating, food production, printing, and agriculture. The challenge lies in modifying and controlling the impact regime and contact time of the droplets, which becomes more critical for non-Newtonian liquids. This study explores the impact dynamics of non-Newtonian liquids on superhydrophobic surfaces and shows that the addition of Xanthan alters the shape and reduces the contact time of the droplets.
Article
Chemistry, Multidisciplinary
Povilas Dumcius, Roman Mikhaylov, Xiaoyan Zhang, Matthew Bareford, Mercedes Stringer, Rachel Errington, Chao Sun, Esperanza Gonzalez, Tomas Krukovski, Juan M. Falcon-Perez, Dongfang Liang, Yong-Qing Fu, Aled Clayton, Xin Yang
Summary: Extracellular vesicles (EVs) are secreted nanostructures that play various roles in critical cancer processes. ACEV is a new method for isolating and concentrating EVs from complex matrices. It uses an acoustofluidic device based on a thin-film printed circuit board with interdigital electrodes to create complex acoustic waves that efficiently concentrate EVs.
Article
Instruments & Instrumentation
Jing Zhang, Haibao Lu, Ahmed Elmarakbi, Yong-Qing Fu
Summary: In this study, the toughening mechanisms and cooperative coupling of crystal phases and covalent adaptable networks (CANs) in a semi-crystalline thermoset epoxy are investigated using a Hamiltonian graph model and a free-energy equation. The crystal phases increase the cross-linking density of the CANs and help with their homogeneous dispersion. The coupling effect of crystal phase and CAN on the mechanical behaviors of semi-crystalline thermoset epoxy is explored using an extended Maxwell model.
SMART MATERIALS AND STRUCTURES
(2023)
Article
Instruments & Instrumentation
Haiying Yang, Haibao Lu, Dong-Wei Shu, Yong Qing (Richard) Fu
Summary: This study investigated the effects of crease direction, number of sides, and unit arrangement on the mechanical properties and deformation behaviors of origami structures. It was found that the metamaterials can transition from a monostable state to a quasi-static stiffness state and then to bistable states as the number of sides increases from 3 to 8. Additionally, shape memory polymers were printed using 3D printing technology to achieve smart origami metamaterials with shape memory effect and temperature-responsive mechanical behavior.
SMART MATERIALS AND STRUCTURES
(2023)
Article
Nanoscience & Nanotechnology
Xingchang Zeng, Huiling Ong, Luke Haworth, Yuchao Lu, Deyu Yang, Mohammad Rahmati, Qiang Wu, Hamdi Torun, James Martin, Xianghui Hou, Xianglian Lv, Weizheng Yuan, Yang He, Yongqing Fu
Summary: Surface-acoustic-wave (SAW) technology is a promising technique for monitoring and eliminating hazards caused by moisture condensation, fogging, and frost/ice formation on structural surfaces in a cold environment. This study investigates the influences of temperature, humidity, water vapor pressure, and other key factors on the frequency shifts of resonant SAW devices and provides important guidance for icing detection and monitoring.
ACS APPLIED MATERIALS & INTERFACES
(2023)
Article
Chemistry, Multidisciplinary
Long Zhao, Ming Wen, Yibo Guo, Qingsheng Wu, Quanjing Zhu, Yongqing Fu
Summary: In this study, CoFePS quaternary alloy sub-nanometric sheet was synthesized via synchronously phosphor-sulfurizing CoFe-bimetallene. The heteroatomization process improved the conductivity, enhanced the interactions with the electrolyte, and improved the chemical structural stability of the catalyst. The synthesized catalyst exhibited high activity, stability, and low cost, making it a promising candidate for oxygen evolution reaction.
ADVANCED FUNCTIONAL MATERIALS
(2023)
Article
Physics, Applied
Zhangbin Ji, Jian Zhou, Yihao Guo, Yahui He, Huigao Duan, Yongqing Fu
Summary: We proposed a strategy to achieve omnidirectional strain detection by applying a single flexible surface acoustic wave (SAW) strain sensor empowered by a machine learning algorithm to analyze multiple signals derived from the same device. Using AlN/flexible glass based SAW devices, we performed omnidirectional strain predictions using eight different machine learning models, and the extreme gradient boosting (XGBoost) model showed the highest prediction ability and the best accuracy for both strain intensity and direction.
APPLIED PHYSICS LETTERS
(2023)
Article
Biophysics
Yuyang Li, Yuan Li, Rui Zhang, Songlin Li, Zhao Liu, Jia Zhang, Yongqing Fu
Summary: With the increasing use of miniaturized and intelligent wearable devices, it has become crucial to continuously monitor subtle spatial and temporal changes in human physiological states for daily healthcare and professional medical diagnosis. This paper reviews recent advances in wearable acoustical sensors for medical applications, including their structural designs, fabrication techniques, and diagnostic applications. The challenges and future research directions in this field are also highlighted.
BIOSENSORS & BIOELECTRONICS
(2023)
Article
Engineering, Environmental
Hui Chen, Jian Zhou, Xinxin Long, Fengling Zhuo, Ying Liu, Yihan Zhao, Jianfei Xie, Huigao Duan, Yongqing Fu
Summary: Next generation epidermal and wearable strain sensors have emerged as promising candidates for various applications. However, the overshooting issues and achieving high sensitivity within a full-body motion strain range are major challenges. Here, a conductive electrospun fibrous mats composed of graphene anchored into fibrous thermoplastic polyurethane is proposed to address these challenges.
CHEMICAL ENGINEERING JOURNAL
(2023)
Article
Physics, Applied
Jiabin Shi, Haibao Lu, Yong-Qing Fu
Summary: In this study, a new model was proposed to investigate the working principles and behaviors of hydrothermally-driven shape memory polymers (SMPs). The effect of bound water on the glass transition temperature and water-triggered shape memory effect was explored by dividing the bound water molecules into bridging and non-bridging bound water. The proposed models were verified using experimental results from previous studies on amorphous SMPs.
JOURNAL OF PHYSICS D-APPLIED PHYSICS
(2023)
Article
Engineering, Multidisciplinary
JingYun Liu, HaiBao Lu, Yong-Qing Fu
Summary: Glass transition is critical in determining the dynamics of amorphous shape memory polymers (SMPs), but the relationship between shape memory effect (SME) and dynamic glass transition remains unclear. This study uses an Adam-Gibbs (AG) domain size model and develops a mean-square displacement function, as well as a statistical viscosity equation and a dynamically spinodal model, to explore the metastable glass transition and thermomechanical evolutions in amorphous SMPs. Multiple shape memory behaviors are predicted and the proposed models are verified using experimental data.
SCIENCE CHINA-TECHNOLOGICAL SCIENCES
(2023)
Article
Engineering, Biomedical
Ke Wang, Chao Sun, Povilas Dumcius, Hongxin Zhang, Hanlin Liao, Zhenlin Wu, Liangfei Tian, Wang Peng, Yongqing Fu, Jun Wei, Meng Cai, Yi Zhong, Xiaoyu Li, Xin Yang, Min Cui
Summary: This study developed an acoustofluidic transwell (AFT) method for efficient disruption of the blood-brain barrier (BBB), which shows promising potential as a new drug delivery methodology for neurodegenerative diseases.
BIOMATERIALS RESEARCH
(2023)
Article
Chemistry, Physical
J. Zamora, T. Bautista, N. S. Portillo-Velez, A. Reyes-Montero, H. Pfeiffer, F. Sanchez-Ochoa, H. A. Lara-Garcia
Summary: Experimental and DFT studies were conducted on the structural, magnetic, and optical properties of RFeO3 perovskites. The perovskites exhibited an orthorhombic crystal structure and weak ferromagnetic behavior. They were confirmed to be semiconductors with a bandgap of approximately 2.1 eV.
JOURNAL OF ALLOYS AND COMPOUNDS
(2024)
Article
Chemistry, Physical
Xianxiang Lv, Jing Jin, Weiguang Yang
Summary: By depositing TiN and TiO2 surface layers on AlSi films, the electrochemical performance of silicon-based anodes can be significantly improved, suppressing volume expansion and promoting the formation of a stable SEI layer.
JOURNAL OF ALLOYS AND COMPOUNDS
(2024)
Article
Chemistry, Physical
Sharafat Ali, Haider Ali, Syedul Hasnain Bakhtiar, Sajjad Ali, Muhammad Zahid, Ahmed Ismail, Pir Muhammad Ismail, Amir Zada, Imran Khan, Huahai Shen, Rizwan Ullah, Habib Khan, Mohamed Bououdina, Xiaoqiang Wu, Fazal Raziq, Liang Qiao
Summary: The construction and optimization of redox-heterojunctions using a bifunctional phosphate as an electron-bridge demonstrated significant improvements in photo catalytic activity, including enhanced dispersion, reduced interfacial migration resistance, and increased abundance of active-sites.
JOURNAL OF ALLOYS AND COMPOUNDS
(2024)
Article
Chemistry, Physical
Ren-Ni Luan, Na Xu, Chao-Ran Li, Zhi-Jie Zhang, Yu-Sheng Zhang, Jun Nan, Shu-Tao Wang, Yong-Ming Chai, Bin Dong
Summary: Extensive research has revealed that oxygen evolution reaction (OER) in alkaline conditions involves dynamic surface restructuring. The development and design of sulfide/oxide pre-catalysts can reasonably adjust the composition and structure after surface reconstruction, which is crucial for OER. This study utilized a simple two-step hydrothermal method to achieve in situ S leaching and doping, inducing the composition change and structure reconstruction of CoFe oxides. The transformed FeOOH and CoOOH exhibited excellent OER activity and could be easily mass-produced using low-cost iron based materials and simple methods.
JOURNAL OF ALLOYS AND COMPOUNDS
(2024)
Article
Chemistry, Physical
Jun'an Lai, Daofu Wu, Peng He, Kang An, Yijia Wang, Peng Feng, WeiWei Chen, Zixian Wang, Linfeng Guo, Xiaosheng Tang
Summary: Zero-dimensional organic-inorganic metal halides (OMHs) are gaining attention in the fabrication of light-emitting diodes due to their broad emission band and high photoluminescence quantum yield. This work synthesized a zero-dimensional organic tetraphenylphosphonium bismuth chloride (TBC) that showed efficient blue light emission, with the emission mechanism attributed to the transition of Bi3+ ions. White light-emitting diodes (WLEDs) were fabricated using TBC, along with green-emitting and red-emitting single crystals, achieving single-component white emissions. These findings demonstrate the different emission mechanism of ns2 ions-based OMHs and highlight the potential of bismuth-based OMHs in WLEDs applications.
JOURNAL OF ALLOYS AND COMPOUNDS
(2024)
Article
Chemistry, Physical
Xuewei Liang, Yunhai Su, Taisen Yang, Zhiyong Dai, Yingdi Wang, Xingping Yong
Summary: The revolutionary design concept of high-entropy alloys has brought new opportunities and challenges to the development of advanced metal materials. In this work, AlCrCuFe2NiTix high-entropy flux cored wires were prepared by combining the design idea of a high-entropy alloy with the characteristics of flux cored wire. AlCr-CuFe2NiTix high-entropy surfacing alloys were prepared using gas metal arc welding technology. The wear properties of the alloys were analyzed, and the phase composition, microstructure, strengthening mechanism, and wear mechanism were discussed. The results show that the alloys exhibit a dendritic microstructure with BCC/B2 + FCC phases. Increasing Ti content leads to the precipitation of Laves phase. The alloys show improved microhardness and wear resistance due to the precipitation of coherent B2 and Laves phases. However, excessive Ti addition results in the increase of Laves phase and reduced wear resistance of the alloys.
JOURNAL OF ALLOYS AND COMPOUNDS
(2024)
Article
Chemistry, Physical
M. Vadivel, M. Senthil Pandian, P. Ramasamy, Qiang Jing, Bo Liu
Summary: This work presents the enhanced photocatalytic and electrochemical performance of g-C3N4 assisted PAA on CoFe2O4 ternary nanocomposites. The incorporation of PAA and g-C3N4 improves the separation efficiency of photogenerated charge carriers, resulting in superior photocatalytic degradation and high specific capacitance values.
JOURNAL OF ALLOYS AND COMPOUNDS
(2024)
Article
Chemistry, Physical
Vibhu T. Sivanandan, Ramany Revathy, Arun S. Prasad
Summary: In this study, pure and doped cobalt ferrite nanoparticles were prepared using the sol-gel auto-combustion method with the aid of lemon juice as eco-fuel. The crystal structure, lattice parameter, crystallite size, microstrain, optical parameters, and room temperature magnetic properties of the samples were analyzed. The effect of doping on the magnetic properties was also investigated.
JOURNAL OF ALLOYS AND COMPOUNDS
(2024)
Article
Chemistry, Physical
Qing Guo, Bowen Zhang, Benzhe Sun, Yang Qi
Summary: This study prepared ZnO films with various nonpolar preferred orientations using conventional chemical bath deposition method and characterized their growth process and mechanism. It was found that the type and concentration of nitrate could control the preferred orientation and surface roughness of ZnO films. Additionally, ZnO films with different preferred orientations exhibited different optical properties.
JOURNAL OF ALLOYS AND COMPOUNDS
(2024)
Article
Chemistry, Physical
Chong Zhang, Yan Liu, Zhaoyan Wang, Hang Yang
Summary: In this study, six bimetallic FeCo particles were synthesized via the hydrothermal method at different Fe:Co ratios. The Fe:Co ratio not only modulates the composition of the particles but also influences their structure and magnetic properties. The FeCo alloys showed a transformation from an Fe-based structure to a Co-based structure with increasing Co content. The Fe:Co ratio of 1:1 and 3:1 resulted in particles with the highest and lowest saturation magnetization, respectively.
JOURNAL OF ALLOYS AND COMPOUNDS
(2024)
Article
Chemistry, Physical
Jianning Zhang, Jing Li, Yiren Wang, Xiaodong Mao, Yong Jiang
Summary: We conducted a study on the formation of ultra-fine Y-Ti-Ta-O nano-oxides in Ta+B micro-alloyed 13CrWTi-ODS alloys using electron microscopy and first-principles calculations. The Y-Ti-Ta-O nano-oxides were found to be mainly Y2(Ti,Ta)2O7, with an average size of 7 nm and a number density of 6.8 x 1023 m-3. Excess boron was found to enhance the adhesion of some low-sigma grain boundaries but weaken the Fe/Y2Ti2O7 interface, while excess tantalum enhanced the Fe/Y2Ti2O7 interface but caused serious degradation of grain boundaries.
JOURNAL OF ALLOYS AND COMPOUNDS
(2024)
Article
Chemistry, Physical
Yirong Fang, Pei Cheng, Hang Yuan, Hao Zhao, Lishu Zhang
Summary: A new composite system of nitrogen-doped reduced graphene oxide and black phosphorus quantum dots has been developed for tumor therapy, showing improved electrochemical properties and stability. The system generates hydrogen peroxide and hydroxyl radical to effectively kill tumor cells.
JOURNAL OF ALLOYS AND COMPOUNDS
(2024)
Article
Chemistry, Physical
Xiufang Qin, Yuanli Ma, Hui Zhang, Ting Zhang, Fang Wang, Xiaohong Xu
Summary: The structure and magnetism of cobalt ferrites after Mn2+-Tb3+ co-doping were studied. Co-doped samples exhibited cubic spinel structure and spherical shape of ferrite nanoparticles. The redistribution of Co2+ and Fe3+ ions between octahedral and tetrahedral sites was observed due to Mn2+-Tb3+ co-doping. The coercivity and magnetization saturation of co-doped samples were significantly improved, leading to a maximum energy product that is 190% higher than that of the un-doped sample.
JOURNAL OF ALLOYS AND COMPOUNDS
(2024)
Article
Chemistry, Physical
Ho Yeon Lee, Wonjong Yu, Yoon Ho Lee
Summary: Recently, there has been an increasing interest in developing ultra-fine nanostructured electrodes with extensive reaction areas to enhance the performance and low-temperature operation of solid oxide fuel cells. The use of a refined approach involving co-sputtering metal alloys and oxide targets has demonstrated the feasibility of nano-columnar structures in perovskite-based electrodes, expanding the temperature range of thin film electrodes. This study systematically examines the effects of chamber pressure control in the co-sputtering process and identifies the intricate relationship between sputtering pressure and film structure. By fine-tuning the columnar growth in the electrode, significant improvements in performance and thermo-mechanical properties were achieved, resulting in high-performance all-sputtered solid oxide fuel cells.
JOURNAL OF ALLOYS AND COMPOUNDS
(2024)
Article
Chemistry, Physical
Qianyun Bai, Xiaoxiao Yan, Da Liu, Kang Xiang, Xin Tu, Yanhui Guo, Renbing Wu
Summary: This study proposes a simple method to develop a non-precious transition metal-based electrocatalyst with high catalytic activity and robustness for the hydrogen evolution reaction. The as-synthesized electrode exhibits a low overpotential and high current density, indicating its potential in energy conversion.
JOURNAL OF ALLOYS AND COMPOUNDS
(2024)
