Review
Chemistry, Physical
Mohammadali Ahmadi, Ehsan Aliabadian, Benjieming Liu, Xuantong Lei, Pooneh Khalilpoorkordi, Qingfeng Hou, Yuanyuan Wang, Zhangxin Chen
Summary: A comprehensive understanding of interfacial behavior in water/oil/surfactant systems is crucial for evaluating the performance of emulsions in various industries. This review summarizes the fundamentals and progress of dissipative particle dynamics (DPD) simulation in studying colloidal and interface systems, particularly surfactant/water/oil mixtures.
ADVANCES IN COLLOID AND INTERFACE SCIENCE
(2022)
Article
Engineering, Chemical
Hongling Zhang, Haihua Xu, Mingzhu Xia, Fengyun Wang, Xia Wan
Summary: The novel ampholytic surfactant modified montmorillonite showed better adsorption performance for BTH and 2-OH-BTH compared to acidified Na-Mt, mainly through electrostatic interaction and hydrophobic partitioning.
ADVANCED POWDER TECHNOLOGY
(2021)
Article
Chemistry, Physical
Jianying Guo, Yangchao Xia, Yutao Liu, Shengyu Liu, Lei Zhang, Bao Li
Summary: This study investigated the microscopic adsorption behaviors of SDS and DTAB on lignite surface through molecular dynamics simulations. It found that the adsorption of SDS is mainly controlled by van der Waals force, while DTAB can strongly adsorb on the lignite surface due to electrostatic attraction. The effects of surfactant adsorption on lignite surface wettability showed the same trends as the adsorption strength.
JOURNAL OF MOLECULAR LIQUIDS
(2022)
Article
Geochemistry & Geophysics
Xuanlai Chen, Guochao Yan, Xianglin Yang, Guang Xu
Summary: In this study, the adsorption characteristics of sulfonate gemini surfactants on lignite surface were explored using molecular dynamics simulation. The results showed that S2 had higher adsorption strength and could better adsorb and wrap the oxygen-containing groups on the surface of lignite. This research provides important insights into the influence of surfactant structure on adsorption strength.
Article
Engineering, Environmental
Wen Nie, Qifan Tian, Wenjin Niu, Ruoxi Li, Qiu Bao, Xiaohan Zhang, Xiao Yan, Jie Lian
Summary: Coal dust, a pollutant particle generated during coal development and utilization, can cause harm to the environment and human health. The study used experimental and molecular dynamics simulations to select four surfactants and studied their wettability and adsorption ability. The results showed that a composite aqueous solution of 0.07% SDBS and 0.05% AEO-9 significantly increased the hydrophilic functional groups in coal molecules and effectively solved the problem of poor hydrophilicity and difficult wetting of coal dust.
JOURNAL OF ENVIRONMENTAL CHEMICAL ENGINEERING
(2023)
Article
Chemistry, Physical
Hongling Zhang, Mingzhu Xia, Fengyun Wang, Pingping Li, Mingxing Shi
Summary: The study found that two gemini surfactants modified montmorillonite had better removal effect on benzotriazole emerging contaminants, involving electrostatic interaction and hydrophobic partitioning in the adsorption mechanism.
APPLIED CLAY SCIENCE
(2021)
Article
Chemistry, Physical
Xuewen Cao, Wenzhu Xia, Pan Zhang, Hengguang Cao, Xiang Li, Xingyao Zhang
Summary: This study investigates the effects of salt on the interfacial tension, adsorption behavior, and interface characteristics of surfactant solutions. It is found that the addition of salt can accelerate the adsorption kinetics, increase the adsorption capacity, and create more vacant sites on the interface. Furthermore, magnesium ions facilitate the rapid change in the orientation of the headgroups and reduce the thickness of the double electric layer.
COLLOIDS AND SURFACES A-PHYSICOCHEMICAL AND ENGINEERING ASPECTS
(2022)
Article
Chemistry, Physical
Gang Zhou, Mengyao Xing, Kaili Wang, Qi Wang, Zhuo Xu, Lin Li, Weimin Cheng
Summary: This study investigated the influence of different types of surfactants on the wettability of gas coal from a microscopic perspective. The molecular dynamics simulations showed that the cationic surfactant CTAC and the zwitterionic surfactant BS-12 could adsorb on the surface of gas coal molecules, with BS-12 having a stronger adsorption effect. The addition of CTAC and BS-12 increased the thickness of the adsorption layer at the water/coal interface, and the interaction energies indicated that the adsorption process was spontaneous. Contact angle experiments and XPS analyses confirmed that the wettability of BS-12 for gas coal was greater than that of CTAC.
JOURNAL OF MOLECULAR LIQUIDS
(2022)
Article
Chemistry, Physical
Arghyadeep Paul, N. R. Aluru
Summary: The study investigates the impact of nonlocal shear stress on gravity-driven isothermal flow in nanochannels under strong confinement. The local average density model is used and the fluid's viscosity kernel is estimated using the sinusoidal transverse force method. A continuum model is proposed to solve the nonlocal hydrodynamics problem and its solutions are qualitatively compared with the results of non-equilibrium molecular dynamics simulations.
JOURNAL OF CHEMICAL PHYSICS
(2022)
Article
Chemistry, Physical
Jiajun Li, Guochao Yan, Li Zhou, Xuyang Bai, Xuanlai Chen
Summary: Reducing coal dust is crucial for environmental protection and energy efficiency, and the addition of surfactants to water can enhance the wetting ability of coal dust, leading to a more effective dust reduction effect.
COLLOIDS AND SURFACES A-PHYSICOCHEMICAL AND ENGINEERING ASPECTS
(2023)
Article
Energy & Fuels
Mohammadali Ahmadi, Zhangxin Chen
Summary: Using molecular dynamics simulation, this study evaluated the interactions between asphaltene and anionic surfactants under thermodynamic conditions close to thermal-based oil recovery. The presence of a benzene ring in a surfactant structure was found to enhance interactions, especially van der Waals interactions. Furthermore, the position and number of heteroatoms in asphaltene architecture play a crucial role in its behavior in a solution.
Article
Chemistry, Multidisciplinary
Mengsu Peng, Timothy T. Duignan, Cuong Nguyen, Anh Nguyen
Summary: Surfactants play a central role in various scientific and engineering fields, but understanding their behavior at the air-water interface still presents challenges. Research focuses on accurately describing the adsorption layer thickness of surfactants in this area. The modified Poisson-Boltzmann model has been developed to address the effects of surfactants at the air-water interface, with remaining challenges and future research directions also discussed.
Article
Chemistry, Physical
Han Jia, Xin Wei, Yuqian Sun, Mingming Xu, Chuanqi Li, Wenxin Cao, Xiyang Wang, Kaihe Lv, Dexin Liu, Pan Huang
Summary: This study investigates the effect of injection times of DOPS surfactant on the detachment of asphaltene aggregates from mineral surfaces using molecular dynamics (MD) simulation. The adsorption behaviors of asphaltenes on kaolinite-liquid interfaces are evaluated through number density distribution and interaction analysis. The simulation results reveal that carboxylate groups and polyaromatic rings with π-conjugated structures dominate the adsorption behavior of asphaltenes.
APPLIED SURFACE SCIENCE
(2023)
Article
Chemistry, Physical
Wenchuan Liu, Ning Li, Zhiqian Sun, Zhenbo Wang, Zengli Wang
Summary: This study presents molecular dynamics simulations of droplet collision and coalescence in shear gas flow between gold plates. The results show that parameters such as shear velocity, normal symmetry velocity, and capillary number play a crucial role in determining the behavior of the droplets.
JOURNAL OF MOLECULAR LIQUIDS
(2022)
Article
Materials Science, Multidisciplinary
Yuxin Shi, Zhaoqiang Chen, Qi Li, Jun Wu, Guangchun Xiao, Mingdong Yi, Jingjie Zhang, Chonghai Xu
Summary: The adsorption effect of SiO2 on the surface of CaF2 nanospheres was studied using molecular dynamics simulation. By analyzing the radial distribution function, relative concentration, and adsorption energy, it was determined that SiO2 has a good adsorption effect on the surface of CaF2 nanospheres at temperatures between 313-333 K and with a SiO2 concentration of 1 g/mL. The CaF2 @SiO2 nanomaterials with good surface morphology were prepared based on the determined temperature and SiO2 concentration, and characterized using transmission electron microscopy (TEM) and X-ray diffraction.
MATERIALS TODAY COMMUNICATIONS
(2023)
Meeting Abstract
Oncology
Ruixin Yang, Di Zhu, Lauren Howard, Amanda M. De Hoedt, Zachary William Abraham Klaassen, Stephen J. Freedland, Stephen B. Williams
JOURNAL OF CLINICAL ONCOLOGY
(2022)
Article
Engineering, Chemical
Leina Hua, Raffaella Ocone, Ning Yang
Summary: A new model for liquid-bridge evolution with consideration of particle dynamics is proposed to improve CFD-DEM simulations of wet particles fluidization under high liquid loading and viscosity. The model accurately predicts bubble properties and captures bubble disintegration due to particle agglomeration under high liquid loading.
Article
Engineering, Chemical
Jiayi Wang, Leina Hua, Ning Yang
Summary: Liquid partition coefficient is a key parameter in simulating liquid-injected fluidized beds. A two-dimensional Volume-of-Fluid simulation was conducted to study droplets impinging, wetting and spreading on particles. The model was validated by experiments on droplet spreading diameter. The study investigated the effects of Weber number, droplet-to-particle ratio, and particle volume fraction on various parameters. The results show that these parameters decrease with increasing Weber number and higher particle volume fraction leads to a higher ratio of liquid area adhered to particles. The droplet-to-particle ratio is not the dominant factor in liquid partition.
CHEMICAL ENGINEERING SCIENCE
(2022)
Article
Engineering, Electrical & Electronic
Shuai Ma, Ruixin Yang, Xiong Deng, Xintong Ling, Xun Zhang, Fuhui Zhou, Shiyin Li, Derrick Wing Kwan Ng
Summary: This paper investigates the spectral efficiency (SE) and energy efficiency (EE) of asymmetrically clipped optical orthogonal frequency division multiplexing (ACO-OFDM) for visible light communication (VLC). Optimal power allocation schemes are proposed to maximize SE and tackle the non-convex EE maximization problems. The performance of the proposed schemes is validated through numerical analysis.
IEEE TRANSACTIONS ON WIRELESS COMMUNICATIONS
(2022)
Article
Green & Sustainable Science & Technology
Dan Zhou, Qingwei Hu, Xin Sun, Weizhen Yao, Guobin Gu, Ruixin Yang, Congruo Ma
Summary: A probability model was established to evaluate the influence of manhole cover subsidence on the riding behavior of two-wheeler riders in urban bicycle lanes. The results showed that the subsidence depth of manhole covers and lane integrity were the main factors affecting the probability of riding behaviors.
Article
Engineering, Electrical & Electronic
Zhongxiaobang Hu, Yang Li, Furong Liu, Bo Zhao, Weibo Li, Ruixin Yang, Changjun Xie, Ying Shi
Summary: This article studies the characteristics of Li-ion batteries under low temperature and high-frequency AC excitation. The experimental and numerical results confirm the positive correlation between current frequency and root-mean-square value with heating rate.
IEEE TRANSACTIONS ON TRANSPORTATION ELECTRIFICATION
(2022)
Article
Engineering, Electrical & Electronic
Yiming Xu, Xiaohua Ge, Weixiang Shen, Ruixin Yang
Summary: This article proposes a battery fault diagnosis method that achieves joint soft short-circuit fault detection and estimation. It constructs a nonlinear observer to estimate the battery's state of charge and soft short-circuit current, and develops a diagnosis algorithm to detect soft short-circuit faults.
IEEE TRANSACTIONS ON POWER ELECTRONICS
(2022)
Article
Engineering, Electrical & Electronic
Shuai Ma, Haihong Sheng, Ruixin Yang, Hang Li, Youlong Wu, Chao Shen, Naofal Al-Dhahir, Shiyin Li
Summary: We propose covert beamforming design frameworks for integrated radar sensing and communication systems, aiming to allow radar to covertly communicate with legitimate users without being detected by eavesdroppers. For perfect CSI scenario, we transform the design problems into convex subproblems and solve them using semidefinite relaxation and bisection search method. For imperfect CSI scenario, we propose a relaxation and restriction method to tackle the robust covert beamforming design problems. Simulation results demonstrate the effectiveness of our proposed schemes.
IEEE TRANSACTIONS ON WIRELESS COMMUNICATIONS
(2023)
Article
Biotechnology & Applied Microbiology
Fangfang Li, Xiaokang Chen, Ruixin Yang, Kun Zhang, Weixing Shan, Matthieu H. A. J. Joosten, Yu Du
Summary: The study found that StMKK1 interacts with StPTP1a, phosphorylates StPTP1a, and enhances its stability and catalytic activity. StPTP1a represses potato immunity by regulating the expression of SA-related genes, and StMKK1 requires StPTP1a to negatively regulate SA-related immunity.
PLANT BIOTECHNOLOGY JOURNAL
(2023)
Article
Engineering, Chemical
Jiachen Liu, Xiaoping Guan, Ning Yang
Summary: One of the challenges in CFD simulation of gas-liquid flow is the modeling of shear-induced turbulence (SIT) and bubble-induced turbulence (BIT). This paper aims to investigate this issue and the coupling mechanisms of SIT and BIT. The results show that the effect of BIT models varies, with the Sato or TH model having a significant effect and the Simonin model having a marginal effect. The coupling mechanisms of BIT and SIT also differ depending on the SIT models used.
CHEMICAL ENGINEERING SCIENCE
(2023)
Article
Telecommunications
Shuai Ma, Ruixin Yang, Guanjie Zhang, Hang Li, Wen Cao, Linqiong Jia, Yanyu Zhang, Shiyin Li
Summary: In this paper, the channel capacity of MIMO VLC system under optical and electrical power constraints is investigated. The problem is formulated as a mixed integer programming and an inexact gradient projection method is proposed to find the capacity-achieving discrete input distribution. Both upper and lower bounds of the capacity are derived and an optimal power allocation scheme is developed to maximize transmission rate. Simulation results show the need for more discrete points at higher SNR and the effectiveness of the proposed power allocation scheme for low-order modulation inputs.
CHINA COMMUNICATIONS
(2023)
Article
Engineering, Chemical
Qiushi Xu, Xiaoping Guan, Ning Yang
Summary: This study experimentally investigates the fluidization behavior of polyethylene particles in an elevated-temperature liquid-solid fluidized bed. The swelling of particles is observed to occur in two phases, non-cohesive swelling and cohesive swelling, different from the fluidization of cohesive particles in gas-solid systems. Four regimes are identified through static bed height and pressure drop measurements: stable fluidization, noncohesive-swelling fluidization, cohesive-swelling fluidization, and full defluidization. A phase diagram is developed to demarcate these regimes, and an energy balance model is proposed to predict the initial agglomerating temperature of swelling particles for early warning of abnormal fluidization in practical operations.
INDUSTRIAL & ENGINEERING CHEMISTRY RESEARCH
(2023)
Article
Plant Sciences
Hui Yang, Xiaokang Chen, Ruixin Yang, Jing Cheng, Yong Chen, Matthieu H. A. J. Joosten, Yu Du
Summary: The study reveals that the interaction between StMKK5 and StSIPK genes in potato triggers cell death, promoting immunity against Phytophthora infestans through activation of both the salicylic acid and ethylene signaling pathways.
MOLECULAR PLANT PATHOLOGY
(2023)
Article
Oncology
Shujing Yao, Ruixin Yang, Chenggang Du, Che Jiang, Yang Wang, Chongqi Peng, Hongmin Bai
Summary: In patients with DLGG primarily located in the central lobe, awake craniotomy with intraoperative DES can safely achieve a high extent of tumor resection and reduce the risk of severe permanent neurological deficits. The surgical procedure involves mapping and resection of eloquent brain areas while preserving functional boundaries. The results demonstrate a high tumor resection rate and improved quality of life in terms of seizure control for most patients.
FRONTIERS IN ONCOLOGY
(2023)
Article
Engineering, Chemical
Qiushi Xu, Xiaoping Guan, Raffaella Ocone, Ning Yang
Summary: By applying digital image analysis, we found that the characteristics of bubbles in a wet-particle fluidized bed undergo a two-stage evolution with increasing liquid content. In the first stage, bubble number and uniformity increase while average diameter and aspect ratio decrease. In the second stage, these characteristics shift in the opposite direction. This evolution is similar to reducing particle size in dry-particle fluidization.
Article
Engineering, Chemical
Bingyao Wang, Tianyi Cai, Xiaoshu Cai, Wu Zhou, Zeqi Liu
Summary: The size and morphology of nanoparticles significantly impact their performance. Current methods, such as electron microscopy or atomic force microscopy, have limitations in sample preparation, processing time, and quantitative characterization. Therefore, it is crucial to develop a fast, accurate, and statistical method for measuring nanoparticle size and morphology. In this study, a new method called polarized imaging dynamic light scattering (PIDLS) is proposed, which irradiates nanoparticles with a vertical linearly polarized laser beam and utilizes a polarization camera to collect dynamic light scattering images at different polarization directions. The method effectively determines particle size, morphology, and sphericity based on depolarization patterns and degree of linear polarization. PIDLS also enables simultaneous measurement of particle size and morphology distributions, allowing for the evaluation of particle uniformity. The effectiveness of PIDLS is validated with the measurement of five types of industrial titanium dioxide.
Article
Engineering, Chemical
Qingye Meng, Shuangling Zhong, Jingfei Wang, Zhenqian Zhang, Yan Gao, Xuejun Cui
Summary: In this study, a non-toxic natural polysaccharide, sodium alginate (SA), was developed for targeted delivery of curcumin (CUR) in tumor therapy. The CUR was coated in microcapsules using a quick, efficient, and environment-friendly sonochemical method. The microcapsules showed similar toxicity to free curcumin in anti-tumour evaluation and exhibited effective antibacterial properties. This research has the potential to provide a low-cost tumor targeting vector and can be promoted for clinical application.
Article
Engineering, Chemical
Christin Velten, Mirko Ebert, Christian Lessig, Katharina Zaehringer
Summary: Ray tracing Particle Image Velocimetry (RT-PIV) is an optical technique that corrects for distortions in velocity measurements caused by transparent geometries in challenging optical systems. This study focuses on the challenges and implications of using RT-PIV in a body centred cubic (bcc) sphere packing with gaseous flow, where transparent glass balls are used for optical access. The results demonstrate the effectiveness of the method in reconstructing velocity fields behind transparent spheres.
Article
Engineering, Chemical
Yanhao Ye, Ji Xu, Wei Ge
Summary: By modeling neighboring particles as a single coarse-grained particle, the discrete particle method (DPM) can now simulate industrial-scale particle-fluid systems. However, there is still a lack of a systematic approach to determine the properties and interaction models of these coarse-grained particles, which affects the predictability of the method. In this study, kernel functions for modeling the coarse-grained particles are constructed based on the analysis of collisions between predefined particle groups, and the model parameters are determined by equating the statistical properties of the coarse-grained particles to those of the real particles. This approach has been effective in simulating the homogeneous cooling of granular gas and experimental fluidized beds.
Article
Engineering, Chemical
Boris I. Kharisov, Oxana V. Kharissova, Lucy T. Gonzalez, Yolanda Pena Mendez, Igor E. Uflyand, Idalia Gomez de la Fuente
Summary: Hydroxyapatite (HA) composites with carbon allotropes and nanocarbons are rapidly developing in materials chemistry, especially for medical applications. These composites can be synthesized using various methods and exhibit biocompatibility and hemocompatibility, making them suitable for bone regeneration and wastewater treatment.
Article
Engineering, Chemical
Xing Li, Qun Chen, Zhaozhao Liu, Cheng Zhou, Chen Wang, Chen Chen
Summary: The particle size distribution (PSD) curve is an important expression of soil properties. However, existing characteristic parameters can only represent some points of the curve and fail to capture all the information. This paper introduces a new fraction characteristic parameter based on grading entropy and proposes a refined presentation method for the PSD curve. The new method not only represents the differences in curve width more accurately but also has higher discrimination ability. The application of this method in describing deposit distribution and predicting soil hydraulic conductivity is discussed. The research results can provide reference for the refined representation of PSD curves.
Article
Engineering, Chemical
Qingjin Zhang, Liangliang Fu, Guangwen Xu, Dingrong Bai
Summary: This study comprehensively analyzes the temperature effect on the minimum fluidization velocity (Umf) in fluidized-bed reactors. The analysis reveals the influence of temperature on Umf is determined by the relative importance of hydrodynamic forces and interparticle forces, which result in changes in gas properties, bed voidage, and physiochemical characteristics of particles. An equation is derived to predict the temperature influences on Umf under broad temperature conditions.
Article
Engineering, Chemical
Josephine Oppotsch, Matthias Steinke, Miriam Fritsch, Fritz -Herbert Heinsius, Thomas Held, Nikoline Hilse, Viktor Scherer, Ulrich Wiedner
Summary: This work is the second part of a simulation study on processing densely packed and moving granular assemblies using PEPT. A cost-effective PET-like detector system is being developed to overcome the high cost of PET scanners commonly used for PEPT. Monte Carlo simulations and Geant4 software were used to study the spatial resolution of different scenarios, and it was found that oversampling and iteration improved the resolution significantly.
Article
Engineering, Chemical
Lian Duan, Zhixun Xia, Yunchao Feng, Binbin Chen, Likun Ma, Jianxin Hu
Summary: In this study, boron-magnesium agglomerates with varying mass ratios were prepared and the combustion process of these agglomerates under different oxygen-rich concentrations were investigated. The results showed that when the mass fraction of magnesium powder in boron-magnesium agglomerates exceeded a certain threshold, a transient flameout process occurred. This process is affected by the magnesium content of the agglomerate and the oxygen concentration in the ambient atmosphere.
Article
Engineering, Chemical
Lixia Hou, Chunxiao Qu, Min Su, Zhihan Liang, Qi Hao
Summary: This study investigates the impact of polymer modified Fe3O4 nanoparticles on lysozyme (Lys) crystallization under different conditions, using functionalized Fe3O4 magnetic nanoparticles (Polymer C@Fe3O4) as nucleation agents. The findings show that the surface charge density of Polymer C@Fe3O4 is highest at a modification mass ratio of 8:3 for Fe3O4 to Polymer C. By adding 15% of the PolymerC@Fe3O4 prepared from Fe3O4 with an average particle size of 150 nm, magnetic core lysozyme (M-Lys) crystals with an average particle size of 11.08 mm, narrow size distribution, and regular morphology were obtained with a yield of 82.42% within 60 min.
Article
Engineering, Chemical
Fangling Hu, Liangliang Fu, Qingjin Zhang, Guangwen Xu, Dingrong Bai
Summary: This study proposes a method for synthesizing high-quality forsterite using abundant boron mud waste through high-temperature thermochemical reactions. The reaction can be completed rapidly at low temperatures due to the high reactivity of fine raw powder materials. The synthesized forsterite products exhibit high densification, well-developed grains, and an activation energy of 165.5 kJ/mol in the temperature range of 1100-1500°C. This study provides a low-cost method for producing forsterite and an efficient solution for treating solid waste.
Article
Engineering, Chemical
Yi Liu, Yunyan Guo, Rui Zhu, Jinqiang Zhou, Zhengxu Lin, Kai Han, Chongwei An, Jingyu Wang, Bidong Wu
Summary: Improved controllability and energy density of ignition agents are important for the development of energetic composite materials. In this study, HNS/CL-20 composite microspheres were prepared using droplet microfluidics and emulsification techniques with GAP as the binder. The microspheres exhibited higher sphericity and particle size uniformity compared to raw HNS, and retained the crystal structure of both HNS and CL-20. The microspheres also showed higher apparent activation energy, better safety performance, and good dispersibility, demonstrating excellent ignition performance and significant energy release effects.
Article
Engineering, Chemical
Max Kriegeskorte, Nikoline Hilse, Phil Spatz, Viktor Scherer
Summary: This study experimentally analyzed the particle mechanics of a single floor in a multiple hearth furnace. The results showed that increasing the blade angle led to an increase in the particle free surface area. The frequency distribution of the mean distance among particles provided information about the morphology of the particle bulk.
Article
Engineering, Chemical
Min Cai, Shuangzhu Kong, Sheng Chen, Mengxi Liu, Chunxi Lu
Summary: Reasonable reactor design is crucial for increasing the C2 yield in the oxidative coupling of methane (OCM). This study focused on large-scale fluidized bed reactors and conducted experiments and simulations to investigate their hydrodynamics and reaction performance. The results showed that the consecutive reactions of ethylene were severe in the bubbling fluidized bed (BFB) reactor due to gas back-mixing, high solids holdup, and non-uniform solids distribution, while they were negligible in the riser reactor. Both reactors achieved isothermal operation for the OCM process, with the riser reactor showing higher C2 selectivity and yield compared to the BFB reactor. This study provides valuable information for OCM reactor design and commercialization.
Article
Engineering, Chemical
Jiangkui Hu, Shijie Yang, Yingying Pei, Xilong Wang, Yulong Liao, Shuai Li, Aolong Yue, Jia-Qi Huang, Hong Yuan
Summary: This review discusses the interfacial issues in all-solid-state lithium batteries (ASSLBs) based on sulfide solid electrolytes (SEs) and high-voltage cathodes, and proposes strategies to stabilize the electrolyte/cathode interfaces. The future research direction of electrolyte/cathode interfaces and the application prospects of powder technology in sulfide-based ASSLBs are also discussed.