Article
Materials Science, Multidisciplinary
Pan Hu, Yongfu Liu, Peng Sun, Qi Yao, Zehua Liu, Zhaohua Luo, Kefu Chao, Haochuan Jiang, Jun Jiang
Summary: The Y3Al5O12:Ce3+ transparent ceramic phosphor shows great potential for laser-diode lighting due to its high efficiency in absorbing blue light. By substituting certain elements and controlling the porosity, the luminous efficiency of the YAG:Ce3+ TCP can be significantly improved. Introducing specific elements to modify the phosphor and enhance blue light absorption can further increase the luminous efficiency, providing more efficient technical support for LED lighting.
MATERIALS RESEARCH BULLETIN
(2021)
Article
Optics
Wellisson S. Silveira, Ariosvaldo Junior Sousa Silva, Patresio Alexandro Miranda do Nascimento, Iure da Silva Carvalho, Marcos V. dos S. Rezende
Summary: Sr ions are used as codopants to improve the luminescence properties of Ce-doped YAG. The presence of single YAG phase was confirmed by X-ray diffraction measurements, and Rietveld refinement showed that the unit cell expands with the increase of Sr2+ concentration. Photoluminescence (PL) exhibited characteristic transitions of Ce3+ ions with greater emission intensity in the green region, and the luminescence decay time indicated that the concentration enhances emission persistence.
Article
Energy & Fuels
Suman Rijal, Alisha Adhikari, Rasha A. Awni, Chuanxiao Xiao, Deng-Bing Li, Briana Dokken, Anna Ellingson, Ernesto Flores, Sandip S. Bista, Dipendra Pokhrel, Sabin Neupane, Richard E. Irving, Adam B. Phillips, Katherine Jungjohann, Chun-Sheng Jiang, Mowafak Al-Jassim, Randy J. Ellingson, Zhaoning Song, Yanfa Yan
Summary: In this study, antimony sulfoselenide (Sb-2(S, Se)(3)) thin-film solar cells were fabricated using a hydrothermal method and post-deposition annealing at different temperatures. The impact of annealing temperature on the morphological, structural, optoelectronic, and defect properties of the hydrothermally grown Sb-2(S, Se)(3) films was investigated. The results showed that an appropriate annealing temperature led to high-quality Sb-2(S, Se)(3) films with desirable characteristics and reduced defect density, resulting in improved power conversion efficiency of the Sb-2(S, Se)(3) solar cells.
Article
Materials Science, Ceramics
A. B. Vlasenko, A. M. Dorokhina, V. V. Bakhmetyev, N. A. Khristyuk, S. V. Mjakin, E. N. Kuzina, M. M. Sychov, H. Kominami, A. Toru, H. Morii
Summary: Finely dispersed Y2O3:Eu, Y2Si2O7:Eu, YF3:Ce, and YF3:Eu luminescent phosphors were synthesized using a hydrothermal method. Two different processes were developed for obtaining Y2O3:Eu and Y2Si2O7:Eu phosphors with reduced particle size. The synthesis conditions were studied for YF3:Ce and YF3:Eu nanosized phosphors to adjust their luminescence spectra.
JOURNAL OF SOL-GEL SCIENCE AND TECHNOLOGY
(2023)
Article
Chemistry, Physical
Pravin S. Pawar, Raju Nandi, KrishnaRao Eswar Neerugatti, Jae Yu Cho, Jaeyeong Heo
Summary: The study deposited Sb2S3 thin films on molybdenum using a hydrothermal approach and achieved higher power conversion efficiency through annealing to crystallize the films. The research also addressed the underlying reasons for the low efficiency of Sb2S3 TFSCs and provided a pathway for improving device performance in the future.
JOURNAL OF ALLOYS AND COMPOUNDS
(2022)
Article
Materials Science, Ceramics
Yuwaraj K. Kshetri, Bina Chaudhary, Dhani Ram Dhakal, Chhabilal Regmi, G. Murali, Soo Wohn Lee, Tae-Ho Kim
Summary: In this study, Yb- and Er-doped CaSiO3 (Yb/Er-CaSiO3) wollastonite ceramics were synthesized via microwave hydrothermal technique followed up by heat-treatment in an air environment. The results showed the presence of beta-wollastonite (2M) phase in the synthesized samples heat-treated at 1050 degrees C. The 980 nm excitation resulted in ultraviolet, violet, green, and red upconversion emissions, as well as downshifting infrared emissions. The absolute upconversion quantum yield in the 400-800 nm range was measured to be 0.04%.
CERAMICS INTERNATIONAL
(2023)
Article
Materials Science, Multidisciplinary
Azhar Shah, Sumaiya Saleem, Noor Ul Amin, Muhammad Salman, Yihan Ling, Amir Khesro, Majid Khan
Summary: In this study, NiCo2O4 nanostructures were synthesized using a hydrothermal method and annealed at different temperatures. The resulting materials showed different structures, with a single-phase face-centered cubic spinel structure obtained at 350 degrees C. The sample annealed at 350 degrees C exhibited excellent electrochemical performance for hydrogen evolution reaction.
MATERIALS SCIENCE AND ENGINEERING B-ADVANCED FUNCTIONAL SOLID-STATE MATERIALS
(2023)
Article
Optics
Merve Zeyrek Ongun
Summary: In this study, the addition of light-harvesting Ni-doped SnO2 particles was found to enhance the brightness and intensity values of YAG:Ce3+, Ca-alpha-Sialon:Eu2+, and CaAl12O19:Mn4+ phosphors, with measurements of decay characteristics in microsecond and nanosecond time scales. Results indicate that in a polymeric matrix, Ni-doped SnO2 particles and phosphors act as donor and acceptor, respectively.
JOURNAL OF LUMINESCENCE
(2021)
Article
Materials Science, Ceramics
Lixin Zhang, Qingyu Meng, Wenjun Sun, Shuchen Lue
Summary: In this study, Sm3+/Tb3+-co-doped NaGd(MoO4)(2) phosphors were prepared and their temperature-dependent emission spectra were analyzed to show that the fluorescence intensity ratio can be used to represent temperature. The temperature-sensing sensitivity of the phosphors gradually increased with the increasing sodium citrate and rare earth molar ratio. The Commission International del'Eclairage chromaticity coordinates displayed continuous color changes of the specimens from green to red with temperature.
CERAMICS INTERNATIONAL
(2021)
Article
Materials Science, Ceramics
Yuange Liu, Qingyu Meng, Lin Bai
Summary: In this experiment, Gd2Ti2O7: x% Sm3+, 1% Tm3+ (x = 0.1, 0.3, 0.5, 1) optical temperature sensing materials were synthesized using the hydrothermal method with urea as the precipitant. XRD analysis confirmed the face-centered cubic phase pyrochlore structure of the prepared samples, while FE-SEM images revealed their irregularly spherical morphology. The temperature-dependent emission spectrum measurements indicated that Tm3+ exhibited significant thermal quenching, while Sm3+ showed a slower thermal quenching trend, leading to significant variations in their fluorescence intensity ratios (FIRs) with temperature. By comparing different samples, it was found that increasing Sm3+ concentration resulted in higher absolute sensitivity but decreasing relative sensitivity. The maximum absolute sensitivity was 0.0686 K-1 (483 K, 1% Sm3+, 1% Tm3+), and the maximum relative sensitivity was 3.1% K-1 (297.7 K, 0.1% Sm3+, 1% Tm3+). Additionally, the luminescence color of the Gd2Ti2O7: 0.1% Sm3+, 1% Tm3+ phosphors continuously changed from blue to orange-red with increasing temperature, allowing for rough estimation of temperature changes based on luminescence color. The temperature cycle test demonstrated good repeatability of temperature measurement using FIR. Overall, Gd2Ti2O7: Sm3+, Tm3+ phosphors showed promising application prospects.
CERAMICS INTERNATIONAL
(2022)
Article
Optics
Zhiyuan Zhang, Qingyu Meng, Lin Bai, Wenjun Sun
Summary: Y2Ti2O7: x% Pr3+, 5% Tb3+ phosphors were synthesized by hydrothermal method, and it was found that they exhibit different luminescent characteristics at different temperatures, making them suitable for temperature sensing applications. Among them, Y2Ti2O7: 1% Pr3+, 5% Tb3+ sample showed higher relative sensitivity and better stability within the range of human body temperature. Additionally, this sample also demonstrated excellent repeatability in FIR temperature measurements.
JOURNAL OF LUMINESCENCE
(2022)
Article
Materials Science, Ceramics
Jiahong Kang, Jingxiao Liu, Fei Shi, Yutong Dong, Shuwen Jiang
Summary: In this study, Zn-doped VO2 nanoparticles were successfully fabricated using a two-step hydrothermal annealing process, and the thermally induced visible light transmittance enhancement of Zn-doped VO2 was studied for the first time. The results showed that Zn-doped VO2 not only exhibited excellent solar modulation ability, but also had the capability to reduce phase transition temperature and increase visible light transmittance after heat-induced phase transition, with good durability. The research findings are significant for improving visible light transmittance after phase transition and realizing practical applications of VO2 in smart windows.
CERAMICS INTERNATIONAL
(2021)
Article
Chemistry, Physical
Jaspal Singh, R. K. Soni, Jeongyong Kim
Summary: Surfactant-free In(2)S(3) nanoflowers were prepared by the thermal assembly of two-dimensional In2S3 nanosheets, leading to a substantial enhancement of optical absorption and tunable bandgap narrowing, thus improving the photocatalytic performance.
JOURNAL OF ALLOYS AND COMPOUNDS
(2022)
Review
Polymer Science
Edy Subroto, Mahani, Rossi Indiarto, Vira Putri Yarlina, Afifah Nurul Izzati
Summary: This review discusses the hydrothermal modifications of starch and flour and their effects on five parameters. In general, physical modification can improve functional properties, increase crystallinity, and gelatinization temperature, but sometimes may have the opposite effect.
Article
Nanoscience & Nanotechnology
Hyun-Joo Woo, Seock-Jin Chung, Meghan L. Hill, Kay Hadrick, Taeho Kim
Summary: Europium ion-activated calcium silicate phosphors (Ca2SiO4:Eu3+) with sharp red-light emission were synthesized by the hydrothermal method. The particle size of Ca2SiO4:Eu3+ phosphors was controlled between 20 and 200 nm by adjusting the precursor silicate particle sizes. The luminescence intensity and emission wavelength of the phosphors were found to depend on their particle sizes, with the 20 nm-sized Ca2SiO4:Eu3+ phosphor exhibiting the most intense red emission, high color purity, and high PL quantum yield. The suitability of the obtained phosphor as a red component for solid-state lighting and its potential as bio-imaging probes were also investigated.
ACS APPLIED NANO MATERIALS
(2023)
Article
Energy & Fuels
Jun Li, Shibo Kuang, Zheng Qi, Pingli Liu, Aibing Yu
Summary: A vertical fracture model with fluid leak-off was established and experiments showed that severe leak-off could result in large empty areas inside the fracture, suggesting an alternating proppant injection mode to mitigate the adverse effects.
JOURNAL OF NATURAL GAS SCIENCE AND ENGINEERING
(2022)
Article
Engineering, Chemical
Rezwana Rahman, Haiping Zhu, Aibing Yu
Summary: This paper presents a numerical study on the gas-solid flow in a rotating drum to investigate the influence of specularity coefficient and restitution coefficient on the hydrodynamic behavior of particles during the segregation process. The results reveal that the boundary condition and restitution coefficient have significant effects on the hydrodynamics of the particles, with an increase in specularity coefficient leading to increased depth of the active region, angle of repose, granular pressure, and granular temperature. With an increasing restitution coefficient, the angle of repose decreases while the granular pressure and temperature increase at the same volume fraction for both small and large particles.
Article
Energy & Fuels
Jun Wang, Jiangting Wang, Guisheng Zhu, Huarui Xu, Xiuyun Zhang, Yunyun Zhao, Jian Zhang, Kunpeng Jiang, Aibing Yu
Summary: The foam-structured NiCo2S4 (FSNCS) material was successfully synthesized with the addition of SiO2 nanospheres as the framework, leading to reduced dead volume. The FSNCS exhibited high capacity and energy density in the supercapacitor, along with good cyclic life.
JOURNAL OF ENERGY STORAGE
(2022)
Article
Engineering, Chemical
Erlei Li, Zongyan Zhou, Lin Wang, Qijun Zheng, Ruiping Zou, Aibing Yu
Summary: This study investigated the multi-physics interactions between scanning tracks in laser powder bed fusion (LPBF) using a CFD-based model. The results showed that the flow at the head of the first track gradually changed due to the intense centrifugal motion of the second track, causing the combined tracks to spread. The voids between adjacent tracks were compressed by the molten liquid and sealed by the resolidified part, resulting in large pores, especially for medium laser power and hatch space. The liquid phase overlap of unidirectional track was narrower compared to bidirectional scanning. Under the island scanning strategy, the flow direction of the molten liquid changed multiple times and pores tended to be eliminated. This study contributes to a better understanding of the physics involved in the LPBF process.
Review
Engineering, Chemical
Erlei Li, Zongyan Zhou, Lin Wang, Ruiping Zou, Aibing Yu
Summary: This paper provides a review of the multi-physics problems involved in laser powder bed fusion (LPBF), including metal powder recoating, melting and solidification processes. The applications of discrete element method and computational fluid dynamics in studying these processes are discussed.
Article
Engineering, Chemical
Yaoyu Li, Yang You, Dazhao Gou, Aibing Yu, Runyu Yang
Summary: This paper presents a scale-up model based on the discrete element method simulation to predict the performance of tumbling ball mills. The model successfully predicts particle breakage based on the relationship between breakage energy and particle mechanical properties. The model also accurately predicts power draw and grinding rate.
Article
Engineering, Chemical
Jun He, Minshu Zhan, Baoyu Guo, Lihua Liu, Aibing Yu
Summary: The study numerically investigates the impact of different operational conditions at the inlets of OVD on SiO2 deposition efficiency and quality. Results show that adjusting the flow rate of SiCl4/O2 and the type of carrier gas can effectively alter the deposition efficiency and quality of SiO2 particles.
Article
Engineering, Chemical
Jieqing Gan, Zongyan Zhou, Aibing Yu, Dean Ellis, Reece Attwood, Wei Chen
Summary: Multibody dynamics (MBD) simulation is a useful tool for analyzing the kinematic function of multibody systems, while discrete element method (DEM) is commonly used for simulating particle flows and overall processes. Combining MBD and DEM methods through functional mock-up interface (FMI) co-simulation can predict equipment performance by considering both material and equipment behavior. This study utilized Dymola software to perform MBD and FMI co-simulations, developing MBD models for a hydraulic excavator system and GPU-based DEM models for excavator digging cycles. The results demonstrated the significant impact of solid materials on excavator movement.
Article
Engineering, Chemical
Lingling Liu, Shibo Kuang, Baoyu Guo, Aibing Yu
Summary: Optimization of ironmaking blast furnaces involves considering bottom and top operations. A recently developed integrated BF model and numerical orthogonal experiments are used to predict BF performance indicators and conduct multi-objective optimization and operatable zone identification.
CHEMIE INGENIEUR TECHNIK
(2023)
Article
Energy & Fuels
Lingling Liu, Shibo Kuang, Baoyu Guo, Aibing Yu
Summary: Oxygen blast furnace (OBF) is a low carbon ironmaking technology that suffers from high gas flame temperature. Injecting COREX off-gas (CROG) into the industrial BF can improve coal combustion and overall performance. The optimum injection rate of CROG helps achieve better fuel economy by enhancing indirect reduction and coke combustion.
Article
Engineering, Chemical
E. Dianyu, Haihan Fan, Zhongfang Su, Guangtai Xu, Ruiping Zou, Aibing Yu, Shibo Kuang
Summary: This paper proposes a hydrocyclone with a tapered inlet design to reduce the influence of particles misplacement. The new hydrocyclone integrates the advantages of both spiral inlet and tangential inlet. Through the analysis of separation performance, flow characteristics, and volume fraction distributions, an optimum design is identified. Compared to a standard hydrocyclone, the new design significantly improves tangential velocities, expands the locus of zero vertical velocity, and achieves more stable air core, symmetric radial and axial velocity distributions, as well as reduced eddy flow and short-circuit flow. This study offers a new perspective for improving hydrocyclone flows and performance.
Article
Chemistry, Multidisciplinary
Yang Zhang, Danjiao Zhao, Lei Cao, Lanlan Fan, Aiping Lin, Shufen Wang, Feng Gu, Aibing Yu
Summary: Flexible strain sensors are crucial for public healthcare as they can noninvasively monitor vital health signals. In this study, we developed structurally integrated 3D conductive networks-based flexible strain sensors using a droplet-based aerosol jet printing process and a transfer process. The sensors showed enhanced conduction and mechanical properties during stretching, and demonstrated effective responses to human movements such as finger bending and arm bending. Our findings highlight the potential of droplet-based aerosol jet printing for advanced flexible devices in optoelectronics and wearable electronics applications.
Article
Engineering, Chemical
Yifan Qin, Xiao Dong Chen, Aibing Yu, Jie Xiao
Summary: Mathematical modeling of mass transfer and absorption in the small intestine is challenging and requires a reliable and computationally efficient predictive model. This study derives an absorption model that considers the 3D intestinal inner wall structure and can be used in a 1D distributed model. Computational fluid dynamics simulations are used to quantify the mass-transfer coefficient. The model provides insights into the influence of intestinal morphology and motility on mass transfer and absorption.
Article
Energy & Fuels
E. Dianyu, Peng Zhou, Langyong Ji, Jiaxin Cui, Qiang Xu, Liejin Guo, Aibing Yu
Summary: In this study, a validated CFD-DEM model is used to investigate the dynamics, microstructure, and thermochemical behaviors in the raceway of a blast furnace with hydrogen injection operations. The effects of hydrogen injection concentration on raceway size, gas temperature, and components are studied.
Article
Pharmacology & Pharmacy
Hao Miao, Ke Huang, Yingwen Li, Renjie Li, Xudong Zhou, Jingyu Shi, Zhenbo Tong, Zhenhua Sun, Aibing Yu
Summary: In this study, the LNP formulation, atomization methods, and buffer system were optimized to maintain stability and efficiency of mRNA encapsulated LNPs during the atomization process. A suitable LNP formulation for atomization, AX4, DSPC, cholesterol, and DMG-PEG2K at a 35/16/46.5/2.5 (%) molar ratio, was identified based on in vitro experiments. Soft mist inhaler (SMI) was found to be the most suitable method for pulmonary delivery of mRNA encapsulated LNPs. The physico-chemical properties of the LNPs, such as size and entrapment efficiency, were further improved by adjusting the buffer system with trehalose. In vivo fluorescence imaging of mice demonstrated the potential of SMI with proper LNPs design and buffer system for inhaled mRNA-LNP therapies.
INTERNATIONAL JOURNAL OF PHARMACEUTICS
(2023)
Article
Materials Science, Multidisciplinary
Deyong Zheng, Huihui Jin, Yucong Liao, Pengxia Ji
Summary: In this study, a highly stable and efficient catalyst, fluorine-doped Co3O4 (F-Co3O4), was developed for hydrogen production by water electrolysis. The F-Co3O4 catalyst exhibited a remarkable reduction in overpotential and demonstrated excellent stability for over 100 hours.
Article
Materials Science, Multidisciplinary
Ziwen Lv, Jintao Wang, Fengyi Wang, Jianqiang Wang, Fuquan Li, Hongtao Chen
Summary: Adding Cu6Sn5 nano particles can effectively inhibit the overgrowth of intermetallic compounds at the interfaces of solder joints in electronic devices, providing a solution to this issue. A new growth mechanism of intermetallic compounds at the interfaces was identified.
Article
Materials Science, Multidisciplinary
Jun Wang, Jiawei Chen, Wanru Liao, Fangyang Liu, Min Liu, Liangxing Jiang
Summary: A BiOI/AgI/Ag plasmonic heterostructure photocathode was successfully designed through electrodeposition, ion-exchange, and illumination methods. This photocathode exhibits superior performance in photoelectrochemical water splitting.
Article
Materials Science, Multidisciplinary
Xiaoxiao Liu, Xianxian Zhou, Xiaotao Ma, Qinbo Yuan, Shibin Liu
Summary: In this study, the authors propose a method to accelerate the reaction of polysulfides in lithium-sulfur batteries using a Ni@OC Mott-Schottky heterojunction as a catalyst. The experimental results demonstrate that the charge redistribution at the Ni@OC interface accelerates electron transfer and enhances catalytic activity, leading to improved reaction kinetics and battery performance.
Article
Materials Science, Multidisciplinary
Dayou Ma, Mohammad Rezasefat, Joziel Aparecido da Cruz, Sandro Campos Amico, Marco Giglio, Andrea Manes
Summary: The matrix has a significant effect on the impact resistance of composite materials. Replacing a brittle polymer with a more flexible one can improve impact resistance, but it poses challenges to standard testing methods. This study designs a new fixture for testing the low-velocity impact of soft composites and investigates the effect of the fixture on the mechanical performance.
Article
Materials Science, Multidisciplinary
Lingchang Wang, Qihang Yang, Huzhen Li, Ming Wei, Qian Wang, Zhenzhong Hu, Mengmeng Zhen
Summary: Bronze titanium dioxide (TiO2(B)) is a promising anode material for lithium-ion batteries due to its high specific capacity. However, its practical applications are hindered by poor conductivity and limited electrochemical kinetics. In this study, TiO2(B)-carbon nanosheets heterostructures are synthesized to enhance the cycling performance and rate capability of TiO2(B).
Article
Materials Science, Multidisciplinary
Atul Thakur, Ritesh Verma, Ankush Chauhan, Fayu Wan, Preeti Thakur
Summary: In this study, BaFe12O19 and BaFe12O19: Epoxy (50:50) nanocomposites were synthesized using the co-precipitation method. The structural information and material properties, such as crystallite size and electrical conductivity, were characterized by XRD, FESEM, EDX, and TEM techniques.
Article
Materials Science, Multidisciplinary
Jingyu Wu, Xinyan Ma, Yong Yang
Summary: A well-defined CoS2@NC(CS-500) hierarchical binder-free catalyst cathode is constructed through in-situ grown of ZIF-67 on carbon cloth and high-temperature carbonization. The cathode shows excellent reaction kinetics and electrochemical performance, providing inspiration for developing advanced Li-CO2 battery catalysts.
Article
Materials Science, Multidisciplinary
Svetlana M. Posokhova, Vladimir A. Morozov, Kirill N. Boldyrev, Dina Deyneko, Erzhena T. Pavlova, Bogdan I. Lazoryak
Summary: This study explores the impact of synthesis method and composition on the structure and luminescence properties of K5Eu1-xHox(MoO4)4 with the palmierite-type matrix. The co-doping of Eu3+ and Ho3+ ions plays a critical role in manipulating charge transfer and luminescence efficiency in the visible and infrared regions.
Article
Materials Science, Multidisciplinary
Jian Wang, Yeting Tao, Jingsheng Wang, Youtian Tao
Summary: A new electron-transport material iTPyBI-CN is developed through non-catalytic C-N coupling reaction. It exhibits better electroluminescence efficiency in organic light-emitting diodes compared to the commercial material TPBI, due to its twisted geometry and higher energy levels.
Article
Materials Science, Multidisciplinary
Tao Zhu, Feng Huang, Shuo Li, Yang Zhou
Summary: This article combines XRD analysis and microscopic structural observation to investigate the changes in limestone after high-temperature treatment. It finds that 500 degrees C is the critical temperature for crystalline and spatial arrangement changes in limestone, and the thermal conductivity, specific heat capacity, and heat storage coefficient gradually decrease after thermal treatment.
Article
Materials Science, Multidisciplinary
Muhammad Haekal Habibie, Fransiska Sri Herwahyu Krismastuti, Abdi Wira Septama, Faiza Maryani, Vivi Fauzia
Summary: This study focuses on the synthesis of zinc oxide nanostructure from zinc recovered from galvanization ash and highlights its potential as a sustainable source of zinc and as an antibacterial agent.
Article
Materials Science, Multidisciplinary
Jingyi Li, Yixin Xing, Wei Gu, Shousi Lu
Summary: In this study, PC@CaP microparticles were fabricated using biomimetic mineralization. The results showed that under environmental stress, PC@CaP exhibited improved stability and antioxidative activity, indicating its potential use in high-added value fields.
Article
Materials Science, Multidisciplinary
Yan Liu, Shunyou Chen
Summary: In this study, TNTs were used as a drug carrier and modified with ZIF-8 and silk fibroin to obtain a new drug loading platform. The results showed that this drug-loaded platform had a good drug release effect in vitro and could promote cell proliferation and osteogenic differentiation.
Article
Materials Science, Multidisciplinary
Chunhui Zhu, Wentao Wang, Qing Zhen, Xinning Huang, Shixin Li, Shaochang Wang, Xiaoping Ma, Xiaoxia Liu, Yalong Jiao, Kai Sun, Zhuangzhi Li, Huaixin Yang, Jianqi Li
Summary: A type of stacking fault is revealed in e-InSe crystal, which is associated with a small stacking-fault energy and shows exceptional plasticity.
