Article
Materials Science, Ceramics
Esra Bilgin Simsek
Summary: In this study, titanate-based perovskite CaTiO3 nanosheets were successfully designed using boron nitride quantum dots (BNQDs) to create a CaTiO3/BNQDs catalyst. The as-fabricated composite catalysts were characterized using various techniques, and it was found that CaTiO3/BNQDs catalyst exhibited enhanced photocatalytic efficiency and stability, making it a promising material for degrading antibiotics in contaminated water.
CERAMICS INTERNATIONAL
(2022)
Article
Engineering, Chemical
Shiqing Ma, Chundong Peng, Zeyu Jia, Yanmei Feng, Kai Chen, Hao Ding, Daimei Chen, Zhong-Yong Yuan
Summary: In recent years, organic photocatalyst under visible-light absorption has shown significant potential for solving environmental problems. However, constructing a highly active organic photocatalyst is still a challenge due to the low separation efficiency of photogenerated carriers. In this study, an effective and robust photocatalyst composed of perylene-3,4,9,10-tetracarboxylic diamide/boron nitride quantum dots (PDI/BNQDs) has been developed and researched. The addition of BNQDs enhances the photodegradation performance of organic pollutants, with a maximum enhancement of 6.16 times for methylene blue and 1.68 times for ciprofloxacin compared to pure PDI supramolecular. This work is significant for expanding the potential of organic semiconductors in photocatalysis.
FRONTIERS OF CHEMICAL SCIENCE AND ENGINEERING
(2023)
Article
Engineering, Environmental
Ozlem Tuna, Zeynep Balta, Esra Bilgin Simsek
Summary: This study improves the photocatalytic activity of ferrite titanate catalyst in wastewater treatment by quantum-size engineering. The incorporation of metal-free boron nitride quantum dots and nitrogen-doped carbon quantum dots enhances visible light absorption and charge transfer rate, leading to significant improvement in antibiotic degradation efficiency.
CHEMICAL ENGINEERING JOURNAL
(2023)
Article
Chemistry, Analytical
Jie Zhao, Chuan-Xiang Chen, Jia-Wan Zhu, Hui-Long Zong, Yong-Hong Hu, Yin-Zhu Wang
Summary: A new ECL platform was constructed for detecting the prostate cancer marker miRNA-141, providing a potential method for the detection of low-concentration nucleic acids with high sensitivity and a wide linear range.
ANALYTICAL CHEMISTRY
(2022)
Article
Chemistry, Analytical
Mohammad Ali Kamyabi, Mohsen Moharramnezhad
Summary: In this project, a novel electrochemiluminescence probe based on a ternary nanocomposite was developed for the accurate monitoring of diazinon, a popular pesticide. The probe showed a broad linear dynamic range and low limit of detection, making it suitable for quantitative analysis of diazinon in real samples.
MICROCHEMICAL JOURNAL
(2022)
Article
Engineering, Environmental
Qiuting Zhang, Yanrong Peng, Yan Lin, Shaohua Wu, Xiaochao Yu, Chunping Yang
Summary: The study successfully enhanced the efficiency of photocatalytic degradation of antibiotics by synthesizing metal-free boron nitride quantum dots modified bisphenol S-doped g-C3N4 nanosheets.
CHEMICAL ENGINEERING JOURNAL
(2021)
Article
Engineering, Environmental
Yanfang Zhao, Rabah Boukherroub, Lu Liu, Huizhi Li, Ru-Song Zhao, Qin Wei, Xiang Yu, Xiangfeng Chen
Summary: This study demonstrates the effective utilization of boron nitride quantum dots as an inorganic matrix in MALDI-MS & MSI for BPA analysis. The method allows non-destructive and in situ mapping of BPA in environmental water and plastic products, and detects BPA at nanomolar level.
JOURNAL OF HAZARDOUS MATERIALS
(2023)
Article
Engineering, Environmental
Jing Teng, Xi Qin, Wenyao Guo, Xuelin Song, Shuning Xiao, Yulin Min, Qunjie Xu, Jinchen Fan
Summary: This study combines boron nitride quantum dots (BN QDs) with cobalt phosphide (CoP) nanosheets to enhance the electrocatalytic performance of nitrogen reduction reaction (NRR). The BN QDs@CoP/CC catalyst exhibits a high NH3 yield rate and faradaic efficiency in the Na2SO4 electrolyte. The combination of BN QDs and CoP effectively inhibits competitive processes and provides good durability.
CHEMICAL ENGINEERING JOURNAL
(2022)
Article
Engineering, Environmental
Zeynep Balta, Esra Bilgin Simsek
Summary: In this study, metal-free boron nitride quantum dots were incorporated into the perovskite structure, forming a BFO@BNQDs heterojunction catalyst with enhanced catalytic activity in photo-Fenton degradation of tetracycline hydrochloride. The modified perovskite structure facilitated rapid charge transport, leading to improved catalytic efficiency. The catalyst showed good durability and potential practical applications, especially in sea water conditions.
JOURNAL OF ENVIRONMENTAL CHEMICAL ENGINEERING
(2021)
Article
Chemistry, Multidisciplinary
Yamei Ding, Ping He, Shaohan Li, Bo Chang, Shengli Zhang, Zhehan Wang, Jiayi Chen, Jin Yu, Sanxie Wu, Haibo Zeng, Li Tao
Summary: The research has successfully achieved full-color emission from hexagonal boron nitride quantum dots by doping different amino ligands in different solvents, with the quantum yield reaching a record high of 32.27%.
Article
Engineering, Chemical
Yuliang Wu, Xiaoyu Jin, Haijin Liu, Wenying Lv, Guoguang Liu
Summary: In this study, a BNQDs-decorated reduced ultrathin g-C3N4 composite was successfully prepared to enhance the photocatalytic performance. The composite exhibited higher carrier density and photocurrent density under light exposure, effectively removing organic molecules in water and displaying strong free radical generation capacity.
SEPARATION AND PURIFICATION TECHNOLOGY
(2022)
Article
Engineering, Environmental
Daguang Li, Yang Liu, Chenghui Wen, Jiaxing Huang, Ruobai Li, Haijin Liu, Jiapeng Zhong, Ping Chen, Wenying Lv, Guoguang Liu
Summary: A novel P-doped g-C3N4 photocatalyst modified by boron nitride quantum dots (BNQDs) was successfully prepared in this study, and experimental results demonstrated that the introduction of P atoms and BNQDs promoted the dissociation of excitons and the migration of photogenerated carriers. The BQPN photocatalyst showed improved performance in degrading drugs under visible light irradiation.
JOURNAL OF HAZARDOUS MATERIALS
(2022)
Article
Physics, Applied
Elif Ozceri, Nahit Polat, Sinan Balci, Enver Tarhan
Summary: This study reports localized, stable, and bright room temperature photoluminescence (PL) emission from defects in WO3, showing single photon characteristics. The PL emission from the localized defect centers in WO3 at room temperature has been further enhanced more than 20 times by using plasmonic gold nanoparticles.
APPLIED PHYSICS LETTERS
(2021)
Article
Chemistry, Physical
Mengmeng Yu, Yaobin Xu, Jing Lin, Chao Yu, Yi Fang, Zhenya Liu, Zhonglu Guo, Chengchun Tang, Yang Huang
Summary: By encapsulating CsPbBr3 (CPB) quantum dots (QDs) within two-dimensional flexible BN nanosheets (BNNS) via compression packing, the stability of CPB QDs can be significantly improved, thus expanding their applications in optoelectronics.
APPLIED SURFACE SCIENCE
(2023)
Article
Materials Science, Multidisciplinary
Ke Chu, Xingchuan Li, Ye Tian, Qingqing Li, Yali Guo
Summary: Researchers have discovered that the BN quantum dots/Ti3C2Tx-MXene heterostructure is an efficient and durable NRR catalyst, capable of producing high NH3 yield and selectivity.
ENERGY & ENVIRONMENTAL MATERIALS
(2022)
Article
Electrochemistry
Ching Thian Moi, Sourav Bhowmick, Tushar Kanta Sahu, Mohammad Qureshi
Summary: The study introduces a low-cost, efficient and stable electrocatalyst for the oxygen evolution reaction (OER) by vanadium doping and co-modification of alpha-Fe2O3 with NiFe LDH. This electrocatalyst shows superior performance compared to benchmark RuO2, with enhanced carrier density and surface active sites. The alpha-Fe2O3:V-NiFe LDH composite exhibits a five-fold increase in electrochemically active surface area (ECSA) and impressive durability, making it a promising heterogeneous catalyst for efficient OER.
ELECTROCHIMICA ACTA
(2021)
Article
Chemistry, Multidisciplinary
Suhaib Alam, Tushar Kanta Sahu, Mohammad Qureshi
Summary: A noble metal-free one-dimensional Co(OH)F and hierarchical BiVO4 combination is proposed as an efficient photoelectrochemical catalyst, demonstrating enhanced efficiency in photocurrent generation for water oxidation.
ACS SUSTAINABLE CHEMISTRY & ENGINEERING
(2021)
Article
Nanoscience & Nanotechnology
Devipriya Gogoi, Adit Kumar Shah, Ponnala Rambabu, Mohammad Qureshi, Animes Kumar Golder, Nageswara Rao Peela
Summary: The spatial separation and transport of photo-generated charge carriers are crucial for the efficiency of a photocatalyst for solar energy conversion. In this study, a step-scheme CdS/MnOx-BiVO4 photocatalyst was synthesized and showed excellent photocatalytic activity for overall water-splitting reaction under visible light irradiation without sacrificial reagents. The presence of oxygen vacancies, effective charge separation/transfer properties, and strong interaction of cocatalysts with the photocatalysts in the heterojunction contributed to the high photoactivity.
ACS APPLIED MATERIALS & INTERFACES
(2021)
Article
Chemistry, Physical
Devipriya Gogoi, Adit Kumar Shah, Mohammad Qureshi, Animes Kumar Golder, Nageswara Rao Peela
Summary: In this study, ternary Ag-grafted gC3N4-gC3N4 heterostructures were successfully synthesized to achieve higher H2 production rates. The addition of Ag enhanced the localized surface plasmon resonance effect, broadening visible light absorption, and contributed to electron capture due to a high Schottky barrier, leading to improved photocatalytic activity.
APPLIED SURFACE SCIENCE
(2021)
Article
Chemistry, Physical
Suhaib Alam, Mohammad Qureshi
Summary: The designed BiVO4/GQDs/CoSn-LDH photoanode, with bridged graphene quantum dots (GQDs) forming a p-n heterojunction, demonstrates enhanced photoelectrochemical (PEC) performance with a maximum photocurrent density of 4.15 mA/cm(2) and a faradaic yield of approximately 91%. The introduction of GQDs provides a continuous conducting network to extract holes from the BiVO4 surface and efficiently inject into the CoSn-LDH surface for the water oxidation reaction.
JOURNAL OF PHYSICAL CHEMISTRY LETTERS
(2021)
Article
Chemistry, Physical
Adit Kumar Shah, Mohammad Qureshi
Summary: This study presents a green and simple method to synthesize surfactant-free cuboidal MnCo2O4 directly onto the substrate. The resulting C-MCO shows stable ohmic contact with the substrate, allowing efficient charge transfer at their interface. Coupling with hexagonal boron nitride (h-BN) nanosheets provides a surface for easy deposition of the co-catalyst, leading to enhanced oxygen evolution reaction (OER) activity. The surface-modified C-MCO/h-BN electrode exhibits good catalytic performance, long-term stability, and potential for large-scale clean energy production.
ACS APPLIED ENERGY MATERIALS
(2022)
Article
Nanoscience & Nanotechnology
Ching Thian Moi, Alpana Sahu, Mohammad Qureshi
Summary: Rationally designing a multimetallic electrocatalyst FeVO(OH)/Ni0.86Mo0.07W0.07(OH)(2) with tunable electronic structure significantly improves the kinetics of water-splitting reactions. The introduction of high-valency Mo and W creates a viable path for π-electron donation, optimizing bond lengths and facilitating water splitting. The hybrid catalyst FeVO(OH)/NiMoW(OH)(2) shows intrinsic activity and durability for OER and HER under specific conditions.
ACS APPLIED MATERIALS & INTERFACES
(2023)
Article
Nanoscience & Nanotechnology
Sourav Bhowmick, Mohammad Qureshi
Summary: In this study, a high-performance bipolar membrane (BPM) was fabricated using functionalized polysulfones as the ion-exchange layers (IELs) and 2D V2O5-nanosheets blended with polyvinyl alcohol (PVA) as the water dissociation catalyst (WDC) at the interfacial layer. The composite BPM exhibited low resistance and high water dissociation performance, which was attributed to the good contact between the IEL and WDC, increased hydrophilicity of the polymer, and the effective WDC provided by the 2D V2O5-ns blended with PVA.
ACS APPLIED MATERIALS & INTERFACES
(2023)
Article
Chemistry, Multidisciplinary
Manoj Kumar Mohanta, Mohammad Qureshi
Summary: In this study, a complimentary surface-charged nanosized 0D-0D hybrid of phosphorous nitride dots (PNDs) and borophene dots (BDs) with favorable band alignments is proposed for a type-II heterojunction. The hybrid model allows rapid carrier separation and resistance to carrier recombination, leading to enhanced PEC water oxidation.
CHEMICAL COMMUNICATIONS
(2023)
Article
Chemistry, Multidisciplinary
Alpana Sahu, Peeyush Pandey, Sourav Bhowmick, Mohammad Qureshi
Summary: The ability of spectator metal ions such as vanadium to enhance the electrochemical performance of supercapacitors has been explained. Vanadium-incorporated CoO(OH) combined with NiMn-layered double hydroxide (LDH) yields a specific capacitance of 1700 F g(-1) at 1 A g(-1) with 96% retention after 5000 cycles. The assembled asymmetric supercapacitor exhibits an energy density of 45.93 W h kg(-1) and a power density of 752 W kg(-1)@1 A g(-1).
CHEMICAL COMMUNICATIONS
(2023)
Article
Nanoscience & Nanotechnology
Peeyush Pandey, Sourav Bhowmick, Mohammad Qureshi
Summary: This article investigates the interaction between capacitive and ion diffusion behaviors in a supercapacitor by studying the effect of an external magnetic field on nickel cobalt copper carbonate hydroxide. The results show that the magnetic field enhances the ferromagnetic coupling between metal-oxygen-metal centers, leading to improved charge-discharge characteristics of the supercapacitor. Furthermore, doping the metal carbonate hydroxide crystal lattice with non-magnetic Al3+ ion can further control the electrode's charge-discharge behavior, increasing its capacitive contribution at the expense of energy density.
ACS APPLIED MATERIALS & INTERFACES
(2023)
Article
Chemistry, Multidisciplinary
Nitul Kalita, Alpana Sahu, Sourav Bhowmick, Mohammad Qureshi
Summary: A two-step electrodeposition of CoMn2O4 and its chemical analogue CoMn(OH)(x) directly over Ni-foam yields an excellent water oxidation performance with reduced overpotential and enhanced turnover frequency, which is attributed to synchronized redox pairs and superior carrier transport.
CHEMICAL COMMUNICATIONS
(2022)
Article
Chemistry, Physical
Bishal Das, Laxmi Prasad Rao Pala, Manoj Kumar Mohanta, Meghali Devi, Debarati Chakraborty, Nageswara Rao Peela, Mohammad Qureshi, Siddhartha Sankar Dhar
Summary: The metal complex of copper tetraphenylporphyrin tetrasulfonic acid (Cu-Por) is bonded to graphitic carbon nitride (GCN) sheets through electrostatic interactions. The incorporation of a photosensitizer greatly enhances light absorption and suppresses recombination of charge carriers. The resulting catalyst shows high hydrogen evolution and effective reduction of toxic chromium compounds.
JOURNAL OF MATERIALS CHEMISTRY A
(2022)
Article
Chemistry, Physical
Sourav Bhowmick, Manoj Kumar Mohanta, Mohammad Qureshi
Summary: In this study, a transcription methodology was used to control the morphology of complex metal oxides, leading to improved electrochemical performance of LSMO. The diffusion-controlled solid-state route allowed for the transfer of desired morphologies of MnxOy into LSMO, resulting in a nearly 4-fold increase in overall OER performance. This approach offers a unique and efficient way to synthesize highly active OER catalysts from high temperature-synthesized complex metal oxides, with potential applications in various systems.
SUSTAINABLE ENERGY & FUELS
(2021)
Article
Chemistry, Multidisciplinary
Adit Kumar Shah, Sourav Bhowmick, Devipriya Gogoi, Nageswara Rao Peela, Mohammad Qureshi
Summary: The study presents a unique hollow-cuboidal MnCo2O4 morphology that shows insights into efficient charge-transfer and surface kinetics for the oxygen evolution reaction. When combined with nickel phosphate under alkaline conditions, this new morphology outperforms the benchmark RuO2.
CHEMICAL COMMUNICATIONS
(2021)
Article
Chemistry, Physical
Tianyu Chen, Zhibin Lu, Guangjin Zeng, Yongmin Xie, Jie Xiao, Zhifeng Xu
Summary: The study introduces a high-performance LSGM electrolyte-supported tubular DC-SOFC stack for portable applications, which shows great potential in developing into high-performing, efficient, and environmentally friendly portable power sources for distributed applications.
JOURNAL OF POWER SOURCES
(2024)
Article
Chemistry, Physical
Wenbin Tong, Yili Chen, Shijie Gong, Shaokun Zhu, Jie Tian, Jiaqian Qin, Wenyong Chen, Shuanghong Chen
Summary: In this study, a three-dimensional porous NiO interface layer with enhanced anode dynamics is fabricated, forming a Schottky contact with the zinc substrate, allowing rapid and uniform zinc plating both inside and below the interface layer. The resulting NiO@Zn exhibits exceptional stability and high capacity retention.
JOURNAL OF POWER SOURCES
(2024)
Article
Chemistry, Physical
Yafeng Bai, Kaidi Li, Liying Wang, Yang Gao, Xuesong Li, Xijia Yang, Wei Lu
Summary: In this study, a flexible zinc ion supercapacitor with gel electrolytes, porous alpha-MnO2@reduced graphene oxide cathode, and activated carbon/carbon cloth anode was developed. The device exhibits excellent electrochemical performance and stability, even at low temperatures, with a high cycle retention rate after 5000 cycles.
JOURNAL OF POWER SOURCES
(2024)
Article
Chemistry, Physical
Anmol Jnawali, Matt D. R. Kok, Francesco Iacoviello, Daniel J. L. Brett, Paul R. Shearing
Summary: This article presents the results of a systematic study on the electrochemical performance and mechanical changes in two types of commercial batteries with different anode chemistry. The study reveals that the swelling of anode layers in batteries with silicon-based components causes deformations in the jelly roll structure, but the presence of a small percentage of silicon does not significantly impact the cycling performance of the cells within the relevant state-of-health range for electric vehicles (EVs). The research suggests that there is room for improving the cell capacities by increasing the silicon loading in composite anodes to meet the increasing demands on EVs.
JOURNAL OF POWER SOURCES
(2024)
Article
Chemistry, Physical
Yohandys A. Zulueta, My Phuong Pham-Ho, Minh Tho Nguyen
Summary: Advanced atomistic simulations were used to study ion transport in the Na- and K-doped lithium disilicate Li2Si2O5. The results showed that Na and K doping significantly enhanced Li ion diffusion and conduction in the material.
JOURNAL OF POWER SOURCES
(2024)
Article
Chemistry, Physical
Zongying Han, Hui Dong, Yanru Yang, Hao Yu, Zhibin Yang
Summary: An efficient phase inversion-impregnation approach is developed to fabricate BaO-decorated Ni8 mol% YSZ anode-supported tubular solid oxide fuel cells (SOFCs) with anti-coking properties. BaO nanoislands are successfully introduced inside the Ni-YSZ anode, leading to higher peak power densities and improved stability in methane fuel. Density functional theory calculations suggest that the loading of BaO nanoislands facilitates carbon elimination by capturing and dissociating H2O molecules to generate OH.
JOURNAL OF POWER SOURCES
(2024)
Article
Chemistry, Physical
Suresh Mamidi, Dan Na, Baeksang Yoon, Henu Sharma, Anil D. Pathak, Kisor Kumar Sahu, Dae Young Lee, Cheul-Ro Lee, Inseok Seo
Summary: Li-CO2 batteries, which utilize CO2 and have a high energy density, are hindered in practical applications due to slow kinetics and safety hazards. This study introduces a stable and highly conductive ceramic-based solid electrolyte and a metal-organic framework catalyst to improve the safety and performance of Li-CO2 batteries. The optimized Li-CO2 cell shows outstanding specific capacity and cycle life, and the post-cycling analysis reveals the degradation mechanism of the electrodes. First-principles calculations based on density functional theory are also performed to understand the interactions between the catalyst and the host electrode. This research demonstrates the potential of MOF cathode catalyst for stable operation in Li-CO2 batteries.
JOURNAL OF POWER SOURCES
(2024)
Article
Chemistry, Physical
Ganghua Xiang, Zhihuan Qiu, Huilong Fei, Zhigang Liu, Shuangfeng Yin, Yuen Wu
Summary: In this study, a CeFeOx-supported Pt single atoms and subnanometric clusters catalyst was developed, which exhibits enhanced catalytic activity and stability for the preferential oxidation of CO in H2-rich stream through synergistic effect.
JOURNAL OF POWER SOURCES
(2024)
Article
Chemistry, Physical
Dimitrios Chatzogiannakis, Marcus Fehse, Maria Angeles Cabanero, Natalia Romano, Ashley Black, Damien Saurel, M. Rosa Palacin, Montse Casas-Cabanas
Summary: By coupling electrochemical testing to operando synchrotron based X-ray absorption and powder diffraction experiments, blended positive electrodes consisting of LiMn2O4 spinel (LMO) and layered LiNi0.5Mn0.3Co0.2O2 (NMC) were studied to understand their redox mechanism. It was found that blending NMC with LMO can enhance energy density at high rates, with the blend containing 25% LMO showing the best performance. Testing with a special electrochemical setup revealed that the effective current load on each blend component can vary significantly from the nominal rate and also changes with SoC. Operando studies allowed monitoring of the oxidation state evolution and changes in crystal structure, in line with the expected behavior of individual components considering their electrochemical current loads.
JOURNAL OF POWER SOURCES
(2024)
Article
Chemistry, Physical
Chiara Cementon, Daniel Dewar, Thrinathreddy Ramireddy, Michael Brennan, Alexey M. Glushenkov
Summary: This Perspective discusses the specific power and power density of lithium-ion capacitors, highlighting the fact that their power characteristics are often underestimated. Through analysis, it is found that lithium-ion capacitors can usually achieve power densities superior to electrochemical supercapacitors, making them excellent alternatives to supercapacitors.
JOURNAL OF POWER SOURCES
(2024)
Article
Chemistry, Physical
Weihao Wang, Hao Yu, Li Ma, Youquan Zhang, Yuejiao Chen, Libao Chen, Guichao Kuang, Liangjun Zhou, Weifeng Wei
Summary: This study achieved an improved electrolyte with excellent low-temperature and high-voltage performance by regulating the Li+ solvation structure and highly concentrating it. The electrolyte exhibited outstanding oxidation potential and high ionic conductivity under low temperature and high voltage conditions, providing a promising approach for the practical application of high-voltage LIBs.
JOURNAL OF POWER SOURCES
(2024)
Article
Chemistry, Physical
Martin Bures, Dan Gotz, Jiri Charvat, Milos Svoboda, Jaromir Pocedic, Juraj Kosek, Alexandr Zubov, Petr Mazur
Summary: Vanadium redox flow battery is a promising energy storage solution with long-term durability, non-flammability, and high overall efficiency. Researchers have developed a mathematical model to simulate the charge-discharge cycling of the battery, and found that hydraulic connection of electrolyte tanks is the most effective strategy to reduce capacity losses, achieving a 69% reduction.
JOURNAL OF POWER SOURCES
(2024)
Article
Chemistry, Physical
M. Rodriguez-Gomez, J. Campo, A. Orera, F. de La Fuente, J. Valenciano, H. Fricke, D. S. Hussey, Y. Chen, D. Yu, K. An, A. Larrea
Summary: In this study, we analysed the operando performance of industrial lead cells using neutron diffraction experiments. The experiments revealed the evolution of different phases in the positive electrode, showed significant inhomogeneity of phase distribution inside the electrode, and estimated the energy efficiency of the cells.
JOURNAL OF POWER SOURCES
(2024)
Article
Chemistry, Physical
Jiawei Liu, Chenpeng Wang, Yue Yao, Hao Ye, Yinglong Liu, Yingli Liu, Xiaoru Xu, Zhicong Chen, Huazheng Yang, Gang Wu, Libin Lei, Chao Wang, Bo Liang
Summary: The study focuses on utilizing double conductive Ni-pads as anode collectors in micro-tubular solid oxide fuel cells. The simulation results show excellent performance and stability of DCNPs, and also highlight the potential applications in various fields.
JOURNAL OF POWER SOURCES
(2024)
Article
Chemistry, Physical
Yang Wang, Kangjie Zhou, Lang Cui, Jiabing Mei, Shengnan Li, Le Li, Wei Fan, Longsheng Zhang, Tianxi Liu
Summary: This study presents a polyimide sandwiched separator (s-PIF) for improving the cycling stability of Li-metal batteries. The s-PIF separator exhibits superior mechanical property, electrolyte adsorption/retention and ion conductivity, and enables dendrite-free Li plating/stripping process.
JOURNAL OF POWER SOURCES
(2024)