Article
Chemistry, Physical
Yixuan Wen, Shuaijun Ding, Chongchong Ma, Peng Jia, Wei Tu, Yunna Guo, Shuang Guo, Wei Zhou, Xiaoqian Zhang, Jianyu Huang, Liqiang Zhang, Tongde Shen, Yuqing Qia
Summary: A nanoscale Li-O-2 nanobattery was assembled in an aberration-corrected environmental transmission electron microscope (ETEM) to track the catalytic mechanism of silver (Ag) catalyst during the charge/discharge process. It was found that numerous Ag nanoparticles were observed on the surface of Ag nanowire, which acted as catalysts for subsequent reactions. By synthesizing Ag nanoparticles decorated on porous carbon, the cycling stability and maximum specific capacity of Li-O-2 battery were improved. This study suggests that nanoscale Ag may be a promising catalyst for Li-O-2 battery.
Article
Engineering, Environmental
Yingjie Zhan, Bingfei Nan, Yingchun Liu, Enxiang Jiao, Jun Shi, Mangeng Lu, Kun Wu
Summary: By utilizing nacre-inspired thought, a novel strategy was reported to fabricate a stable and tunable three-dimensional MXene thermal conductive cross-linking network framework with silica (SiO2) nanoparticles bridge, which significantly improves the thermal management capability of nanocomposite materials.
CHEMICAL ENGINEERING JOURNAL
(2021)
Article
Chemistry, Multidisciplinary
Kaige Liu, Yepeng Fan, Asad Ali, Pei Kang Shen
Summary: The flexible MXene-coated textile fabric electrode (MF@Ti3C2Tx/S) shows excellent performance in lithium-sulfur batteries, with high initial capacity and long-term cycling stability. The unique structure provides space for volume expansion and promotes the encapsulation of lithium polysulfides, indicating great potential for wearable and portable electronic devices.
Article
Chemistry, Physical
Aysenur Gencer, Sezgin Aydin, Ozge Surucu, Xiaotian Wang, Engin Deligoz, Gokhan Surucu
Summary: In this study, the hydrogen storage properties of Li-decorated Hf2CF2 MXene layer were investigated using first-principles calculations. The results show that the Li-decorated layer exhibits stable and convenient adsorption characteristics, making it a promising candidate for hydrogen storage applications.
APPLIED SURFACE SCIENCE
(2021)
Article
Chemistry, Physical
Shangyou Wu, Wei Wang, Jiongwei Shan, Xinying Wang, Dongzhen Lu, Junlu Zhu, Zhonggang Liu, Liguo Yue, Yunyong Li
Summary: In this study, a dual-conductive 1T-VS2 - MXene heterostructured electrocatalyst was developed as an efficient sulfur host, achieving high volumetric capacity for Li S batteries. The design of a dense sulfur cathode further improved the volumetric and areal capacities. Experimental and theoretical results revealed the superior performance and synergistic mechanism of the heterostructured catalyst.
ENERGY STORAGE MATERIALS
(2022)
Article
Chemistry, Physical
Zhaoyu Zhang, Yufei Zhang, Minghui Ye, Yongchao Tang, Xiaoqing Liu, Cheng Chao Li
Summary: SiOx/C composites with a Li+ conductive interphase show high capacity, excellent rate performance, and long cycling stability as an anode for lithium-ion batteries, surpassing pristine SiOx/C and other Si-based electrodes. The strategy of building ion conductive interphase has the potential to unlock the practical deployment of Si-based LIBs.
JOURNAL OF POWER SOURCES
(2022)
Article
Chemistry, Physical
Yusen He, Yan Zhao, Yongguang Zhang, Zongke He, Guihua Liu, Jingde Li, Chunyong Liang, Qiang Li
Summary: In this study, a porous carbon nanofiber with an oxygen-dominated Ti3C2 MXene nanosheet (O-Ti3C2@CNF) was designed and synthesized as an all-purpose interlayer for lithium-sulfur (Li-S) batteries. By controllable surface modifications and oxygen regulation, the O-Ti3C2@CNF exhibited strong physical/chemical affinity and fast reaction kinetics towards sulfur species. The interlayer enabled high-flux lithium diffusion and dendrite-free lithium anode. A practical, flexible Li-S pouch battery with excellent areal capacity was assembled using the symmetric interlayer design.
ENERGY STORAGE MATERIALS
(2022)
Article
Engineering, Environmental
Chengyi Lu, Meng Tian, Xiangjun Zheng, Chaohui Wei, Mark H. Rummeli, Peter Strasser, Ruizhi Yang
Summary: This study presents a newly designed Li composite anode with enhanced lithium affinity and in-situ Li3N decoration to address the challenges in Li metal batteries, including dendritic growth, volume change, and short lifespan. The composite anode shows improved kinetics of Li transport and redox, inhibited dendritic generation, and stable cycling performance for 1400 hours. The full cells using this anode exhibited impressive long-term cyclic stability up to 400 cycles at different current rates.
CHEMICAL ENGINEERING JOURNAL
(2022)
Article
Chemistry, Physical
Yixuan Wen, Shuaijun Ding, Chongchong Ma, Peng Jia, Wei Tu, Yunna Guo, Shuang Guo, Wei Zhou, Xiaoqian Zhang, Jianyu Huang, Liqiang Zhang, Tongde Shen, Yuqing Qiao
Summary: A nanoscale processing method was used to assemble a Li-O-2 nanobattery, where a single Ag nanowire was used as catalyst for O-2 electrode. The insertion process of lithium ions during electrochemical reactions was visualized. It was found that Ag nanoparticles on the surface of the Ag nanowire acted as catalyst during the charge/discharge reaction. Based on these findings, Ag nanoparticles decorated on porous carbon were synthesized and improved the cycling stability and the maximum specific capacity in a coin cell Li-O-2 battery.
Article
Chemistry, Physical
Qinghua Deng, Yong Yang, Wentian Zhao, Zheng Tang, Kai Yin, Youchao Song, Yiwei Zhang
Summary: By leveraging designed electronic oxide-metal interactions, cerium-supported copper demonstrates remarkable competitiveness in the carbon dioxide reduction reaction. However, the limited utilization efficiency of conventional cerium oxide support hampers the effectiveness of these interactions. Additionally, the influence of distinct crystalline surfaces of CeO2 on loaded copper species is not well understood.
JOURNAL OF COLLOID AND INTERFACE SCIENCE
(2023)
Article
Chemistry, Multidisciplinary
Xingzi Zheng, Mengwei Yuan, Xianqiang Huang, Huifeng Li, Genban Sun
Summary: This paper introduces a novel Li-O2 battery electrocatalyst, a surface-functionalized CoP/Ti3C2Tx composite. The composite exhibits optimized electronic structure and active electrons, which enhance the efficiency of electrochemical reactions. The accordion shaped Ti3C2Tx with large specific surface area and excellent electronic conductivity enables sufficient exposure of active sites and Li2O2 deposition. Transition metal phosphides provide more active catalytic sites and exhibit good electrocatalytic performance. As an electrocatalyst in Li-O2 battery, the CoP/Ti3C2Tx composite achieves high specific discharge capacity and low overpotential, outperforming CoP and Ti3C2Tx individually. The application of transition metal phosphides and MXene in Li-O2 battery not only demonstrates higher cycling stability of the prepared composite, but also points out the direction for improving their electrochemical performance.
CHINESE CHEMICAL LETTERS
(2023)
Article
Chemistry, Physical
Ran Liu, Shengjun Zhai, Zimujun Ye, Mengzhu Liu, Yang Xu, Changwen Li, Xianbao Wang, Tao Mei
Summary: Constructing a hierarchical 3D conductive network structure as the sulfur host is an effective way to mitigate the polysulfide shuttle and accelerate the reaction kinetics in lithium-sulfur batteries (LSBs). In this study, 3D hollow Ti3C2 MXene spheres with in situ grown 1D carbon nanotubes (CNTs) were synthesized. The hollow Ti3C2 spheres provide more active sites and prevent self-stacking, while the 1D CNTs form an interconnected conductive network. The synergistic effect enhances the adsorption and catalytic conversion of polysulfides, and facilitates rapid ion diffusion and electron transfer. The Ti3C2@N-CNTs-based LSBs exhibit satisfactory initial discharge capacity and cycling performance.
JOURNAL OF MATERIALS CHEMISTRY A
(2023)
Article
Chemistry, Multidisciplinary
Lu Cheng, Ruiyuan Tian, Yifan Zhao, Zhixuan Wei, Xin Pu, You-Liang Zhu, Dong Zhang, Fei Du
Summary: A new binder was synthesized by cross-linking sodium alginate with MXene materials, which shows improved adhesion, mechanical properties, and electronic conductivity. The binder enables the fabrication of high-capacity and high-quality electrodes and shows feasibility in different battery systems.
Article
Chemistry, Physical
Wei Wang, Xinyin Wang, Jiongwei Shan, Liguo Yue, Weilong Wang, Yunyong Li
Summary: In this study, a dual-functional conductive 1T-MoSe2/MXene bidirectional catalyst was constructed to effectively inhibit the shuttle behavior of sulfur in lithium-sulfur batteries, improving their stability and capacity retention.
JOURNAL OF ALLOYS AND COMPOUNDS
(2023)
Article
Engineering, Environmental
Uthman Alli, Kieran McCarthy, Ioan-Alexandru Baragau, Nicholas P. Power, David J. Morgan, Steven Dunn, Seamus Killian, Tadhg Kennedy, Suela Kellici
Summary: In this study, N-doped MXene-TiO2 hybrid anode materials were synthesized using an aqueous route, showing improved electrochemical performance and increased specific energy capacity. The N-doped TiO2-MXene was modified through a continuous hydrothermal process, demonstrating good cyclic performance and Coulombic efficiency.
CHEMICAL ENGINEERING JOURNAL
(2022)
Article
Nanoscience & Nanotechnology
Mengwei Yuan, Rui Wang, Wenbo Fu, Liu Lin, Zemin Sun, Xinggui Long, Shuting Zhang, Caiyun Nan, Genban Sun, Huifeng Li, Shulan Ma
ACS APPLIED MATERIALS & INTERFACES
(2019)
Article
Chemistry, Multidisciplinary
Liu Lin, Zemin Sun, Mengwei Yuan, Han Yang, Huifeng Li, Caiyun Nan, Heyun Jiang, Shengsong Ge, Genban Sun
ACS SUSTAINABLE CHEMISTRY & ENGINEERING
(2019)
Article
Chemistry, Multidisciplinary
Caiying Wen, Tianjiao Zhu, Xingyu Li, Huifeng Li, Xianqiang Huang, Genban Sun
CHINESE CHEMICAL LETTERS
(2020)
Article
Chemistry, Inorganic & Nuclear
Mengwei Yuan, Rui Wang, Zemin Sun, Liu Lin, Han Yang, Huifeng Li, Caiyun Nan, Genban Sun, Shulan Ma
INORGANIC CHEMISTRY
(2019)
Article
Chemistry, Multidisciplinary
Mengwei Yuan, Shuting Zhang, Liu Lin, Zemin Sun, Han Yang, Huifeng Li, Genban Sun, Caiyun Nan, Shulan Ma
ACS SUSTAINABLE CHEMISTRY & ENGINEERING
(2019)
Article
Chemistry, Multidisciplinary
Mengwei Yuan, Huiqin Yao, Linxia Xie, Xiaowen Liu, Hui Wang, Saiful M. Islam, Keren Shi, Zihuan Yu, Genban Sun, Huifeng Li, Shulan Ma, Mercouri G. Kanatzidis
JOURNAL OF THE AMERICAN CHEMICAL SOCIETY
(2020)
Article
Nanoscience & Nanotechnology
Zemin Sun, Xiaorui Wang, Mengwei Yuan, Han Yang, Yuhe Su, Kefan Shi, Caiyun Nan, Huifeng Li, Genban Sun, Jia Zhu, Xiaojing Yang, Shaowei Chen
ACS APPLIED MATERIALS & INTERFACES
(2020)
Article
Chemistry, Physical
Xingyu Li, Caiying Wen, Mengwei Yuan, Zemin Sun, Yingying Wei, Luyao Ma, Huifeng Li, Genban Sun
JOURNAL OF ALLOYS AND COMPOUNDS
(2020)
Article
Chemistry, Physical
Caiying Wen, Donghua Guo, Xingzi Zheng, Huifeng Li, Genban Sun
Summary: In this study, a convenient and scalable method was employed to prepare three-dimensional hierarchical nMOF-867/Ti3C2Tx, which addresses the issues of poor conductivity, severe volume change, and shuttle effects in lithium-sulfur batteries, thus enhancing the performance and cycling life of the batteries.
ACS APPLIED ENERGY MATERIALS
(2021)
Article
Chemistry, Physical
Han Yang, Mengwei Yuan, Di Wang, Zemin Sun, Huifeng Li, Genban Sun
Summary: The manganese nickel phosphide nanosheets (MnxNi2-xP) developed in this work serve as a bifunctional electrocatalyst towards OER and UOR with superior performance, requiring low overpotential and showing impressive longevity. Experimental and theoretical methods confirm MnxNi2-xP as an effective bifunctional electrocatalyst for both OER and UOR due to its benign electronic conductivity and efficient active sites for the OH- adsorption.
ACS APPLIED ENERGY MATERIALS
(2021)
Article
Chemistry, Multidisciplinary
Xingzi Zheng, Mengwei Yuan, Donghua Guo, Caiying Wen, Xingyu Li, Xianqiang Huang, Huifeng Li, Genban Sun
Summary: A surface-functionalized nitrogen-doped two-dimensional N-TiO2/Ti3C2Tx heterojunction with high conductivity and optimized electrocatalytic active sites was fabricated. It exhibited high specific capacity and superior cyclability in Li-oxygen batteries, along with reduced overpotential. Through experiments and tests, its high stability and reduced side reaction were verified.
Article
Chemistry, Multidisciplinary
Di Wang, Mengwei Yuan, Jingshen Xu, Yayin Li, Kefan Shi, Han Yang, Huifeng Li, Genban Sun
Summary: The study successfully enhanced the activity, durability, and power density of oxygen reduction reaction by synthesizing cobalt single atoms anchored on ultrathin N-doped carbon nanosheets, providing a new insight for the design and development of high-performance metal active site electrocatalysts.
ACS SUSTAINABLE CHEMISTRY & ENGINEERING
(2021)
Review
Chemistry, Physical
Xingzi Zheng, Mengwei Yuan, Yuelin Zhao, Zihan Li, Kefan Shi, Huifeng Li, Genban Sun
Summary: This paper summarizes the latest research progress in MXene-based materials in LOBs, highlighting the significance of high conductivity and surface functionalization strategies in the theoretical design and experimental modulation, which promote electrode reaction kinetics and cyclability of LOBs. It also outlines the prospects and challenges of MXene-based LOBs and proposes novel strategies to enhance battery performance, inspiring future progress in designing high-performance LOBs using MXene materials.
ADVANCED ENERGY MATERIALS
(2023)
Article
Chemistry, Multidisciplinary
Mengwei Yuan, Zemin Sun, Liu Lin, Han Yang, Di Wang, Kuibo Yin, Caiyun Nan, Genban Sun, Huifeng Li, Shulan Ma
MATERIALS CHEMISTRY FRONTIERS
(2020)
Article
Chemistry, Applied
Maoyi Yi, Jie Li, Mengran Wang, Xinming Fan, Bo Hong, Zhian Zhang, Aonan Wang, Yanqing Lai
Summary: In this study, polyacrylic acid (PAA) was used as a binder for the cathode in all-solid-state batteries. Through H+/Li+ exchange reaction, a uniform PAA-Li coating layer was formed on the cathode surface, improving the stability of the cathodic interface and the crystal structure. The SC-NCM83-PAA cathode exhibited superior cycling performance compared to traditional PVDF binder.
JOURNAL OF ENERGY CHEMISTRY
(2024)
Article
Chemistry, Applied
Yonghan Zhou, Zhongfeng Ji, Wenrui Cai, Xuewei He, Ruiying Bao, Xuewei Fu, Wei Yang, Yu Wang
Summary: By learning from the pencil-writing process, a solid-ink rubbing technology (SIR-tech) has been invented to develop durable metallic coatings on diverse substrates. The composite metallic skin by SIR-tech outperforms pure liquid-metal coating and shows great potential for various applications.
JOURNAL OF ENERGY CHEMISTRY
(2024)
Article
Chemistry, Applied
Ruiqi Tian, Hehe Zhang, Zeyu Yuan, Yuehua Man, Jianlu Sun, Jianchun Bao, Ming-Sheng Wang, Xiaosi Zhou
Summary: In this study, polypyrrole-encapsulated Sb2WO6 microflowers were synthesized and demonstrated to exhibit excellent potassium storage properties and cycling stability. The improved performance of Sb2WO6@PPy was attributed to the unique microflower structure, enhanced electronic conductivity, and protective PPy coating.
JOURNAL OF ENERGY CHEMISTRY
(2024)
Review
Chemistry, Applied
Longxing Wu, Zhiqiang Lyu, Zebo Huang, Chao Zhang, Changyin Wei
Summary: This paper presents a comprehensive survey on physics-based state of charge (SOC) algorithms applied in advanced battery management system (BMS). It discusses the research progresses of physical SOC estimation methods for lithium-ion batteries and presents future perspectives for this field.
JOURNAL OF ENERGY CHEMISTRY
(2024)
Article
Chemistry, Applied
Honggang Huang, Yao Chen, Hui Fu, Cun Chen, Hanjun Li, Zhe Zhang, Feili Lai, Shuxing Bai, Nan Zhang, Tianxi Liu
Summary: The d-d orbital coupling induced by crystal-phase engineering effectively adjusts the electronic structure of electrocatalysts, improving their activity and stability, which is significant for electrocatalyst research.
JOURNAL OF ENERGY CHEMISTRY
(2024)
Article
Chemistry, Applied
Quanzhen Sun, Yifan Li, Caixia Zhang, Shunli Du, Weihao Xie, Jionghua Wu, Qiao Zheng, Hui Deng, Shuying Cheng
Summary: In this study, indium (In) ions were introduced into flexible Cu2ZnSn(S,Se)(4) (CZTSSe) solar cells to modify the back interface and passivate deep level defects in CZTSSe bulk. The results showed that In doping effectively inhibited the formation of secondary phase and V-Sn defects, decreased the barrier height at the back interface, passivated deep level defects in CZTSSe bulk, increased carrier concentration, and significantly reduced the V-OC deficit. Eventually, a flexible CZTSSe solar cell with a power conversion efficiency of 10.01% was achieved. This synergistic strategy of interface modification and bulk defects passivation through In incorporation provides a new approach for fabricating efficient flexible kesterite-based solar cells.
JOURNAL OF ENERGY CHEMISTRY
(2024)
Article
Chemistry, Applied
Negah Hashemi, Jafar Hussain Shah, Cejun Hu, Subhajit Nandy, Pavlo Aleshkevych, Sumbal Farid, Keun Hwa Chae, Wei Xie, Taifeng Liu, Junhu Wang, Mohammad Mahdi Najafpour
Summary: This study investigates the effects of Fe on the oxygen-evolution reaction (OER) in the presence of Au. The study identifies two distinct areas of OER associated with Fe and Au sites at different overpotentials. Various factors were varied to observe the behaviors of FeOxHy/Au during OER. The study reveals strong electronic interaction between Fe and Au, and proposes a lattice OER mechanism based on FeOxHy.
JOURNAL OF ENERGY CHEMISTRY
(2024)
Article
Chemistry, Applied
Yingshi Su, Yonghui Cheng, Zhen Li, Yanjia Cui, Caili Yang, Ziyi Zhong, Yibing Song, Gongwei Wang, Lin Zhuang
Summary: This study systematically investigates the key roles of Nafion on Cu nanoparticles electrocatalyst for CO2RR. The Nafion modifier suppresses the hydrogen evolution reaction, increases CO2 concentration and mass transfer process, and activates CO2 molecule to enhance C2 product generation. As a result, the selectivity of the hydrogen evolution reaction is reduced and the efficiency of C2 products is significantly improved.
JOURNAL OF ENERGY CHEMISTRY
(2024)
Article
Chemistry, Applied
Daijie Deng, Honghui Zhang, Jianchun Wu, Xing Tang, Min Ling, Sihua Dong, Li Xu, Henan Li, Huaming Li
Summary: By doping sulfur into vanadium nitride, the S-VN/Co/NS-MC catalyst exhibits enhanced oxygen reduction reaction activity and catalytic performance. When applied in liquid and flexible ZABs, it shows higher power density, specific capacity, and cycling stability.
JOURNAL OF ENERGY CHEMISTRY
(2024)
Review
Chemistry, Applied
Yi Li, Fei Zhang
Summary: Self-assembly of metal halide perovskite nanocrystals holds significant application value in the fields of display, detector, and solar cell due to their unique collective properties. This review covers the driving forces, commonly used methods, and different self-assembly structures of perovskite nanocrystals. Additionally, it summarizes the collective optoelectronic properties and application areas of perovskite superlattice structures, and presents an outlook on potential issues and future challenges in the development of perovskite nanocrystals.
JOURNAL OF ENERGY CHEMISTRY
(2024)
Article
Chemistry, Applied
Anki Reddy Mule, Bhimanaboina Ramulu, Shaik Junied Arbaz, Anand Kurakula, Jae Su Yu
Summary: Direct growth of redox-active noble metals and rational design of multifunctional electrochemical active materials play crucial roles in developing novel electrode materials for energy storage devices. In this regard, silver (Ag) has attracted great attention in the design of efficient electrodes. The construction of multifaceted heterostructure cobalt-iron hydroxide (CFOH) nanowires (NWs)@nickel cobalt manganese hydroxides and/or hydrate (NCMOH) nanosheets (NSs) on the Ag-deposited nickel foam and carbon cloth (i.e., Ag/ NF and Ag/CC) substrates is reported. The as-fabricated Ag@CFOH@NCMOH/NF electrode delivered superior areal capacity value of 2081.9 μA h cm-2 at 5 mA cm-2. Moreover, as-assembled hybrid cell based on NF (HC/NF) device exhibited remarkable areal capacity value of 1.82 mA h cm-2 at 5 mA cm-2 with excellent rate capability of 74.77% even at 70 mA cm-2. Furthermore, HC/NF device achieved maximum energy and power densities of 1.39 mW h cm-2 and 42.35 mW cm-2, respectively. To verify practical applicability, both devices were also tested to serve as a self-charging station for various portable electronic devices.
JOURNAL OF ENERGY CHEMISTRY
(2024)
Article
Chemistry, Applied
Zanling Huang, Shuqi Zhu, Yuan Duan, Chaoran Pi, Xuming Zhang, Abebe Reda Woldu, Jing-Xin Jian, Paul K. Chu, Qing-Xiao Tong, Liangsheng Hu, Xiangdong Yao
Summary: In this study, it was found that Ni sites act as a host to attract Fe(III) to form Fe(Ni)(III) binary centers, which promote the oxygen evolution reaction (OER) activity and stability by cyclical formation of intermediates. Additionally, other ions can also catalyze the OER process on different electrodes.
JOURNAL OF ENERGY CHEMISTRY
(2024)
Article
Chemistry, Applied
Jie Zeng, Jian Bao, Ya Zhang, Xun-Lu Li, Cui Ma, Rui-Jie Luo, Chong-Yu Du, Xuan Xu, Zhe Mei, Zhe Qian, Yong-Ning Zhou
Summary: The balance between cationic redox and oxygen redox is crucial for achieving high energy density and cycle stability in sodium batteries. This study demonstrates the reversible Mn2+/Mn4+ redox in a P3-Na0.65Li0.2Co0.05Mn0.75O2 cathode material through Co substitution, effectively suppressing the contribution of oxygen redox and improving structure stability.
JOURNAL OF ENERGY CHEMISTRY
(2024)
Article
Chemistry, Applied
Daniela M. Josepetti, Bianca P. Sousa, Simone A. J. Rodrigues, Renato G. Freitas, Gustavo Doubek
Summary: Lithium-oxygen batteries have high energy density potential but face challenges in achieving high cyclability. This study used operando Raman experiments and electrochemical impedance spectroscopy to evaluate the initial discharge processes in porous carbon electrodes. The results indicate that the reaction occurs at the Li2O2 surface and the growth of Li2O2 forms a more compact and homogeneous structure.
JOURNAL OF ENERGY CHEMISTRY
(2024)
Article
Chemistry, Applied
Ziqi Zhang, Jinyun Xu, Yu Zhang, Liping Zhao, Ming Li, Guoqiang Zhong, Di Zhao, Minjing Li, Xudong Hu, Wenju Zhu, Chunming Zheng, Xiaohong Sun
Summary: This paper explores the challenge of increasing global CO2 emissions and highlights the role of porous metal oxide materials in electrocatalytic reduction of CO2 (CO2RR). Porous metal oxides offer high surface area and tunability for optimizing CO2RR reaction mechanisms.
JOURNAL OF ENERGY CHEMISTRY
(2024)