Article
Chemistry, Physical
Peiyu Wang, Xingbin Yan
Summary: This review paper summarizes the structure characteristics and energy storage mechanisms of Mg hybrid batteries, as well as reviews the research progress of MLHBs and MNHBs. Existing technical obstacles and development perspectives are also discussed.
ENERGY STORAGE MATERIALS
(2022)
Article
Chemistry, Physical
Qiang Shu, Xiaojiang Hou, Kaiming Hou, Xiaohui Ye, Qianhong Cao, Danting Li, Lishuai Xie, Guoquan Suo
Summary: The hybrid Mg-Li ion battery (MLIBs) combines the advantages of low-cost magnesium metal anode and fast Li+ intercalation cathode. The conventional MoS2 cathode for MLIBs suffers from low electronic conductivity and poor cycling performance, but this issue has been initially solved by compounding MoS2 with CuS and expanded graphite (EG). By loading the MoS2-CuS-EG cathode on flexible carbon cloth, the cycling stability of MLIBs is improved significantly.
JOURNAL OF ALLOYS AND COMPOUNDS
(2023)
Article
Engineering, Environmental
Xiang Bai, Caixia Zhu, Yierxiati Dilixiati, Xing Fan, Xing-Lei Wang, Miao Du, Zhi-Xiong Huang, Xiao-Yan He, Xing-Long Wu
Summary: In this study, LiCrTiO4 nanoparticles with/without carbon layer were successfully prepared and used as cathodes for hybrid magnesium-lithium ion batteries. The nanoparticles with carbon layer exhibited high reversible capacity, excellent rate performance, and ultra-stable cycling stability. The improved electrochemical performance was attributed to the enhanced conductivity and ion diffusion rate, as well as the decreased polarization value induced by the carbon coating layer with a higher surface area. This study demonstrates a promising application of LCTOC in the fabrication of advanced HMLBs.
CHEMICAL ENGINEERING JOURNAL
(2023)
Article
Chemistry, Physical
Wenlu Sun, Lu Chen, Jun Wang, Hui Zhang, Zhilong Quan, Fang Fu, Huabin Kong, Shibin Wang, Hongwei Chen
Summary: A dual-salt electrolyte composed of Mg and Li salts was reported to optimize both cathode and anode in Mg batteries. The electrolyte enabled a unique Mg2+/Li+ co-insertion organic cathode, resulting in a high energy density of 23 W h kg(-1) and an ultra-long lifetime of over 3000 cycles. This study provides new insights into multiple-ion storage in organic electrodes for advanced batteries, considering the potential of organic structural design.
JOURNAL OF MATERIALS CHEMISTRY A
(2023)
Article
Electrochemistry
Jinxing Wang, Xiao Wang, Jingdong Yang, Xiaoyang Dong, Xiang Chen, Ying Zhang, Wen Zeng, Junyao Xu, Jingfeng Wang, Guangsheng Huang, Fusheng Pan
Summary: By synthesizing CuS@MoS2 with core-shell structure, this study improves the rate performance and cycle stability of CuS cathodes, providing a new strategy for the design of high-performance cathodes.
JOURNAL OF THE ELECTROCHEMICAL SOCIETY
(2022)
Article
Chemistry, Physical
Zhennan Xiong, Guilei Zhu, Hui Wu, Gejun Shi, Pu Xu, Huimin Yi, Yiyang Mao, Baofeng Wang, Xuebin Yu
Summary: Layered MoS2 has potential as cathode material for MLIBs, but its low capacity and poor cycling stability limit its application. Highly dispersed MoS2 nanoflowers are synthesized and exhibited improved electrochemical performance, providing a method to enhance MoS2 properties.
ACS APPLIED ENERGY MATERIALS
(2022)
Article
Chemistry, Physical
Abraham Herzog-Arbeitman, Sebastian Maletti, Steffen Oswald, Toni Schmeida, Lars Giebeler, Daria Mikhailova
Summary: Conventional lithium-magnesium hybrid batteries are limited by toxic and corrosive liquid electrolytes. To address this challenge, researchers have successfully developed a hybrid gel polymer electrolyte with high ionic conductivity and excellent electrochemical stability, leading to the first proof-of-concept quasi-solid-state LMIB with high initial capacity and Coulombic efficiencies above 90%.
ACS APPLIED ENERGY MATERIALS
(2021)
Article
Materials Science, Multidisciplinary
Chunmao Huang, Shenghong Liu, Yang Wang, Jingjie Feng, Yanming Zhao
Summary: NaVMoO6 with brannerite-type structure was successfully synthesized using a sol-gel method, and utilized as a cathode material for lithium ion batteries for the first time. The material showed stable reversible specific capacity, indicating its potential as a cathode material for LIBs and enriching the possibilities of molybdenum-based materials for this application.
JOURNAL OF MATERIALS SCIENCE & TECHNOLOGY
(2021)
Article
Energy & Fuels
Fajin Zhu, Hainan Zhang, Zhiyan Lu, Dongdong Kang, Lu Han
Summary: Developing high energy density and high stability rechargeable batteries for high power output devices is vital yet challenging. Introducing defective structures can enhance the electrochemical performance of magnesium batteries, showing potential applications in the field.
JOURNAL OF ENERGY STORAGE
(2021)
Article
Chemistry, Multidisciplinary
Can Guo, Ming Liu, Guang-Kuo Gao, Xi Tian, Jie Zhou, Long-Zhang Dong, Qi Li, Yifa Chen, Shun-Li Li, Ya-Qian Lan
Summary: The study demonstrates that COFs can act as microadditives in Li-S batteries and enhance the reversible capacity.
ANGEWANDTE CHEMIE-INTERNATIONAL EDITION
(2022)
Article
Materials Science, Ceramics
Jian Wei, Chao Jiang, Bing Chen, Xueting Li, Hao Zhang
Summary: The use of C/Co9S8-C@S fiber as a sulfur host in Li-S batteries shows excellent adsorption characteristics for polysulfides and stable cycling performance.
CERAMICS INTERNATIONAL
(2021)
Article
Metallurgy & Metallurgical Engineering
Han-bing He, Zhen Liu, Chao-qun Peng, Jun Liu, Xiao-feng Wang, Jing Zeng
Summary: In this study, vertical MoS2 nanosheets were patterned onto graphene as nanoflowers through a two-step hydrothermal method. The interconnected network and intimate contact between MoS2 nanosheets and graphene by vertical channels enabled a high mechanical integrity of the electrode and cycling stability.
TRANSACTIONS OF NONFERROUS METALS SOCIETY OF CHINA
(2022)
Article
Nanoscience & Nanotechnology
Sijia Li, Yutong Li, Zejun Zhao, Fang Wang, Xiaobing Bao, Chentao Hao, Zilong Tang, Yong Yang
Summary: Engineering a hollow architecture has been recognized as an efficient strategy for enhancing energy storage and conversion. In this study, hollow hierarchical carbon nanotubes combined with MoS2 nanosheets were successfully designed and fabricated to improve the performance of lithium-/sodium-ion batteries. The electrode exhibited outstanding storage capacity and ultrastable cycling stability for lithium-/sodium-ion storage, highlighting the potential for boosting the development of electrochemical energy storage.
ACS APPLIED NANO MATERIALS
(2021)
Article
Nanoscience & Nanotechnology
Sebastian Maletti, Oleg Janson, Abraham Herzog-Arbeitman, Ignacio Guillermo Gonzalez Martinez, Ronny Buckan, Johanna Fischer, Anatoliy Senyshyn, Alexander Missyul, Martin Etter, Daria Mikhailova
Summary: The study found that TNO demonstrates better cycling performance in hybrid Mg-Li batteries compared to conventional Li batteries, with a capacity retention higher than 95% after over 1000 cycles. The structural evolution and cycling behavior of TNO make it suitable for ultrafast operation, showing potential for improved long-term reliability in hybrid batteries.
ACS APPLIED MATERIALS & INTERFACES
(2021)
Review
Chemistry, Physical
Xin Cao, Yu Qiao, Min Jia, Ping He, Haoshen Zhou
Summary: This study reviews the potential application of Li-rich and Li-excess oxides as cathode materials for next-generation Li-ion batteries, discusses the challenges in using Li-excess oxides, and explores mechanisms to address these issues. Future research directions in the field are also proposed based on advanced characterizations and theory calculations.
ADVANCED ENERGY MATERIALS
(2022)
Article
Chemistry, Multidisciplinary
Wei Zong, Hele Guo, Yue Ouyang, Lulu Mo, Chunyang Zhou, Guojie Chao, Johan Hofkens, Yang Xu, Wei Wang, Yue-E Miao, Guanjie He, Ivan P. Parkin, Feili Lai, Tianxi Liu
Summary: The study successfully constructed an expanded 2D rhenium selenide intercalated by nitrogen-doped carbon hybrid with a strong-coupled interface and weak van der Waals forces, improving conductivity and accelerating reaction kinetics. Results showed that the hybrid capacitor has enhanced rate capability and long-term cyclability, as well as favorable sodium storage kinetics, making it applicable in a wide temperature range.
ADVANCED FUNCTIONAL MATERIALS
(2022)
Article
Chemistry, Multidisciplinary
Yuxi Guo, Wei Wang, Haiping Lei, Mingyong Wang, Shuqiang Jiao
Summary: This study proposes a new mechanism for utilizing active sites in aluminum-metal organic framework batteries, resulting in increased capacity and energy density. By using bipolar ligands and high-density active sites, the researchers were able to achieve higher reversible capacity and energy density in the battery.
ADVANCED MATERIALS
(2022)
Article
Chemistry, Multidisciplinary
Zheng Huang, Wei-Li Song, Yingjun Liu, Wei Wang, Mingyong Wang, Jianbang Ge, Handong Jiao, Shuqiang Jiao
Summary: A stable quasi-solid-state electrolyte is developed by encapsulating a small amount of an ionic liquid into a metal-organic framework, providing protection from moisture and creating an effective ionic transport network. The assembled quasi-solid-state aluminum-graphite batteries exhibit high specific capacity, long-term cycling stability, and excellent stability even under exposure to air and flame combustion tests.
ADVANCED MATERIALS
(2022)
Article
Chemistry, Physical
Guoquan Suo, Syed Musab Ahmed, Yan Cheng, Jiaqi Zhang, Zongyou Li, Xiaojiang Hou, Yanling Yang, Xiaohui Ye, Lei Feng, Li Zhang, Qiyao Yu
Summary: A new nitrogen doped carbon coating CoS2/CuCo2S4 heterostructure was developed as an anode for potassium ions batteries, demonstrating outstanding rate capability and long-term cycling life. Additionally, the conversion reaction mechanism in the anode was revealed through ex situ XRD characterizations.
JOURNAL OF COLLOID AND INTERFACE SCIENCE
(2022)
Article
Nanoscience & Nanotechnology
Guanjian Nie, Zhuonan Huang, Shukai Ding, Xiaodong Hao, Guoquan Suo, Di Han, Yang Xu, Yingjun Yang, Wenqi Zhao, Qingmei Su, Bingshe Xu, Gaohui Du, Christophe A. Serra
Summary: By embedding SnCo nanoalloys in a graphene nanosheet matrix, the issues of dendrite growth and poor repeatability in potassium-ion batteries can be effectively addressed. The material shows promising electrochemical performance and potential for large-scale production.
ACS APPLIED NANO MATERIALS
(2022)
Review
Chemistry, Multidisciplinary
Yu Sun, Xiao-Lei Shi, Yan-Ling Yang, Guoquan Suo, Li Zhang, Siyu Lu, Zhi-Gang Chen
Summary: This review summarizes the latest research progress in biomass-derived carbon materials as energy storage materials for batteries, covering structures and mechanisms. It also highlights the challenges and strategies for future development. This is of great importance for researchers to choose appropriate strategies to design biomass-derived carbon materials and promote the application of biomass materials in battery design.
ADVANCED FUNCTIONAL MATERIALS
(2022)
Article
Chemistry, Physical
Ru-Mei He, Yan-Ling Yang, Hua-Jun Chen, Ja-Jun Liu, Yi-Meng Sun, Wen-Ning Guo, Dao-Hui Li, Xiao-Jiang Hou, Guo-Quan Suo, Xiao-Hui Ye, Li Zhang
Summary: In this study, large-sized and uniform Cu7S4 nanosheets were grown in situ on flexible copper mesh via a controllable crystal seed layer. The Cu7S4 nanosheets exhibited excellent photocatalytic Fenton-like degradation performance under simulated sunlight, with the degradation rate of methylene blue improved by nearly 9 times and reaching a degradation efficiency of close to 98.4% within 140 minutes. The flexible Cu mesh/Cu7S4 catalyst films showed great potential as an efficient next generation photocatalyst candidate by avoiding secondary pollution caused by powder catalysts.
COLLOIDS AND SURFACES A-PHYSICOCHEMICAL AND ENGINEERING ASPECTS
(2022)
Article
Materials Science, Multidisciplinary
Xingyu Liu, Xiao-Lei Shi, Li Zhang, Wei-Di Liu, Yanling Yang, Zhi-Gang Chen
Summary: This study develops a one-step post-treatment method using a water-based solution to improve the power factor of PEDOT:PSS films. By using a DMAC solution and LAA reducing agent, the electrical conductivity and Seebeck coefficient of the films are enhanced, resulting in an improved power factor. The research also demonstrates a flexible thermoelectric device assembled with PEDOT:PSS films showing high output power at a temperature difference of 25 K.
JOURNAL OF MATERIALS SCIENCE & TECHNOLOGY
(2023)
Article
Materials Science, Ceramics
Hui Liu, Li Zhang, Yaozhen Shen, Xiaojiang Hou, Xiaohui Ye, Guoquan Suo, Beibei Zhu, Yanling Yang
Summary: In this work, the thermoelectric performance of Bi2S3 was optimized by Cu doping using a facile hydrothermal method combined with spark plasma sintering. The introduction of Cu doping increased the carrier concentration and electrical conductivity of Bi2S3, leading to improved thermoelectric properties. Additionally, the micro-nano pores formed after spark plasma sintering benefited the reduction of lattice thermal conductivity. A maximum ZT value of 0.3 at 573 K was achieved in the Bi1.985Cu0.015S3 sample. This study provides a new strategy to achieve low thermal conductivity and high ZT value in Bi2S3-based thermoelectric materials.
CERAMICS INTERNATIONAL
(2023)
Article
Chemistry, Physical
Dongdong An, Yu Sun, Yan-Ling Yang, Xiao-Lei Shi, Hua-Jun Chen, Li Zhang, Guoquan Suo, Xiaojiang Hou, Xiaohui Ye, Siyu Lu, Zhi-Gang Chen
Summary: The strategy of purifying wastewater with waste materials (PWWM) can improve the secondary utilization of industrial waste while reducing environmental pollution. However, its low purification efficiency of organic pollutants and difficult secondary utilization process have limited its extensive use. In this study, zinc aluminum silicate (ZAS) was used to modify waste granular red mud (GRM) to create a recoverable adsorbent called ZAS/GRM. The ZAS was found to have exceptional adsorption performance and can effectively solidify heavy metal ions, while the design of many voids in the ZAS/GRM adsorbents significantly improved the removal efficiency of congo red (CR) organic dye.
JOURNAL OF COLLOID AND INTERFACE SCIENCE
(2023)
Article
Chemistry, Physical
Guoquan Suo, Yan Cheng, Rongrong Mu, Xiaojiang Hou, Yanling Yang, Xiaohui Ye, Li Zhang
Summary: This study reports a flexible cathode material for ZIBs, composed of carbon fiber-supported MnMoO4 nanostructures protected with N-doped carbon coatings (CF/MnMoO4@NCs). The N-doped carbon coating on MnMoO4 nanostructures can buffer volume expansion of MnMoO4, and the CF and NCs with good electronic conductivity can facilitate quick electrons transportation in the CF/MnMoO4@NCs system. The optimized CF/MnMoO4@NCs cathode exhibits high capacity and good rate capability, delivering outstanding discharge capacity and cycling stability, offering constructive directions for designing high-performance cathode materials for ZIBs.
JOURNAL OF COLLOID AND INTERFACE SCIENCE
(2023)
Article
Multidisciplinary Sciences
Zhijing Yu, Wei Wang, Yong Zhu, Wei-Li Song, Zheng Huang, Zhe Wang, Shuqiang Jiao
Summary: The authors develop a layered quasi-solid battery with double reaction zones to suppress the shuttle effect of conversion-type materials and improve both energy density and cycling life.
NATURE COMMUNICATIONS
(2023)
Article
Chemistry, Physical
Zejian Fang, Shukai Ding, Gaohui Du, Yong Zhu, Christophe A. Serra, Bingshe Xu, Qingmei Su, Guoquan Suo, Wei Wang
Summary: Anode-free Li-metal batteries (AFLBs) are attracting attention due to their high capacity and the absence of Li metal. However, the current manufacturing process is complex and non-reproducible. This study presents a new manufacturing method that achieves uniform Li plating and improves battery performance.
JOURNAL OF MATERIALS CHEMISTRY A
(2023)
Article
Engineering, Environmental
Xinping Zhang, Yuxin Guo, Xiaoyang Liu, Shun-Yu Wu, Ya-Xuan Zhu, Shao-Zhe Wang, Qiu-Yi Duan, Ke-Fei Xu, Zi-Heng Li, Xiao-Yu Zhu, Guang-Yu Pan, Fu-Gen Wu
Summary: This study develops a nanotrigger HCFT for simultaneous photodynamic therapy and light-triggered ferroptosis therapy. The nanotrigger can relieve tumor hypoxia, induce enhanced photodynamic reaction, and facilitate the continuation of Fenton reaction, ultimately leading to lethal ferroptosis in tumor cells.
CHEMICAL ENGINEERING JOURNAL
(2024)
Article
Engineering, Environmental
Olumide Bolarinwa Ayodele, Toyin Daniel Shittu, Olayinka S. Togunwa, Dan Yu, Zhen-Yu Tian
Summary: This study focused on the semihydrogenation of acetylene in an ethylene-rich stream using two alloyed Pt catalysts PtCu and PtCo. The PtCu catalyst showed higher activity and ethylene yield compared to PtCo due to its higher unoccupied Pt d-orbital density. This indicates that alloying Pt with Cu is more promising for industrial relevant SHA catalyst.
CHEMICAL ENGINEERING JOURNAL
(2024)
Article
Engineering, Environmental
Guowei Chen, Wen-Cheng Chen, Yaozu Su, Ruicheng Wang, Jia-Ming Jin, Hui Liang, Bingxue Tan, Dehua Hu, Shaomin Ji, Hao-Li Zhang, Yanping Huo, Yuguang Ma
Summary: This study proposes an intramolecular dual-locking design for organic luminescent materials, achieving high luminescence efficiency and performance for deep-blue organic light-emitting diodes. The material also exhibits unique mechanochromic luminescence behavior and strong fatigue resistance.
CHEMICAL ENGINEERING JOURNAL
(2024)
Article
Engineering, Environmental
Joren van Stee, Gregory Hermans, Jinu Joseph John, Koen Binnemans, Tom Van Gerven
Summary: This work presents a continuous solvent extraction method for the separation of cobalt and nickel in a millifluidic system using Cyphos IL 101 (C101) as the extractant. The optimal conditions for extraction performance and solvent properties were determined by investigating the effects of channel length, flow rate, and temperature. The performance of a developed manifold structure was compared to a single-channel system, and excellent separation results were achieved. The continuous separation process using the manifold structure resulted in high purity cobalt and nickel products.
CHEMICAL ENGINEERING JOURNAL
(2024)
Article
Engineering, Environmental
Yan Xu, Jingai Jiang, Xinyi Lv, Hui Li, Dongliang Yang, Wenjun Wang, Yanling Hu, Longcai Liu, Xiaochen Dong, Yu Cai
Summary: A programmed gas release nanoparticle was developed to address the challenges in treating diabetic infected wounds. It effectively removes drug-resistant pathogens and remodels the wound microenvironment using NO and H2S. The nanoparticle can eliminate bacteria and promote wound healing through antibacterial and anti-inflammatory effects.
CHEMICAL ENGINEERING JOURNAL
(2024)
Article
Engineering, Environmental
Tong Xia, Zhilin Xi, Lianquan Suo, Chen Wang
Summary: This study investigated a highly efficient coal dust suppressant with low initial viscosity and high adhesion-solidification properties. The results demonstrated that the dust suppressant formed a network of multiple hydrogen bonding cross-linking and achieved effective adhesion and solidification of coal dust through various chemical reactions.
CHEMICAL ENGINEERING JOURNAL
(2024)
Article
Engineering, Environmental
Jinzhi Cai, Zhenshan Li
Summary: A density functional theory-based rate equation was developed to predict the gas-solid reaction kinetics of CaO carbonation with CO2 in calcium looping. The negative activation energy of CaO carbonation close to equilibrium was accurately predicted through experimental validation.
CHEMICAL ENGINEERING JOURNAL
(2024)
Article
Engineering, Environmental
Jianxiong Chen, Fuhao Ren, Ningning Yin, Jie Mao
Summary: This study presents an economically efficient and easily implementable surface modification approach to enhance the high-temperature electrical insulation and energy storage performance of polymer dielectrics. The self-assembly of high-insulation-performance boron nitride nanosheets (BNNS) on the film surface through electrostatic interactions effectively impedes charge injection from electrodes while promoting charge dissipation and heat transfer.
CHEMICAL ENGINEERING JOURNAL
(2024)
Article
Engineering, Environmental
Zijian Li, Zhaohui Yang, Shao Wang, Hongxia Luo, Zhimin Xue, Zhenghui Liu, Tiancheng Mu
Summary: This study reports a strategy for upgrading polyester plastics into value-added chemicals using electrocatalytic methods. By inducing the targeted transfer of *OH species, polyethylene terephthalate was successfully upgraded into potassium diformate with high purity. This work not only develops an excellent electrocatalyst, but also provides guidance for the design of medium entropy metal oxides.
CHEMICAL ENGINEERING JOURNAL
(2024)
Article
Engineering, Environmental
Navneet Singh Shekhawat, Surendra Kumar Patra, Ashok Kumar Patra, Bamaprasad Bag
Summary: This study primarily focuses on developing a sulphur dyeing process at room temperature using bacterial Lysate, which is environmentally friendly, energy and cost effective, and sustainable. The process shows promising improvements in dye uptake and fastness properties.
CHEMICAL ENGINEERING JOURNAL
(2024)
Article
Engineering, Environmental
Dengjia Shen, Hongyang Ma, Madani Khan, Benjamin S. Hsiao
Summary: This study developed cationic PVC nanofibrous membranes with high filtration and adsorption capability for the removal of bacteria and hexavalent chromium ions from wastewater. The membranes demonstrated remarkable performance in terms of filtration efficiency and maximum adsorption capacity. Additionally, modified nanofibrous membranes were produced using recycled materials and showed excellent retention rates in dynamic adsorption processes.
CHEMICAL ENGINEERING JOURNAL
(2024)
Article
Engineering, Environmental
Xiaoyan Wang, Zhikun Wang, Ben Jia, Chunling Li, Shuangqing Sun, Songqing Hu
Summary: Inspired by photosystem II, self-supported Fe-doped NiCoP nanowire arrays modified with carboxylate were constructed to boost industrial-level overall water splitting by employing the concerted proton-coupled electron transfer mechanism. The introduction of Fe and carboxyl ligand led to improved catalytic activity for HER and OER, and NCFCP@NF exhibited long-term durability for overall water splitting.
CHEMICAL ENGINEERING JOURNAL
(2024)
Article
Engineering, Environmental
Pengyao Yu, Ge Yang, Yongming Chai, Lubomira Tosheva, Chunzheng Wang, Heqing Jiang, Chenguang Liu, Hailing Guo
Summary: Thin LTA zeolite membranes were prepared through secondary growth of nano LTA seeds in a highly reactive gel, resulting in membranes with superior permeability and selectivity in gas separation applications.
CHEMICAL ENGINEERING JOURNAL
(2024)
Article
Engineering, Environmental
Baiqin Zhou, Huiping Li, Ziyu Wang, Hui Huang, Yujun Wang, Ruichun Yang, Ranran Huo, Xiaoyan Xu, Ting Zhou, Xiaochen Dong
Summary: The use of machine learning to predict the performance of specific adsorbents in phosphate adsorption shows great promise in saving time and revealing underlying mechanisms. However, the small size of the dataset and insufficient detailed information limits the model training process and the accuracy of results. To address this, the study employs a fuzzing strategy that replaces detailed numeric information with descriptive text messages on the physiochemical properties of adsorbents. This strategy allows the recovery of discarded samples with limited information, leading to accurate prediction of adsorption amount, capacity, and kinetics. The study also finds that phosphate uptake by adsorbents is generally through physisorption, with some involvement of chemisorption. The framework established in this study provides a practical approach for quickly predicting phosphate adsorption performance in urgent scenarios, using easily accessible information.
CHEMICAL ENGINEERING JOURNAL
(2024)
Article
Engineering, Environmental
Paula Alejandra Lamprea Pineda, Joren Bruneel, Kristof Demeestere, Lisa Deraedt, Tex Goetschalckx, Herman Van Langenhove, Christophe Walgraeve
Summary: This study evaluates the use of four esterified fatty acids and three vegetable oils as absorption liquids for hydrophobic VOCs. The experimental results show that isopropyl myristate is the most efficient liquid for absorbing the target VOCs.
CHEMICAL ENGINEERING JOURNAL
(2024)