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Strong, tough, and thermally conductive nacre-inspired boron nitride nanosheet/epoxy layered nanocomposites Journal article
Wang, Huagao, Lu, Rongjian, Li, Lei, Liang, Cheng, Yan, Jia, Liang, Rui, Sun, Guoxing, Jiang, Lei, Cheng, Qunfeng. Strong, tough, and thermally conductive nacre-inspired boron nitride nanosheet/epoxy layered nanocomposites[J]. Nano Research, 2023, 17, 820–828.
Authors:  Wang, Huagao;  Lu, Rongjian;  Li, Lei;  Liang, Cheng;  Yan, Jia; et al.
Favorite | TC[WOS]:12 TC[Scopus]:12  IF:9.5/9.0 | Submit date:2024/02/22
Nacre-inspiration  Nanocomposites  Flexural Strength  Fracture Toughness (k Ic)  Thermal Conductivity  
Initiating a Stretchable, Compressible, and Wearable Thermoelectric Generator by a Spiral Architecture with Ternary Nanocomposites for Efficient Heat Harvesting Journal article
Liang, Lirong, Wang, Miaomiao, Wang, Xiaodong, Peng, Peng, Liu, Zhuoxin, Chen, Guangming, Sun, Guoxing. Initiating a Stretchable, Compressible, and Wearable Thermoelectric Generator by a Spiral Architecture with Ternary Nanocomposites for Efficient Heat Harvesting[J]. ADVANCED FUNCTIONAL MATERIALS, 2022, 32(15).
Authors:  Liang, Lirong;  Wang, Miaomiao;  Wang, Xiaodong;  Peng, Peng;  Liu, Zhuoxin; et al.
Favorite | TC[WOS]:51 TC[Scopus]:53  IF:18.5/19.6 | Submit date:2022/05/04
Carbon Nanotubes  Flexible Devices  Nanocomposites  Poly(3,4-ethylenedioxytiophene)-tosylate  Thermoelectrics  
Thermomechanical properties of silica–epoxy nanocomposite modified by hyperbranched polyester: A molecular dynamics simulation Journal article
Zhang, Jianwen, Wang, Dongwei, Wang, Lujia, Zuo, Wanwan, Ma, Xiaohua, Du, Shuai, Zhou, Lijun. Thermomechanical properties of silica–epoxy nanocomposite modified by hyperbranched polyester: A molecular dynamics simulation[J]. High Performance Polymers, 2021, 33(10), 1153-1164.
Authors:  ; et al.
Favorite | TC[WOS]:2 TC[Scopus]:3  IF:1.8/1.8 | Submit date:2022/01/14
Hyperbranched Polyester  Microstructure  Molecular Dynamics  Silica–epoxy Nanocomposites  Thermomechanical Properties  
Magnetic Mesoporous Calcium Carbonate-Based Nanocomposites for the Removal of Toxic Pb(II) and Cd(II) Ions from Water Journal article
Wang, Penglei, Shen, Tingting, Li, Xinyong, Tang, Yuanyuan, Li, Yongjie. Magnetic Mesoporous Calcium Carbonate-Based Nanocomposites for the Removal of Toxic Pb(II) and Cd(II) Ions from Water[J]. ACS Applied Nano Materials, 2020, 3(2), 1272-1281.
Authors:  Wang, Penglei;  Shen, Tingting;  Li, Xinyong;  Tang, Yuanyuan;  Li, Yongjie
Favorite | TC[WOS]:62 TC[Scopus]:65  IF:5.3/5.4 | Submit date:2021/12/03
Adsorption  Cadmium  Calcium Carbonate  Crystal Structure  Lead  Nanocomposites  
Magnetic Mesoporous Calcium Carbonate-Based Nanocomposites for the Removal of Toxic Pb (II) and Cd (II) Ions from Water Journal article
Wang, P., Shen, T., Li, X., Tang, Y., Li, Y.J.. Magnetic Mesoporous Calcium Carbonate-Based Nanocomposites for the Removal of Toxic Pb (II) and Cd (II) Ions from Water[J]. ACS Applied Nano Materials, 2020, 3(2), 1272-1281.
Authors:  Wang, P.;  Shen, T.;  Li, X.;  Tang, Y.;  Li, Y.J.
Favorite | TC[WOS]:62 TC[Scopus]:65  IF:5.3/5.4 | Submit date:2022/07/26
Adsorption  Cadmium  Calcium Carbonate  Crystal Structure  Lead  Nanocomposites  
Non-Volatile Glycerin Gel Enhanced by Sub-5 nm Particles with Super Elasticity, Recoverability, and High Temperature Resistance Journal article
Li, Lefan, Wang, Qiao, Li, Zongjin, Guo, Siyao, Sun, Guoxing. Non-Volatile Glycerin Gel Enhanced by Sub-5 nm Particles with Super Elasticity, Recoverability, and High Temperature Resistance[J]. Macromolecular Chemistry and Physics, 2019, 220(4).
Authors:  Li, Lefan;  Wang, Qiao;  Li, Zongjin;  Guo, Siyao;  Sun, Guoxing
Favorite | TC[WOS]:3 TC[Scopus]:3  IF:2.5/2.5 | Submit date:2021/03/09
High Temperature Resistance  Mechanical Properties  Nanocomposites  Non-volatile Gels  
Interfacial Coupling Effect in Organic/Inorganic Nanocomposites with High Energy Density Journal article
Pan Z., Yao L., Zhai J., Yao X., Chen H.. Interfacial Coupling Effect in Organic/Inorganic Nanocomposites with High Energy Density[J]. ADVANCED MATERIALS, 2018, 30(17).
Authors:  Pan Z.;  Yao L.;  Zhai J.;  Yao X.;  Chen H.
Favorite | TC[WOS]:264 TC[Scopus]:268  IF:27.4/30.2 | Submit date:2019/04/08
Capacitors  Interfacial Coupling Effect  Organic/inorganic Nanocomposites  
High-Energy-Density Polymer Nanocomposites Composed of Newly Structured One-Dimensional BaTiO3@Al2O3 Nanofibers Journal article
Pan, Zhongbin, Yao, Lingmin, Zhai, Jiwei, Fu, Dezhou, Shen, Bo, Wang, Haitao. High-Energy-Density Polymer Nanocomposites Composed of Newly Structured One-Dimensional BaTiO3@Al2O3 Nanofibers[J]. ACS APPLIED MATERIALS & INTERFACES, 2017, 9(4), 4024-4033.
Authors:  Pan, Zhongbin;  Yao, Lingmin;  Zhai, Jiwei;  Fu, Dezhou;  Shen, Bo; et al.
Favorite | TC[WOS]:238 TC[Scopus]:258  IF:8.3/8.7 | Submit date:2018/10/30
Nanocomposites  Capacitors  Batio3 Nanoparticles  One-dimensional  Energy Density  Dielectric Properties  
High-energy-density polymer nanocomposites composed of newly structured one-dimensional BaTiO3@Al2O3 nanofibers Journal article
Pan Z., Yao L., Zhai J., Fu D., Shen B., Wang H.. High-energy-density polymer nanocomposites composed of newly structured one-dimensional BaTiO3@Al2O3 nanofibers[J]. ACS Applied Materials and Interfaces, 2017, 9(4), 4024.
Authors:  Pan Z.;  Yao L.;  Zhai J.;  Fu D.;  Shen B.; et al.
Favorite | TC[WOS]:238 TC[Scopus]:258 | Submit date:2018/10/30
Batio3 Nanoparticles  Capacitors  Dielectric Properties  Energy Density  Nanocomposites  One-dimensional  
Significantly Enhanced Energy Density in Nanocomposite Capacitors Combining the TiO2 Nanorod Array with Poly(vinylidene fluoride) Journal article
Yao L., Pan Z., Liu S., Zhai J., Chen H.H.D.. Significantly Enhanced Energy Density in Nanocomposite Capacitors Combining the TiO2 Nanorod Array with Poly(vinylidene fluoride)[J]. ACS Applied Materials and Interfaces, 2016, 8(39), 26343.
Authors:  Yao L.;  Pan Z.;  Liu S.;  Zhai J.;  Chen H.H.D.
Favorite | TC[WOS]:104 TC[Scopus]:110 | Submit date:2018/10/30
Capacitors  Energy Density  Nanocomposites  Nanorod Arrays  Poly(Vinylidene Fluoride)  Titanium Oxides