第一或通讯作者(*)论文:
已经发表的论文(第一或通讯作者)
82 Zeng Lingxiao, Sheng Nan, Rao Zhonghao, Zhu Chunyu. Preparation and heat storage characteristics of high-temperature phase change macrocapsules of chloride eutectic salt. Solar Energy Materials and Solar Cells, 2024, 274: 112972.
81 Yu Juan, Zhao Shuai, Li Bing, Zhu Chunyu. Interface engineering assisted La1-xSrxCoO3/FeOOH heterostructure as a high-performance electrocatalyst for oxygen evolution reaction. International Journal of Hydrogen Energy, 2024, 80: 949-55.
80 Sheng Nan, Zhu Hongwei, Zhang Lijuan, Zeng Lingxiao, Zhu Chunyu. Macroencapsulation of sodium chloride by a double layer strategy for high temperature phase change thermal storage over 800 °C. Journal of Energy Storage, 2024, 77: 109896.
79 Guo Yunqi, Zhao Bo, Guo Haonan, Ge Yunfei, Sheng Nan, Gariboldi Elisabetta, Zhu Chunyu. Macroencapsulated Al-Si phase change materials for high temperature latent thermal energy storage. Chemical Engineering Journal, 2024, (487): 150390.
78 Guo Pan, Zhou Jun, Wang Chao, Sheng Nan, Rao Zhonghao, Zhu Chunyu. Improved thermal properties of phase change composites reinforced by Cu nanoparticles modified anisotropic carbon rolls. Applied Thermal Engineering, 2024, 248: 123295.
77 Guo Pan, Zhao Chengzhi, Xu Wang, Sheng Nan, Rao Zhonghao, Zhu Chunyu. Ice templated honeycomb-like porous copper foam to improve the anisotropic thermal transfer property of phase change composites. Journal of Alloys and Compounds, 2024, 991: 174536.
76 Guo Pan, Zhang Dejin, Sheng Nan, Rao Zhonghao, Zhu Chunyu. Honeycomb-like porous copper with pleated surface for supporting phase change material with enhanced thermal conductivity and solar thermal storage performance. Journal of Energy Storage, 2024, 80: 110365.
75 Guo Pan, Wang Chao, Zhou Jun, Liu Hongzhi, Sheng Nan, Rao Zhonghao, Zhu Chunyu. Inspired by heat exchanger fins: Enhanced thermal properties of flexible phase change composites with copper reticulated nanofin-modified carbon fiber mat reinforcement. International Journal of Heat and Mass Transfer, 2024, 231: 125851.
74 Deng Min, Xu Yunhui, Gao Kaiqing, Zhao Chengzhi, Sheng Nan, Zhu Chunyu, Rao Zhonghao. A graphene nanoflake-based flexible composite phase change material for enhanced heat dissipation in chip cooling. Applied Thermal Engineering, 2024, 245: 122908.
73 Chen Rui, Li Deheng, Sheng Nan, Zhu Chunyu. Direct synthesis of porous aluminum nitride foams for enhancing heat transfer and anti-leakage performance of phase change materials. Thermochimica Acta, 2024, 734: 179706.
72 Zhu Ruijie, Xiong Zetao, Yang Huijun, Wang Ning, Kitano Sho, Zhu Chunyu*, Aoki Yoshitaka, Habazaki Hiroki. Anode/Cathode Dual-Purpose Aluminum Current Collectors for Aqueous Zinc-Ion Batteries. Advanced Functional Materials, 2023, 33(8): 2211274.
71 Zhu Chunyu*, Zhao Bo, Takata Manami, Aoki Yoshitaka, Habazaki Hiroki. Biomass derived porous carbon for superior electrocatalysts for oxygen reduction reaction. Journal of Applied Electrochemistry, 2023, 53: 1379–88.
70 Zhu Chunyu*, Liu Renjie, Lu Jiahui, Sheng Nan. Preparation of micro-encapsulated low-melting-point Sn-Bi alloy for latent heat storage. Energy Technology, 2023, 11: 2201068.
69 Zhao Chengzhi, He Xingwei, Sheng Nan, Zhu Chunyu*. Directional fiber framework wrapped by graphene flakes for supporting phase change material with fast thermal energy storage properties. Journal of Energy Storage, 2023, 57: 106304.
68 Zhao Chengzhi, Guo Pan, Sheng Nan, Zhu Chunyu*, Rao Zhonghao. Cloth-derived anisotropic carbon scroll attached with 2D oriented graphite layers for supporting phase change material with efficient thermal storage. Chemical Engineering Journal, 2023, 454: 139999.
67 Zhao Chengzhi, Guo Pan, Sheng Nan, Zhu Chunyu*. Bionic woven SiC porous scaffold with enhanced thermal transfer, leakage-resistant and insulation properties to support phase change materials. Thermochimica Acta, 2023, 719: 179409.
66 Zhao Bo, Liu Renjie, Sheng Nan, Mahmoudi Yasser, Zhu Chunyu*. Copper–Alumina Capsules for High-Temperature Thermal Energy Storage. ACS Applied Engineering Materials, 2023, 1(5): 1335-42.
65 Zhao Bo, Li Chunbo, Zhu Ruijie, Sheng Nan, Zhu Chunyu*. Facile synthesis of porous AlN@C supporting material for stabilizing phase change thermal storage material. Materials Chemistry and Physics, 2023, 301: 127708.
64 Zhao Bo, Guo Yunqi, Wang Chongbo, Zeng Lingxiao, Gao Kaiqing, Sheng Nan, Gariboldi Elisabetta, Zhu Chunyu*. Development of over 3000 cycles durable macro-encapsulated aluminum with cavity by a sacrificial layer method for high temperature latent heat storage. Chemical Engineering Journal, 2023, 457: 141352.
63 Zeng Lingxiao, Zhang Lijuan, Zhu Hongwei, Sheng Nan, Zhu Chunyu*. Macroencapsulated carbonate eutectic salt phase change material with high durability for high temperature heat storage. Solar Energy Materials and Solar Cells, 2023, 256: 112338.
62 Si Xiangru, Zhu Ruijie, Yang Yang, Yang Huijun, Sheng Nan, Zhu Chunyu*. Ice crystal sublimation for easily producing MnO2 cathode with hierarchically porous structure and high cyclic reversibility. Nanoscale, 2023.
61 Shi Songcen, Liu Renjie, Sheng Nan, Zhu Chunyu*, Rao Zhonghao. Shape stabilized Al-Si/Al2O3 phase change composites for high temperature heat storage. Journal of Energy Storage, 2023, 58: 106425.
60 Liu Renjie, Zhao Bo, Sheng Nan, Zhu Chunyu*. Synthesis of Al@Al2O3 microcapsules by a triple-coating method for high-temperature thermal energy storage. Journal of Energy Storage, 2023, 68: 107843.
59 Guo Pan, Sheng Nan, Zhu Ruijie, Zhu Chunyu*, Rao Zhonghao. Improved Anisotropic Thermal Transfer Property of Form-Stable Phase Change Material Supported by 3D Bionic Porous Copper. ACS Sustainable Chemistry & Engineering, 2023, 11(8): 3324-33.
58 Ge Yunfei, Sheng Nan, Zhu Chunyu*. Macroencapsulated CuSi phase change material by in situ alloying formation for high temperature thermal energy storage over 800 °C. Journal of Energy Storage, 2023, 72: 108258.
57 Deng Min, Zhao Chengzhi, Sheng Nan, Zhu Chunyu*, Rao Zhonghao. Improved Supercooling and Thermal Conductive Properties of Erythritol Using Boron Nitride Nanosheet-Encapsulated Porous Fiber Scaffold. Energy & Fuels, 2023, 37(20): 16131-42.
56 Deng Min, Zhao Chengzhi, Li Jinyang, Sheng Nan, Zhu Chunyu*, Rao Zhonghao. Enhanced thermal performance of hybrid interface materials supported by 3D thermally conductive SiC framework. Ceramics International, 2023, 49(19): 31175-82.
55 Chen Fan, Sheng Nan, Zhu Chunyu*. Topology optimization design of inner fins in spherical phase change capsules. Journal of Energy Storage, 2023, 73: 108834.
54 Zhu Ruijie, Yang Huijun, Cui Wei, Fadillah Laras, Huang Tianhong, Xiong Zetao, Tang Chunmei, Kowalski Damian, Kitano Sho, Zhu Chunyu*, King Daniel R., Kurokawa Takayuki, Aoki Yoshitaka, Habazaki Hiroki. High strength hydrogels enable dendrite-free Zn metal anodes and high-capacity Zn–MnO2 batteries via a modified mechanical suppression effect. Journal of Materials Chemistry A, 2022, 10(6): 3122-33.
53 Zhu Ruijie, Xiong Zetao, Yang Huijun, Huang Tianhong, Jeong Seongwoo, Kowalski Damian, Kitano Sho, Aoki Yoshitaka, Habazaki Hiroki, Zhu Chunyu*. A low-cost and non-corrosive electropolishing strategy for long-life zinc metal anode in rechargeable aqueous battery. Energy Storage Materials, 2022, 46: 223-32.
52 Zhu Chunyu*, Zhao Chengzhi, Chen Zihe, Zhu Ruijie, Sheng Nan, Rao Zhonghao. Anisotropically thermal transfer improvement and shape stabilization of paraffin supported by SiC-coated biomass carbon fiber scaffolds for thermal energy storage. Journal of Energy Storage, 2022, 46: 103866.
51 Zhao Bo, Zhu Ruijie, Sheng Nan, Zhu Chunyu*, Rao Zhonghao. Composite Phase Change Material Supported by Cu Nanoparticles@Carbon Porous Matrix for Photo-Thermal Energy Storage. Energy & Fuels, 2022, 36(17): 10354-63.
50 Sheng Nan, Guo Haonan, Zhu Chunyu*, Rao Zhonghao. Fabrication and characterization of Sn@Viod@Ceramic phase change macrocapsules for medium-temperature thermal storage. Journal of Energy Storage, 2022, 56: 106069.
49 Sheng Nan, Ge Yunfei, Guo Yunqi, Zhu Chunyu*, Rao Zhonghao. Macro-encapsulated metallic phase change material over 1000 °C for high-temperature thermal storage. Solar Energy Materials and Solar Cells, 2022, 239: 111655.
48 Guo Yunqi, Sheng Nan, Zhu Chunyu*. Preparation of Al@Al2O3 Macrocapsules with High Durability for High-Temperature Thermal Storage. ACS Sustainable Chemistry & Engineering, 2022, 10(19): 6426–33.
47 Guo Pan, Zhao Chengzhi, Sheng Nan, Zhu Chunyu*, Rao Zhonghao. Enhancement of solar thermal storage properties of phase change composites supported by modified copper foam. Solar Energy Materials and Solar Cells, 2022, 247: 111950.
46 Chen Zihe, Zhu Ruijie, Sheng Nan, Zhu Chunyu*, Rao Zhonghao. Synchronously improved thermal conductivity and anti-leakage performance for phase change composite by SiC nanowires modified wood carbon. Journal of Energy Storage, 2022, 47: 103567.
45 Chen Zihe, Zhao Chengzhi, Meng Weijia, Sheng Nan, Zhu Chunyu*, Rao Zhonghao. Anisotropically enhancing thermal conductivity of epoxy composite with a low filler load by an AlN/C fiber skeleton. Ceramics International, 2022, 48(12): 17604-10.
44. Ruijie Zhu;Huijun Yang;Laras Fadillah;Zetao Xiong;Damian Kowalski; Chunyu Zhu*; Sho Kitano;Yoshitaka Aoki; Hiroki Habazaki. A lithiophilic carbon scroll as a Li metal host with low tortuosity design and “Dead Li” self-cleaning capability. Journal of Materials Chemistry A 2021,9, 13332-13343.
43. Chunyu Zhu*;Zihe Chen;Ruijie Zhu;Nan Sheng; Zhonghao Rao. Vertically Aligned Al2O3 Fiber Framework Leading to Anisotropically Enhanced Thermal Conductivity of Epoxy Composites. Advanced Engineering Materials 2021,23 (9), 2100327.
42. Bo Zhao;Yuchen Wang;Chongbo Wang;Ruijie Zhu;Nan Sheng;Chunyu Zhu*; Zhonghao Rao. Thermal conductivity enhancement and shape stabilization of phase change thermal storage material reinforced by combustion synthesized porous Al2O3. Journal of Energy Storage 2021,42, 103028.
41. Nan Sheng;Chunyu Zhu *; Zhonghao Rao. Solution combustion synthesized copper foams for enhancing the thermal transfer properties of phase change material. Journal of Alloys and Compounds 2021,871, 159458.
40. Nan Sheng;Jiahui Lu;Jingdong Hu;Ruijie Zhu;Laras Fadillah;Cheng Wang; Chunyu Zhu*;Zhonghao Rao; Hiroki Habazaki. Synthesis of Sn@SnO2 core-shell microcapsules by a self-oxidation strategy for medium temperature thermal storage. Chemical Engineering Journal 2021,420, 129906.
39. Zihe Chen;Ruijie Zhu;Nan Sheng;Chunyu Zhu*; Zhonghao Rao. Synchronously improved thermal conductivity and anti-leakage performance for phase change composite by SiC nanowires modified wood carbon. Journal of Energy Storage 2021, 103567.
38. Zhu, R.; *Zhu, C.; Sheng, N.; Rao, Z.; Aoki, Y.; Habazaki, H. A widely applicable strategy to convert fabrics into lithiophilic textile current collector for dendrite-free and high-rate capable lithium metal anode. Chemical Engineering Journal 2020, 124256.
37. Sheng, N.; Zhu, R.; Nomura, T.; Rao, Z.; *Zhu, C.; Aoki, Y.; Habazaki, H.; Akiyama, T. Anisotropically enhanced heat transfer properties of phase change material reinforced by graphene-wrapped carbon fibers. Solar Energy Materials and Solar Cells 2020,206, 110280.
36. Sheng, N.; Rao, Z.; *Zhu, C.; Habazaki, H. Enhanced thermal performance of phase change material stabilized with textile-structured carbon scaffolds. Solar Energy Materials and Solar Cells 2020,205, 110241.
35. Sheng, N.; Rao, Z.; *Zhu, C.; Habazaki, H. Honeycomb carbon fibers strengthened composite phase change materials for superior thermal energy storage. Applied Thermal Engineering 2020,164, 114493.34
34. Zhu, R.; Sheng, N.; Rao, Z.; *Zhu, C.; Aoki, Y.; Habazaki, H. Employing a T-shirt template and variant of Schweizer's reagent for constructing a low-weight, flexible, hierarchically porous and textile-structured copper current collector for dendrite-suppressed Li metal. Journal of Materials Chemistry A 2019,7 (47), 27066-27073.
33. Sheng, N.; Zhu, R.; Dong, K.; Nomura, T.; *Zhu, C.; Aoki, Y.; Habazaki, H.; Akiyama, T. Vertically aligned carbon fibers as supporting scaffolds for phase change composites with anisotropic thermal conductivity and good shape stability. Journal of Materials Chemistry A 2019,7 (9), 4934-4940.
32. Sheng, N.; Nomura, T.; *Zhu, C.; Habazaki, H.; Akiyama, T. Cotton-derived carbon sponge as support for form-stabilized composite phase change materials with enhanced thermal conductivity. Solar Energy Materials and Solar Cells 2019,192, 8-15.
31. Kim, C.; *Zhu, C.; Aoki, Y.; Habazaki, H. Heteroatom-doped porous carbon with tunable pore structure and high specific surface area for high performance supercapacitors. Electrochimica Acta 2019,314, 173-187.
30. Kim, C.; *Zhu, C.; Aoki, Y.; Habazaki, H. Exothermically Efficient Exfoliation of Biomass Cellulose to Value-Added N-Doped Hierarchical Porous Carbon for Oxygen Reduction Electrocatalyst. Industrial & Engineering Chemistry Research 2019,58 (8), 3047-3059.
29. *Zhu, C.; Takata, M.; Aoki, Y.; Habazaki, H. Nitrogen-doped porous carbon as-mediated by a facile solution combustion synthesis for supercapacitor and oxygen reduction electrocatalyst. Chemical Engineering Journal 2018,350, 278-289.
28 Sheng, N.; Han, C.-g.; *Zhu, C.; Akiyama, T. One-step solution combustion synthesis of K0.5Na0.5NbO3 powders at a large-scale. Ceramics International 2018,44 (15), 18279-18284.
27. Sheng, N.; Han, C.-g.; Lei, Y.; *Zhu, C. Controlled synthesis of Na0.44MnO2 cathode material for sodium ion batteries with superior performance through urea-based solution combustion synthesis. Electrochimica Acta 2018,283, 1560-1567.
26. Cao, J.; *Zhu, C.; Aoki, Y.; Habazaki, H. Starch-Derived Hierarchical Porous Carbon with Controlled Porosity for High Performance Supercapacitors. ACS Sustainable Chemistry & Engineering 2018,6 (6), 7292-7303.
25. *Zhu, C.; Kim, C.; Aoki, Y.; Habazaki, H. Nitrogen-Doped Hierarchical Porous Carbon Architecture Incorporated with Cobalt Nanoparticles and Carbon Nanotubes as Efficient Electrocatalyst for Oxygen Reduction Reaction. Advanced Materials Interfaces 2017,4 (19), 1700583.
24. *Zhu, C.; Aoki, Y.; Habazaki, H. Co9S8 Nanoparticles Incorporated in Hierarchically Porous 3D Few-Layer Graphene-Like Carbon with S,N-Doping as Superior Electrocatalyst for Oxygen Reduction Reaction. Particle & Particle Systems Characterization 2017,34 (11), 1700296.
23. Han, C.-G.; *Zhu, C.; Sheng, N.; Aoki, Y.; Habazaki, H.; Akiyama, T. A facile one-pot synthesis of FeOx/carbon/graphene composites as superior anode materials for lithium-ion batteries. Electrochimica Acta 2017,235, 88-97.
22. Han, C.-G.; *Zhu, C.; Saito, G.; Sheng, N.; Nomura, T.; *Akiyama, T. Enhanced cycling performance of surface-doped LiMn2O4 modified by a Li2CuO2-Li2NiO2 solid solution for rechargeable lithium-ion batteries. Electrochimica Acta 2017,224, 71-79.
21. Han, C.-G.; *Zhu, C.; Aoki, Y.; Habazaki, H.; Akiyama, T. MnO/N–C anode materials for lithium-ion batteries prepared by cotton-templated combustion synthesis. Green Energy & Environment 2017,2 (4), 377-386.
20. Han, C.-G.; Sheng, N.; *Zhu, C.; Akiyama, T. Cotton-assisted combustion synthesis of Fe3O4/C composites as excellent anode materials for lithium-ion batteries. Materials Today Energy 2017,5, 187-195.
19. *Zhu, C.; Han, C.-g.; Saito, G.; Akiyama, T. MnO nanocrystals incorporated in a N-containing carbon matrix for Li ion battery anodes. RSC Advances 2016,6 (36), 30445-30453.
18. *Zhu, C.; Han, C.-g.; Saito, G.; Akiyama, T. Facile synthesis of MnO/carbon composites by a single-step nitrate-cellulose combustion synthesis for Li ion battery anode. Journal of Alloys and Compounds 2016,689, 931-937.
17. *Zhu, C.; Akiyama, T. Cotton derived porous carbon via an MgO template method for high performance lithium ion battery anodes. Green Chemistry 2016,18 (7), 2106-2114.
16. Zhu, C.; Sheng, N.; Akiyama, T. MnO nanoparticles embedded in a carbon matrix for a high performance Li ion battery anode. RSC Advances 2015,5 (27), 21066-21073.
15. Zhu, C.; Saito, G.; Akiyama, T. A facile solution combustion synthesis of nanosized amorphous iron oxide incorporated in a carbon matrix for use as a high-performance lithium ion battery anode material. Journal of Alloys and Compounds 2015,633 (0), 424-429.
14. Zhu, C.; Saito, G.; Akiyama, T. Urchin-like hollow-structured cobalt oxides with excellent anode performance for lithium-ion batteries. Journal of Alloys and Compounds 2015,646 (0), 639-646.
13. Zhu, C.; Han, C.-g.; Akiyama, T. Controlled synthesis of LiNi0.5Mn1.5O4 cathode materials with superior electrochemical performance through urea-based solution combustion synthesis. RSC Advances 2015,5 (62), 49831-49837.
12. Zhu, C.; Nobuta, A.; Saito, G.; Nakatsugawa, I.; Akiyama, T. Solution combustion synthesis of LiMn2O4 fine powders for lithium ion batteries. Advanced Powder Technology 2014,25 (1), 342-347.
11. Zhu, C.; Akiyama, T. Designed synthesis of LiNi0.5Mn1.5O4 hollow microspheres with superior electrochemical properties as high-voltage cathode materials for lithium-ion batteries. RSC Advances 2014,4 (20), 10151-10156.
10. Zhu, C.; Akiyama, T. Optimized conditions for glycine-nitrate-based solution combustion synthesis of LiNi0.5Mn1.5O4 as a high-voltage cathode material for lithium-ion batteries. Electrochimica Acta 2014,127 (0), 290-298.
9. Zhu, C.; Saito, G.; Akiyama, T. A new CaCO3-template method to synthesize nanoporous manganese oxide hollow structures and their transformation to high-performance LiMn2O4 cathodes for lithium-ion batteries. Journal of Materials Chemistry A 2013,1 (24), 7077-7082.
8. Zhu, C.; Nobuta, A.; Nakatsugawa, I.; Akiyama, T. Solution combustion synthesis of LaMO3 (M = Fe, Co, Mn) perovskite nanoparticles and the measurement of their electrocatalytic properties for air cathode. International Journal of Hydrogen Energy 2013,38 (30), 13238-13248.
7. Zhu, C.; Nobuta, A.; Ju, Y.-W.; Ishihara, T.; Akiyama, T. Solution combustion synthesis of Ce0.6Mn0.3Fe0.1O2 for anode of SOFC using LaGaO3-based oxide electrolyte. International Journal of Hydrogen Energy 2013,38 (30), 13419-13426.
6. Zhu, C.; Hosokai, S.; Akiyama, T. Direct synthesis of MgH2 nanofibers from waste Mg. International Journal of Hydrogen Energy 2012,37 (10), 8379-8387.
5. Zhu, C.; Akiyama, T. Zebra-Striped Fibers in Relation to the H2 Sorption Properties for MgH2 Nanofibers Produced by a Vapor–Solid Process. Crystal Growth & Design 2012,12 (8), 4043-4052.
4. Zhu, C.; Sakaguchi, N.; Hosokai, S.; Watanabe, S.; Akiyama, T. In situ transmission electron microscopy observation of the decomposition of MgH2 nanofiber. International Journal of Hydrogen Energy 2011,36 (5), 3600-3605.
3. Zhu, C.; Hosokai, S.; Akiyama, T. Growth Mechanism for the Controlled Synthesis of MgH2/Mg Crystals via a Vapor–Solid Process. Crystal Growth & Design 2011,11 (9), 4166-4174.
2. Zhu, C.; Hosokai, S.; Matsumoto, I.; Akiyama, T. Shape-Controlled Growth of MgH2/Mg Nano/Microstructures Via Hydriding Chemical Vapor Deposition. Crystal Growth & Design 2010,10 (12), 5123-5128.
1. Zhu, C.; Hayashi, H.; Saita, I.; Akiyama, T. Direct synthesis of MgH2 nanofibers at different hydrogen pressures. International Journal of Hydrogen Energy 2009,34 (17), 7283-7290.
中文论文
5. 盛楠, 刘韧婕, 卢家辉, 朱春宇*, 饶中浩. 氧化铝包覆金属锡相变微胶囊的制备及相变性能研究. 工程热物理学报, 2023, 44(10): 2663-72.
4. 陈健鑫, 盛楠,朱春宇*,饶中浩, 纤维素基生物质多孔碳的制备及其超级电容器性能研究, 化工学报, 73 (2022) 4194-4206.
3. 陈子禾; 赵呈志; 冒文莉; 盛楠; 朱春宇*. 定向生物质多孔碳复合相变材料的制备及其热性能研究. 化工学报 73 (2022) 1817-1825.
2. 陈健鑫; 盛楠; 朱春宇*; 饶中浩. 生物质碳负载镍基纳米颗粒及其电解水析氢性能研究. 储能科学与技术 11 (2022) 1350-1357.
1. 盛楠 郭云琪, 朱春宇*, 饶中浩. 基于模板法制备氧化铝纤维及其石蜡复合相变材料热性能. 储能科学与技术 2022,11 (2), 511-520.
其他合作论文:
48. Jiahui Lu;Nan Sheng; Chunyu Zhu. Fabrication of Sn@SiO2 core-shell microcapsules with high durability for medium-temperature thermal energy storage. Solar Energy Materials and Solar Cells 2022,239, 111652.
47. Ryota Yamamoto;Damian Kowalski;Ruijie Zhu;Keisuke Wada;Yuki Sato;Sho Kitano;Chunyu Zhu;Yoshitaka Aoki; Hiroki Habazaki. Fabrication of superhydrophobic copper metal nanowire surfaces with high thermal conductivity. Applied Surface Science 2021,537, 147854.
46. Ning Wang;Satoshi Hinokuma;Toshiaki Ina;Chunyu Zhu;Hiroki Habazaki; Yoshitaka Aoki. Mixed proton–electron–oxide ion triple conducting manganite as an efficient cobalt-free cathode for protonic ceramic fuel cells. Journal of Materials Chemistry A 2020.
45. Tomohiro Inoue;Akira Koyama;Damian Kowalski;Chunyu Zhu;Yoshitaka Aoki; Hiroki Habazaki. Fluorine-Free Slippery Liquid-Infused Porous Surfaces Prepared Using Hierarchically Porous Aluminum. physica status solidi (a) 2020,217 (13), 1900836.
44. Jeong, S.; Yamaguchi, T.; Okamoto, M.; Zhu, C.; Habazaki, H.; Nagayama, M.; Aoki, Y. Proton Pumping Boosts Energy Conversion in Hydrogen-Permeable Metal-Supported Protonic Fuel Cells. ACS Applied Energy Materials 2020.
43. Yamada, N.; Kowalski, D.; Koyama, A.; Zhu, C.; Aoki, Y.; Habazaki, H. High dispersion and oxygen reduction reaction activity of Co3O4 nanoparticles on platelet-type carbon nanofibers. RSC Advances 2019,9 (7), 3726-3733.
42. Wang, N.; Hinokuma, S.; Ina, T.; Toriumi, H.; Katayama, M.; Inada, Y.; Zhu, C.; Habazaki, H.; Aoki, Y. Incorporation of Bulk Proton Carriers in Cubic Perovskite Manganite Driven by Interplays of Oxygen and Manganese Redox. Chemistry of Materials 2019,31 (20), 8383-8393.
41. Sheng, N.; Zhu, C.; Sakai, H.; Hasegawa, Y.; Akiyama, T.; Nomura, T. Modified preparation of Al2O3@Al-Si microencapsulated phase change material for high-temperature thermal storage with high durability over 3000 cycles. Solar Energy Materials and Solar Cells 2019,200, 109925.
40. Sheng, N.; Zhu, C.; Sakai, H.; Akiyama, T.; Nomura, T. Synthesis of Al-25 wt% Si@Al2O3@Cu microcapsules as phase change materials for high temperature thermal energy storage. Solar Energy Materials and Solar Cells 2019,191, 141-147.
39. Sheng, N.; Dong, K.; Zhu, C.; Akiyama, T.; Nomura, T. Thermal conductivity enhancement of erythritol phase change material with percolated aluminum filler. Materials Chemistry and Physics 2019,229, 87-91.
38. Sato, Y.; Kobayashi, H.; Kowalski, D.; Koyama, A.; Zhu, C.; Aoki, Y.; Suto, M.; Habazaki, H. Ultra-rapid formation of crystalline anatase TiO2 films highly doped with substrate species by a cathodic deposition method. Electrochemistry Communications 2019,108, 106561.
37. Liu, C.; Xu, Z.; Song, Y.; Lv, P.; Zhao, J.; Liu, C.; Huo, Y.; Xu, B.; Zhu, C.; Rao, Z. A novel shape-stabilization strategy for phase change thermal energy storage. Journal of Materials Chemistry A 2019,7 (14), 8194-8203.
36. Fadillah, L.; Takase, K.; Kobayashi, H.; Turczyniak-Surdacka, S.; Strawski, M.; Kowalski, D.; Zhu, C.; Aoki, Y.; Habazaki, H. The role of tungsten species in the transition of anodic nanopores to nanotubes formed on iron alloyed with tungsten. Electrochimica Acta 2019,309, 274-282.
35. Sheng, N.; Zhu, C.; Saito, G.; Hiraki, T.; Haka, M.; Hasegawa, Y.; Sakai, H.; Akiyama, T.; Nomura, T. Development of a microencapsulated Al–Si phase change material with high-temperature thermal stability and durability over 3000 cycles. Journal of Materials Chemistry A 2018,6 (37), 18143-18153.
34. Shahzad, K.; Kowalski, D.; Zhu, C.; Aoki, Y.; Habazaki, H. Ex Situ Evidence for the Role of a Fluoride-Rich Layer Switching the Growth of Nanopores to Nanotubes: A Missing Piece of the Anodizing Puzzle. ChemElectroChem 2018,5 (4), 610-618.
33. Nakayama, K.; Koyama, A.; Zhu, C.; Aoki, Y.; Habazaki, H. Rapid and Repeatable Self-Healing Superoleophobic Porous Aluminum Surface Using Infiltrated Liquid Healing Agent. Advanced Materials Interfaces 2018,5 (19), 1800566.
32. Kura, C.; Fujimoto, S.; Kunisada, Y.; Kowalski, D.; Tsuji, E.; Zhu, C.; Habazaki, H.; Aoki, Y. Enhanced hydrogen permeability of hafnium nitride nanocrystalline membranes by interfacial hydride conduction. Journal of Materials Chemistry A 2018,6 (6), 2730-2741.
31. Kobayashi, T.; Kuroda, K.; Jeong, S.; Kwon, H.; Zhu, C.; Habazaki, H.; Aoki, Y. Analysis of the Anode Reaction of Solid Oxide Electrolyzer Cells with BaZr0.4Ce0.4Y0.2O3-δ Electrolytes and Sm0.5Sr0.5CoO3-δ Anodes. Journal of The Electrochemical Society 2018,165 (5), F342-F349.
30. Kasuga, A.; Koyama, A.; Nakayama, K.; Kowalski, D.; Zhu, C.; Aoki, Y.; Habazaki, H. Fabrication of Superoleophobic Surface on Stainless Steel by Hierarchical Surface Roughening and Organic Coating. ISIJ International 2018,advpub.
29. Jeong, S.; Kobayashi, T.; Kuroda, K.; Kwon, H.; Zhu, C.; Habazaki, H.; Aoki, Y. Evaluation of thin film fuel cells with Zr-rich BaZrxCe0.8−xY0.2O3−δ electrolytes (x ≥ 0.4) fabricated by a single-step reactive sintering method. RSC Advances 2018,8 (46), 26309-26317.
28. Cao, J.-H.; Sato, Y.; Kowalski, D.; Zhu, C.; Aoki, Y.; Cheng, Y.; Habazaki, H. Highly increased breakdown potential of anodic films on aluminum using a sealed porous layer. Journal of Solid State Electrochemistry 2018.
27. Aoki, Y.; Yamaguchi, T.; Kobayashi, S.; Kowalski, D.; Zhu, C.; Habazaki, H. High-Efficiency Direct Ammonia Fuel Cells Based on BaZr0.1Ce0.7Y0.2O3−δ/Pd Oxide-Metal Junctions. Global Challenges 2018,2 (1), 1700088-n/a.
26. Ohyama, J.; Zhu, C.; Saito, G.; Haga, M.; Nomura, T.; Sakaguchi, N.; Akiyama, T. Combustion synthesis of YAG:Ce phosphors via the thermite reaction of aluminum. Journal of Rare Earths 2017.
25. Nomura, T.; Sheng, N.; Zhu, C.; Saito, G.; Hanzaki, D.; Hiraki, T.; Akiyama, T. Microencapsulated phase change materials with high heat capacity and high cyclic durability for high-temperature thermal energy storage and transportation. Applied Energy 2017,188, 9-18.
24. Nakayama, K.; Hiraga, T.; Zhu, C.; Tsuji, E.; Aoki, Y.; Habazaki, H. Facile preparation of self-healing superhydrophobic CeO2 surface by electrochemical processes. Applied Surface Science 2017,423, 968-976.
23. Kura, C.; Kunisada, Y.; Tsuji, E.; Zhu, C.; Habazaki, H.; Nagata, S.; Müller, M. P.; De Souza, R. A.; Aoki, Y. Hydrogen separation by nanocrystalline titanium nitride membranes with high hydride ion conductivity. Nature Energy 2017,2 (10), 786-794.
22. Habazaki, H.; Kobayashi, K.; Tsuji, E.; Zhu, C.; Aoki, Y.; Nagata, S. Highly increased capacitance and thermal stability of anodic oxide films on oxygen-incorporated Zr-Ti alloy. Journal of Solid State Electrochemistry 2017, 1-10.
21. Aoki, Y.; Yamaguchi, T.; Kobayashi, S.; Zhu, C.; Habazaki, H. High Efficiency Direct Ammonia Type Fuel Cells based on BaZrxCe0.8-XY0.2O3/Pd Oxide-Metal Junctions. ECS Transactions 2017,78 (1), 1511-1515.
20. Aoki, Y.; Yamaguchi, T.; Kobayashi, S.; Zhu, C.; Habazaki, H. High Efficiency Hydrogen Membrane Fuel Cells with BaCe0.8Y0.2O3-δ Electrolyte Thin Films and Pd1-xAgx Solid Anodes. Journal of The Electrochemical Society 2017,164 (6), F577-F581.
19. Aoki, Y.; Kuroda, K.; Hinokuma, S.; Kura, C.; Zhu, C.; Tsuji, E.; Nakao, A.; Wakeshima, M.; Hinatsu, Y.; Habazaki, H. Low-Temperature Oxygen Storage of CrIV–CrV Mixed-Valence YCr1–xPxO4−δ Driven by Local Condensation around Oxygen-Deficient Orthochromite. Journal of the American Chemical Society 2017,139 (32), 11197-11206.
18. Wang, T.; Wang, S.; Luo, R.; Zhu, C.; Akiyama, T.; Zhang, Z. Microencapsulation of phase change materials with binary cores and calcium carbonate shell for thermal energy storage. Applied Energy 2016,171, 113-119.
17. Shahzad, K.; Zhu, C.; Tsuji, E.; Aoki, Y.; Nagata, S.; Habazaki, H. Growth of Barrier Type Anodic Film on Magnesium in Ethylene Glycol-Water Mixed Electrolytes Containing Fluoride and Phosphate. Materials Transactions 2016,57 (9), 1552-1559.
16. Saito, G.; Zhu, C.; Han, C.-G.; Sakaguchi, N.; Akiyama, T. Solution combustion synthesis of porous Sn–C composite as anode material for lithium ion batteries. Advanced Powder Technology 2016,27 (4), 1730-1737.
15. Nomura, T.; Zhu, C.; Nan, S.; Tabuchi, K.; Wang, S.; Akiyama, T. High thermal conductivity phase change composite with a metal-stabilized carbon-fiber network. Applied Energy 2016,179, 1-6.
14. Han, C.-G.; Zhu, C.; Saito, G.; Akiyama, T. Improved electrochemical performance of LiMn2O4 surface-modified by a Mn4+-rich phase for rechargeable lithium-ion batteries. Electrochimica Acta 2016,209, 225-234.
13. Fukahori, R.; Nomura, T.; Zhu, C.; Sheng, N.; Okinaka, N.; Akiyama, T. Thermal analysis of Al–Si alloys as high-temperature phase-change material and their corrosion properties with ceramic materials. Applied Energy 2016,163, 1-8.
12. Fukahori, R.; Nomura, T.; Zhu, C.; Sheng, N.; Okinaka, N.; Akiyama, T. Macro-encapsulation of metallic phase change material using cylindrical-type ceramic containers for high-temperature thermal energy storage. Applied Energy 2016,170, 324-328.
11. Saito, G.; Nakasugi, Y.; Sakaguchi, N.; Zhu, C.; Akiyama, T. Glycine–nitrate-based solution-combustion synthesis of SrTiO3. Journal of Alloys and Compounds 2015,652, 496-502.
10. Nomura, T.; Zhu, C.; Sheng, N.; Tabuchi, K.; Sagara, A.; Akiyama, T. Shape-stabilized phase change composite by impregnation of octadecane into mesoporous SiO2. Solar Energy Materials and Solar Cells 2015,143, 424-429.
9. Nomura, T.; Zhu, C.; Sheng, N.; Saito, G.; Akiyama, T. Microencapsulation of Metal-based Phase Change Material for High-temperature Thermal Energy Storage. Sci. Rep. 2015,5.
8. Nomura, T.; Zhu, C.; Sheng, N.; Murai, R.; Akiyama, T. Solution combustion synthesis of Brownmillerite-type Ca2AlMnO5 as an oxygen storage material. Journal of Alloys and Compounds 2015,646 (0), 900-905.
7. Nomura, T.; Zhu, C.; Sagara, A.; Okinaka, N.; Akiyama, T. Estimation of thermal endurance of multicomponent sugar alcohols as phase change materials. Applied Thermal Engineering 2015,75 (0), 481-486.
6. Nomura, T.; Tabuchi, K.; Zhu, C.; Sheng, N.; Wang, S.; Akiyama, T. High thermal conductivity phase change composite with percolating carbon fiber network. Applied Energy 2015,154 (0), 678-685.
5. Luo, R.; Wang, S.; Wang, T.; Zhu, C.; Nomura, T.; Akiyama, T. Fabrication of paraffin@SiO2 shape-stabilized composite phase change material via chemical precipitation method for building energy conservation. Energy and Buildings 2015,108, 373-380.
4. Han, C.-G.; Zhu, C.; Saito, G.; Akiyama, T. Glycine/sucrose-based solution combustion synthesis of high-purity LiMn2O4 with improved yield as cathode materials for lithium-ion batteries. Advanced Powder Technology 2015,26 (2), 665-671.
3. Han, C.-G.; Zhu, C.; Saito, G.; Akiyama, T. Improved electrochemical properties of LiMn2O4 with the Bi and La co-doping for lithium-ion batteries. RSC Advances 2015,5 (89), 73315-73322.
2. Deguchi, M.; Yasuda, N.; Zhu, C.; Okinaka, N.; Akiyama, T. Combustion synthesis of TiFe by utilizing magnesiothermic reduction. Journal of Alloys and Compounds 2015,622 (0), 102-107.
1. Saito, G.; Zhu, C.; Akiyama, T. Surfactant-assisted synthesis of Sn nanoparticles via solution plasma technique. Advanced Powder Technology 2014,25 (2), 728-732.