Luo Yong
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Paper Publications
- Qu, Luping,Yang, Chao,Luo Yong,Li, Cong,Cui, Jiaolin.Band Structure and Phonon Transport Engineering Realizing Remarkable Improvement in Thermoelectric Performance of Cu2SnSe4 Incorporated with In2Te3,2022,卷: 14期: 40页: 45628-45635
- Yang, Hongli,Zhang, Dongdong,Luo Yong,Yang, Wenxiang,Zhan, Xiaoqiang,Yang, Weiyou,Hou, Huilin.Highly Efficient and Selective Visible-Light Driven Photoreduction of CO2 to CO by Metal-Organic Frameworks-Derived Ni-Co-O Porous Microrods,2022,卷: 18期: 40
- 杨超,Luo Yong,Xia, Yafen,Fang, Teng,Du, Zhengliang,Li, Xie,Cui, Jiaolin.Improved Thermoelectric Performance of p-Type Argyrodite Cu8GeSe6 via the Simultaneous Engineering of the Electronic and Phonon Transports,2022,卷: 14期: 14页: 16330-16337
- 杨超,Xia, Yafen,Xu, Liangliang,Luo Yong,Li, Xie,Han, Zhongkang,Cui, Jiaolin.Enhancement of thermoelectric performance of argyrodite Ag8GeSe6 via isoelectronic substitution of Sn for Ge,2021,v 426,
- Yang, Hongli,Tang, Jiaqi,Luo Yong,Zhan, Xiaoqiang,Liang, Zhao,Jiang, Lan,Hou, Huilin,Yang, Weiyou.MOFs-Derived Fusiform In2O3 Mesoporous Nanorods Anchored with Ultrafine CdZnS Nanoparticles for Boosting Visible-Light Photocatalytic Hydrogen Evolution,2021
- He, Song,Luo Yong,Xu, Liangliang,Wang, Yue,Han, Zhongkang,Li, Xie,Cui, Jiaolin.Remarkable Improvement of Thermoelectric Performance in Ga and Te Cointroduced Cu3SnS4,2021,卷: 60期: 15页: 11120-11128
- Sun, Xiaolei,Luo Yong,Wang, Junyang,wangqingliang,qiaojianghao,Beadling, Andrew,Bryant, Michael,Jin, Zhongmin.Structure, tribological properties, and the growth mechanism of in-situ generated TiC in titanium cermet,2021
- 杨超,Luo Yong,Li, Xie,Cui, Jiaolin.N-type thermoelectric Ag8SnSe6 with extremely low lattice thermal conductivity by replacing Ag with Cu,2021,卷: 11期: 6页: 3732-3739
- Zhong, Yaqiong,Luo Yong,Li, Xie,Cui, Jiaolin.Significant Improvement in Thermoelectric Performance of AgInSe2-Based Composites through In Situ Formation of Ag2Se,2020,卷: 3期: 12页: 12468-12474
- 仲亚琼,Luo Yong,Li, Xie,Cui, Jiaolin.Silver vacancy concentration engineering leading to the ultralow lattice thermal conductivity and improved thermoelectric performance of Ag1-xInTe2,2019,卷: 9
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