发表论文:
[1] Meng Y., Song Z. X., Qian D., Dai W. J., Wang J. F., Ma F., Li Y. H. & Xu K. W.. Thermal stability of RuZr alloy thin films as the diffusion barrier in Cu metallization[J]. Journal of Alloys and Compounds, 2014, 588: 461-464. IF=3.014
[2] Li Y., Qian D., Xue J., Wan J., Zhang A., Tamura N., Song Z., & Chen K.. A synchrotron study of defect and strain inhomogeneity in laser-assisted three-dimensionally-printed Ni-based superalloy[J]. Applied Physics Letters, 2015, 107(18): 181902. IF=3.142
[3] Xue, J., Zhang A., Li, Y., Qian, D., Wan J., Qi B., Tamura N., Song Z., & Chen K.. A synchrotron study of microstructure gradient in laser additively formed epitaxial Ni-based superalloy[J]. Scientific reports, 2015, 5. IF=5.228
[4] Qian D., Zhang A., J Zhu., Li Y., Zhu W., Qi B., Tamura N., Li D., Song Z., Chen K.. Hardness and microstructural inhomogeneity at the epitaxial interface of laser 3D-printed Ni-based superalloy. Applied Physics Letters, 2016, 109(10): 101907 (Editor's pick) IF=3.142
[5] Qian D., Xue J., Zhang A., Li Y., Zhu W., Tamura N., Li D., Song Z., Chen K.. Statistical study of ductility-dip cracking induced plastic deformation in polycrystalline laser 3D printed Ni-based superalloy. Scientific reports, 7:2859. (2017). IF=5.228
[6] Xue J., Li Y., Hao L., Gao L., Qian D.*, Song Z., Chen J.. Investigation on the interfacial stability of multilayered Cu-W films at elevated deposition temperatures during co-sputtering[J]. Vacuum, 2019, 166: 162-169
[7] Jiawei Xue, Yanhuai Li, Leiwen Gao, Dan Qian, Zhongxiao Song, Xiaohua Wang, Xiaodong Zhu, Jian Chen,. Effects of periods on the evolution of microstructure and mechanical properties of multilayered Cu-W films during thermal annealing[J]. Surface & Coatings Technology, 2019, 381 (2020) 125179.
[8] Chen D., Ning P., Zhang Y., Jing J., Zhang M., Song B., Huang J., He X., Fu Tao., Song Z., He G., Qian D., Zhu X.. Ta@ Ag porous array with high stability and biocompatibility for SERS sensing of bacteria[J]. ACS applied materials & interfaces, 2020, 12(17): 20138-20144.
[9] Hua, D., Xia, Q., Wang, W., Zhou, Q., Li, S., Qian, D.*, ... & Wang, H. Atomistic insights into the deformation mechanism of a CoCrNi medium entropy alloy under nanoindentation[J]. International Journal of Plasticity, 2021: 102997. IF=6.490
[10] 苗晓军,李凯,钱旦*,李玉楼,杨波,李雁淮,庞亚娟,郝留成,宋忠孝; 磁控溅射过饱和固溶CuCr合金薄膜微观结构及其力学性能研究[J],2021,5(8):
[11] Qian D.*, Fang C., Wang Q., Wang X., et al. Improving the oxidation resistance of 06Cr18Ni11Ti stainless steel in simulated PWR primary water by magnetron sputtering[J]. Applied Surface Sciences, Under Review.
[12] Li Kai, Miao Xiaojun, Qian Dan*, Li Yulou, Meng Yu, Pang Yajuan, Yang Bo, Li Yanhuai, Hao Liucheng, Fan Yanyan, Song Zhongxiao. The arc erosion resistance of CuCrMo film deposited by Magnetic Sputtering[J]. Materials Research Express. 2021, 8(6): 066402..
[13] Baorui Song; Yanhuai Li; Chaozheng Zhou; Yu Meng; Yangyang Liu; Dan Qian; Liuquan Yang; Yongjing Wang. Dynamic and Quasi-static Deformation of Sandwich-structured TaNbHfZr High Entropy Alloy Film: Microstructure and Mechanisms[J]. International Journal of Plasticity, Under Review.
[14] Li Long; Zhang Na; Su Ya-Qiong; Zhao Jing; Song Zhongxiao; Qian Dan; Wu Hu; Tahir Muhammad; Saeed Alam; Ding Shujiang. Fluorine Dissolution Induced Capacity Degradation for Fluorophosphate based Cathode Materials[J]. ACS Applied Materials & Interfaces. 2021.
[15] Wang, Y. J., Feng, C. X., Zhang, Z. J., Qian, D., & Song, Z. X. (2022). Compressive Property of Additively-Manufactured Micro-Architectures with X-Type Lattice Unit Cell. Materials, 15(11), 3815.
[16]Wang, Y. J., Qian, D., Chen, Y. Q., Zhang, Z. J., & Song, Z. X. (2022). Effect of plate lattice-filling on the compressive mechanical property of 3D-printed square honeycombs. Journal of Sandwich Structures & Materials, 24(3), 1580-1596.
专利:
[1]一种涂覆材料、带有涂覆层的采煤机截齿齿体及制备方法. 专利号: ZL201410081498.9; 授权日: 2016.04.27.
[2]一种用于采煤机的截齿刀头的硬质合金材料及其制备方法. 专利号: ZL201410081657.5; 授权日: 2016.04.27.
[3]一种表面双层结构压铸模具及其制备方法. 申请号: 201711409123.0; 公开日:2017-12-22.
[4]一种表面双层耐热层压铸模具及其制备方法. 申请号: 201711406157.4; 公开日:2017-12-22.
[5]一种高强合金与耐热陶瓷叠层涂层压铸模具及其制备方法. 专利号: ZL201711408103.1; 公开日:2017-12-22.
[6]一种塑性金属陶瓷叠层涂层压铸模具及其制备方法. 申请号: 201711409095.2; 公开日:2017-12-22.
[7]一种具有拉伸预应力陶瓷层抗粘附压铸模具及其制备方法. 专利号: ZL201711415481.2; 公开日:2017-12-22.
[8]一种表面复合结构抗冲击涂层压铸模具及其制备方法. 申请号: 201711409118.X; 公开日:2017-12-22.
[9]一种银钽复合材料构建的有序多孔阵列及其制备方法. 专利号: ZL201810797632.3;公开日:2019-01-08.
[10]一种具有电致变色性能的W18O49/WO3复合薄膜及其制备方法. 专利号:ZL201910008602.4; 公开日:2019-01-04.
[11]一种基于溶剂热合成法的气相蒸镀成膜方法及其合成薄膜. 专利号:ZL201910009274.X; 公开日:2019-01-04.
[12]一种镀钨金刚石颗粒、镀钨方法、其作为铜基增强相的应用及得到的金刚石/铜复合材料. 专利号:ZL201910797397.4; 公开日:2019-11-12.
[13]一种改性金刚石颗粒、改性方法、作为增强相的应用及得到的金属基复合材料. 专利号:ZL201910797399.3; 公开日:2019-11-12.
[14]一种耐腐蚀性医用磁铁的制备及其检测方法. 申请号:CN201910470828.6; 公开日20201201
[15]一种改善Ag微纳薄膜生物相容性的方法及其膜的应用. 申请号:CN201911066829.0; 公开日:2020022