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[2]Y. Yan, X. Xiao, Q. Nie et al., Photonics Reviews, 2400907 (2024).

[3]H. Wang, B. Xie, W. Ren , Science China Physics, Mechanics & Astronomy, 67, 117011 (2024).

[4]W. Liu, G. Zhang, T. Hu et al., ACS APPLIED MATERIALS & INTERFACES, 16, 34 (2024).

[5]Y. Hu, H. Gao, W. Ren, Physical Review B, 110, 054106 (2024).

[6]T. Bachagha, W. Ren, C. Jing, JOURNAL OF ALLOYS AND COMPOUNDS, 1004, 175632 (2024).

[7]M. Yan, H. Wang, W. Wei, T. Zhu, G. Cao, J Zhong, W. Ren, APL Materials, 12, 081121 (2024).

[8]R. Gao, C. Liu, B. Shi et al., Chinese Physics Letters, 41, 087701 (2024).

[9]X. Yang, P. Guo, S. Hu et al., Physical Chemistry Chemical Physics, 26, 32 (2024).

[10]Q. Lv et al., Chinese Journal of Catalysis, 62 (2024).

[11]Z. Zhai, Q. Chen, Y. Wang, W. Ren, P. Guo, The Journal of Chemical Physics, 160, 234704 (2024).

[12]L. Qiao, M. Li, Y. Cui, S. Xu, JR. Reimers, W. Ren, Nano Letters, 24 (21): 6403-6409 (2024).

[13]Y. Li et al., Science China Materials, 67 (7): 2142-2152 (2024).

[14]F. Jia, Z. Tang, GJ. Cruz, W. Gao, S. Xu, W. Ren, P. Zhang, Physical Review Applied, 21, 054019 (2024).

[15]H. Yu, Y. Zhong, L. Hong, C. Xu, W. Ren, X. Gong, H. Xiang, Physical Review B, 109, 144426 (2024).

[16]W. Yuan, B. Yao, X. Li, S. Hu, W. Ren, ACTA PHYSICA SINICA, 73, (8) (2024).

[17]Z. Li, Y. Chen, J. Yuan et al., ACS Applied Electronic Materials, 6 (4) 103999 (2024).

[18]Y. Meng, F. Jia, S. Xu et al., Physical Review B, 109, 104430 (2024).

[19]C. Liu, W. Ren, S. Picozzi, Physical Review Letters, 132, 086802 (2024).

[20]H. Wang, B. Shi, W. Jiang et al., Surfaces and Interfaces, 46, 103999 (2024).

[21]L. Qiao et al., Physical Chemistry Chemical Physics, 26 (11) (2024).

[22]Z. Zhang, FY. Gao et al., NATURE PHYSICS, 20 (5) (2024)

[23]Z. Ye, F. Jia, S. Xu et al., Journal of Materials Research, 39 (6) (2024).

[24]J. Li, P. Yang, W. Ren, R. Wu, Physical Review B, 109, 035419 (2024).

[25]L. Qiao et al., Physical Review B, 109, 014410 (2024).

[26]J. Du, F. Jia, Y. Wang, C. Tian, J. Chen, W. Ren, H. Zhao, Y. Wang, J. Cheng, 53 (3): 1590-1599 (2024).

[27]W. Ouyang et al., Applied Physics Letters, 123 (21) (2024).

[28]X. Li, F, Jia, N. Luo, H. Cai, J. Chen, W. Ren, J. Cheng, J. Xu, Sensors and Actuators B: Chemical, 399, 134806 (2024).

[29]H. Wang, B. Xie, W. Ren, Laser & Photonics Reviews, 18, 2300764 (2024).

[30]X. Cheng, S. Xu et al., Physical Chemistry Chemical Physics, 26 (12): 9170-9178 (2024).

[31]R. Chakaravarthy, J. Tao, C. Liu, Y. Liu, W. Ren, RE. Vizhi, Results in Physics, 51, 106732(2024).

[32]Y. Zhu, T. Chen, Y. Li, L. Qiao, X. Ma, C. Liu, T. Hu, H. Gao, W. Ren, Nano Letters, 24 (1): 472-478 (2023).

[33]GD. Zhao, W. Fu, Y. Li, X. Liu, F. Jia, T. Hu, W. Ren, ACS Applied Materials & Interfaces, 16 (1): 1268-1275 (2023).

[34]T. Bachagha et al., Metals, 13 (12): 1913 (2023).

[35]Y. Cui, H. Gao, Y. Li, S. Xu, H. Wang, W. Ren, AIP Advances, 13 (12) (2023).

[36]H. Wang, B. Xie, W. Ren, Communications Physics, 6 (1): 347 (2023).

[37]D. Shi, Y. Cui, S. Zhang, H Dong, B. Chen, W. Ren, S. Cao, J. Tao, T. Gao, Chemical Physics Letters, 833, 140944 (2023).

[38]W. Yao, B. Shi, S. Hu, P. Zhang, J. Xi, Y. Wang, DJ. Singh, W. Ren, Physical Review B, 108, 155205 (2023).

[39]Y. Li, T. Hu, P. Guo, W. Ren, Applied Physics Letters, 123 (14) (2023).

[40]X. Cheng, S. Xu, C. Liu, Y. Cui, W. Ouyang, F. Jia, W. Wu, W. Ren, Applied Physics Letters, 123 (7) (2023).

[41]C. Bigi, L. Qiao, C. Liu, P. Barone, et al., Physical Review B, 108, 054419 (2023).

[42]G. Zhang, W. Liu, T. Hu, S. Shuai, C. Chen, S. Xu, W. Ren, J. Wang, Z. Ren, Applied Surface Science, 638, 158141 (2023).

[43]X. Cheng, PK. Singh, A. Mishra, A. Tiwari, W. Ren, Materials Today Sustainability, 23, 100474 (2023).

[44]Q. Zheng, T. Hu, S. Le Roux, M. Li, C. Chen, J. Yu, J. Wang, W. Ren, Z. Wang, Journal of Rare Earths, 41 (8): 1265-1271 (2023).

[45]L. Fang, C, Chen, X, Lu, W, Ren, Physical Chemistry Chemical Physics, 25 (31): 20969-20978 (2023).

[46]J. Wang, Y. Zheng, W. Ren, EH. Ang, L. Song, J. Zhu, Y. Hu, Chemical Engineering Journal, 453: 139837 (2023).

[47]Y. Zhao, Z. Yao, C. Liu, W. Ren, G. Hautier, and L. A. A. Burton, Sustainable Energy & Fuels 7, 812 (2023).

[48]G. Zhang, T. Hu, S. Shuai, C. Chen, S. Xu, J. Yu, W. Ren, J. Wang, and Z. Ren, Computational Materials Science 217, 111899 (2023).

[49]Y. Wang, T. Su, Y. Cui, X. Ma, X. Zhou, Y. Wang, S. Hu, and W. Ren, Rsc Advances 13, 19836 (2023).

[50]J. Wang, Y. Zheng, W. Ren, E. H. Ang, L. Song, J. Zhu, and Y. Hu, Chemical Engineering Journal 453, 139837 (2023).

[51]H. Su, H. Jiang, Z. Zhang, D. Zhao, Y. Liu, Z. Shen, Y. Guo, C. Yang, and W. Ren, Ceramics International 49, 9346 (2023).

[52]Z. Shen et al., Additive Manufacturing 72, 103627 (2023).

[53]W. Ren, Y. Li, Y. Tang, J. Xu, C. Zhang, O. K. C. Tsui, and X. Wang, Acs Macro Letters 12, 854 (2023).

[54]L. Qiao et al., Journal of Applied Physics 133, 203902 (2023).

[55]W. Ouyang, B. Shi, T. Su, X. Cheng, H. Gao, F. Jia, M.-H. Whangbo, and W. Ren, Journal of Physics-Condensed Matter 35, 305001 (2023).

[56]B. Luo, R. Gao, Y. Wang, H. Gao, J. Liu, and W. Ren, Physical Review Applied 19, 034002 (2023).

[57]C. Liu, R. Gao, X. Cheng, X. Yang, G. Qin, H. Gao, S. Picozzi, and W. Ren, Physical Review B 107, L121402 (2023).

[58]W. Guo, H. Xu, Y. Ma, Y. Liu, H. Gao, T. Hu, W. Ren, J. Luo, and Z. Sun, Angewandte Chemie-International Edition (2023).

[59]M. Gerlitz et al., Journal of the American Water Resources Association (2023).

[60]A. Di Pietro, R. Pachat, L. Qiao, L. Herrera-Diez, J. W. van der Jagt, S. Picozzi, D. Ravelosona, W. Ren, and G. Durin, Physical Review B 107, 174413 (2023).

[61]Y. Cui, T. Su, L. Qiao, Z. Gu, G. Profeta, A. Continenza, and W. Ren, Science China-Physics Mechanics & Astronomy 66, 277011 (2023).

[62]T. Chen, Y. Zhu, C. Liu, Y. Li, G. Song, X. Meng, X. Chen, H. Gao, and W. Ren, Physical Review B 107, 205411 (2023).

[63]R. Chen et al., Journal of Physical Chemistry C 127, 635 (2023).

[64]A. Baydin et al., Physical Review Research 5, L012039 (2023).

[65]Y. Zhu et al., Journal of Applied Physics 132, 183913 (2022).

[66]Q. Zheng, C. Liu, H. Gao, F. Jia, J. Hong, T. Hu, Z. Ren, and W. Ren, Materials Today Communications 31, 103409 (2022).

[67]G.-D. Zhao, X. Liu, W. Ren, X. Zhu, and S. Yu, Physical Review B 106, 064104 (2022).

[68]Y. Zhang et al., Applied Physics Letters 120, 131104 (2022).

[69]L. Zhang, T. Su, M. Li, F. Jia, S. Hu, P. Zhang, and W. Ren, Materials Today Communications 33, 104630 (2022).

[70]J. Zeng, C. Chen, Y. Ren, Z. Liu, W. Ren, and Z. Qiao, Physical Review B 106, L201407 (2022).

[71]X. Yu, J. Yu, W. Zhang, Q. Lv, W. Ren, L. Hou, Y. Fautrelle, X. Lu, and X. Li, Chemical Engineering Journal 446, 137107 (2022).

[72]J. Yu, Y. Jin, M. Hu, W. Ren, Y. Xie, and Y. Wang, Applied Surface Science 577, 151843 (2022).

[73]W. Yao, S. Hu, F. Jia, J. R. Reimers, Y. Wang, D. J. Singh, and W. Ren, Physical Review B 106, 104303 (2022).

[74]X. Yang et al., Applied Physics Letters 121, 172104 (2022).

[75]X. Yang et al., Physical Review B 106, 973410 (2022).

[76]S. Xu, F. Jia, X. Yu, S. Hu, H. Gao, and W. Ren, Materials Today Physics 27, 100775 (2022).

[77]Y. Wu, Z. Tang, G. J. Cruz, Y. Yang, W. Zhang, W. Ren, and P. Zhang, Physical Review B 106, 085201 (2022).

[78]M. C. Weber et al., Nature Communications 13, 443 (2022).

[79]C. Wang et al., Journal of Alloys and Compounds 905, 164233 (2022).

[80]Y. Tian, H. Yang, J. Li, S. Hu, S. Cao, W. Ren, and Y. Wang, Frontiers of Physics 17, 13501 (2022).

[81]H. Sun et al., Magnetochemistry 8, 136 (2022).

[82]L. Shang, P.-F. Liu, H. Gao, W. Wu, Y. Wang, Z. Gao, B.-T. Wang, and W. Ren, Physica Status Solidi-Rapid Research Letters 16, 2100203 (2022).

[83]W. Ren and L. Bellaiche, Nature 607, 34 (2022).

[84]F. Orlandi et al., Nature Communications 13, 7968 (2022).

[85]J. Ni et al., Acs Applied Electronic Materials 4, 2747 (2022).

[86]X. Ma et al., Inorganic Chemistry 61, 14815 (2022).

[87]X. Ma et al., Physical Chemistry Chemical Physics 24, 735 (2022).

[88]Q. Lv et al., Chemical Engineering Journal 446, 137420 (2022).

[89]B. Luo, X. Ma, J. Liu, W. Wu, X. Yu, S. Hu, H. Gao, F. Jia, and W. Ren, Physica E-Low-Dimensional Systems & Nanostructures 142, 115297 (2022).

[90]C. Liu, P.-F. Liu, X.-H. Tu, L. Shang, P. Zhang, W. Ren, and B.-T. Wang, Acs Applied Electronic Materials 4, 2062 (2022).

[91]C. Liu, C. Liu, G. Qin, T. Hu, Z. Gu, S. Picozzi, and W. Ren, Physical Review B 106, 224108 (2022).

[92]X. Li, L. Zhang, N. Luo, J. Chen, J. Cheng, W. Ren, and J. Xu, Sensors and Actuators B-Chemical 358, 131477 (2022).

[93]Z. Jin et al., Light-Science & Applications 11, 209 (2022).

[94]Z. Jiao, F. Jia, Y. Wang, J. Chen, W. Ren, and J. Cheng, Journal of Inorganic Materials 37, 1321 (2022).

[95]W. Jiang et al., Physical Review B 106, 054104 (2022).

[96]R. Gao et al., Chinese Physics Letters 39, 127301 (2022).

[97]W. Fan et al., Frontiers of Physics 17, 33504 (2022).

[98]S. T. Dibaba, Y. Xie, W. Xi, A. Bednarkiewicz, W. Ren, and L. Sun, Journal of Rare Earths 40, 862 (2022).

[99]G. Deng, G. Zhao, S. Zhu, Z. Feng, W. Ren, S. Cao, A. Studer, and G. J. McIntyre, New Journal of Physics 24, 083007 (2022).

[100]C. Chen et al., Applied Physics Letters 120, 084002 (2022).

[101]T. Bachagha, W. Ren, J. J. Sunol, and C. Jing, Journal of Thermal Analysis and Calorimetry 147, 2147 (2022).

[102]X. Zhu, W. Fan, W. Ren, and Y. Li, Journal of Physical Chemistry C 125, 12461 (2021).

[103]G.-D. Zhao, X. Liu, T. Hu, F. Jia, Y. Cui, W. Wu, M.-H. Whangbo, and W. Ren, Physical Review B 103, 014438 (2021).

[104]X. Yang, M. Hu, T. Su, X. Ma, Y. Chen, X. Kong, and W. Ren, Journal of Alloys and Compounds 876, 160167 (2021).

[105]X. Yang, M. Hu, T. Su, X. Ma, Y. Chen, X. Kong, and W. Ren, Journal of Alloys and Compounds 887, 161100 (2021).

[106]H. Yang, Y. Tian, J. Li, Y. Xie, W. Ren, and Y. Wang, Aip Advances 11, 065316 (2021).

[107]S. Xu, F. Jia, G. Zhao, W. Wu, and W. Ren, Journal of Materials Chemistry C 9, 9130 (2021).

[108]S. Xu, F. Jia, G. Zhao, T. Hu, S. Hu, and W. Ren, Journal of Physical Chemistry C 125, 6157 (2021).

[109]S. Xu et al., Physical Chemistry Chemical Physics 23, 5578 (2021).

[110]S. Xu, F. Jia, X. Cheng, and W. Ren, Journal of Materials Chemistry C 9, 17152 (2021).

[111]L. Wang et al., Carbon 180, 48 (2021).

[112]C. Wang et al., Journal of Alloys and Compounds 886, 161266 (2021).

[113]T. Su, Y. Cui, Z. Lian, M. Hu, M. Li, W. Lu, and W. Ren, Journal of Physical Chemistry Letters 12, 8521 (2021).

[114]T. Makihara et al., Nature Communications 12, 3115 (2021).

[115]X. Ma, N. Yuan, X. Luo, Y. Chen, B. Kang, W. Ren, J. Zhang, and S. Cao, Materials Today Communications 27, 102438 (2021).

[116]X. Ma, C. Liu, W. Ren, and S. A. Nikolaev, Npj Computational Materials 7, 177 (2021).

[117]X. Luo, R. Li, X. Ma, Y. Chen, B. Kang, J. Zhang, W. Ren, Z. Feng, and S. Cao, Journal of Physics-Condensed Matter 33, 275803 (2021).

[118]C. Liu, G. Zhao, T. Hu, Y. Chen, S. Cao, L. Bellaiche, and W. Ren, Physical Review B 104, L241105 (2021).

[119]C. Liu, G. Zhao, T. Hu, L. Bellaiche, and W. Ren, Physical Review B 103, L081403 (2021).

[120]Y. Li, C. Liu, G.-D. Zhao, T. Hu, and W. Ren, Physical Review B 104, L060405 (2021).

[121]Y. Li, W. Fan, X. Li, W. Ren, and Y. Li, Chinese Journal of Chemical Physics 34, 843 (2021).

[122]T. Jiang, T. Hu, G.-D. Zhao, Y. Li, S. Xu, C. Liu, Y. Cui, and W. Ren, Physical Review B 104, 075147 (2021).

[123]M. Hu, X. Yang, T. Su, X. Ma, and W. Ren, Applied Physics Letters 118, 122903 (2021).

[124]L. Hao, Y. Yang, Y. Huan, H. Cheng, Y.-Y. Zhao, Y. Wang, J. Yan, W. Ren, and O. Jun, Npj Computational Materials 7, 62 (2021).

[125]Z. Feng et al., Materials Today Physics 17, 100339 (2021).

[126]L. Fang, C. Chen, A. Sundaresan, C. Narayana, N. Ter-Oganessian, A. P. Pyatakov, S. Cao, J. Zhang, and W. Ren, Nanoscale 13, 8506 (2021).

[127]X. Cheng, S. Xu, F. Jia, G. Zhao, M. Hu, W. Wu, and W. Ren, Physical Review B 104, 104417 (2021).

[128]E. Cheng et al., Nature Communications 12, 6970 (2021).

[129]Y. Chen et al., Applied Surface Science 578, 151943 (2021).

[130]C. Chen, L. Fang, G. Zhao, X. Liu, J. Wang, L. A. Burton, Y. Zhang, and W. Ren, Journal of Materials Chemistry C 9, 9539 (2021).

[131]H. Zhu, Y. Yang, W. Ren, M. Niu, W. Hu, H. Ma, and J. Ouyang, Acta Materialia 200, 305 (2020).

[132]L. Zhang et al., Applied Physics Letters 116, 042402 (2020).

[133]W. Xia, W. Gao, G. Lopez-Candales, Y. Wu, W. Ren, W. Zhang, and P. Zhang, Npj Computational Materials 6, 118 (2020).

[134]Z. Wang et al., Small 16, 2000852 (2020).

[135]A.Putatunda, G. Qin, W. Ren, and D. J. Singh, Physical Review B 102, 014442 (2020).

[136]T. Makihara et al., in Conference on Lasers and Electro-Optics (CLEO)San Jose, CA, 2020).

[137]X. Liu, A. P. Pyatakov, and W. Ren, Physical Review Letters 125, 247601 (2020).

[138]C. Liu, S. A. Nikolaev, W. Ren, and L. A. Burton, Journal of Materials Chemistry C 8, 10551 (2020).

[139]C. Liu, H. Gao, Y. Li, K. Wang, L. A. Burton, and W. Ren, Journal of Materials Chemistry C 8, 5143 (2020).

[140]D. P. Kulikova, E. P. Nikolaeva, W. Ren, and A. P. Pyatakov, Journal of Superconductivity and Novel Magnetism 33, 2415 (2020).

[141]F. Jia, S. Xu, G. Zhao, C. Liu, and W. Ren, Physical Review B 101, 144106 (2020).

[142]F. Jia, S. Hu, S. Xu, H. Gao, G. Zhao, P. Barone, A. Stroppa, and W. Ren, Journal of Physical Chemistry Letters 11, 5177 (2020).

[143]T. Hu, G. Zhao, H. Gao, Y. Wu, J. Hong, A. Stroppa, and W. Ren, Physical Review B 101, 125401 (2020).

[144]M. Hu, C. Liu, L. A. Burton, and W. Ren, Acs Applied Materials & Interfaces 12, 49805 (2020).

[145]T. Hou, Y. Ren, Y. Quan, J. Jung, W. Ren, and Z. Qiao, Physical Review B 101, 201403 (2020).

[146]T. Hou, Y. Ren, Y. Quan, J. Jung, W. Ren, and Z. Qiao, Physical Review B 102, 085433 (2020).

[147]Y. Han, J. Zeng, Y. Ren, X. Dong, W. Ren, and Z. Qiao, Physical Review B 101, 235432 (2020).

[148]H. Gao and W. Ren, Carbon 158, 210 (2020).

[149]W. Zhou, J. Chen, H. Gao, T. Hu, S. Ruan, A. Stroppa, and W. Ren, Advanced Materials 31, 1804629 (2019).

[150]P. B. Zhang, Y. You, C. Wang, X. H. Fang, W. Ren, L. Y. Yang, and X. Y. Chen, in 4th International Conference on New Energy and Future Energy System (NEFES)Macao, PEOPLES R CHINA, 2019).

[151]J. Zhang, M. Deng, Y. Yan, T. Xiao, W. Ren, and P. Zhang, Physical Review Applied 11, 044052 (2019).

[152]F. Zhang et al., Journal of Materials Chemistry A 7, 6939 (2019).

[153]T. You et al., Scientific Reports 9, 19134 (2019).

[154]Y. Yan, J. Yang, J. Li, Y. Wang, and W. Ren, Journal of Physics D-Applied Physics 52, 495303 (2019).

[155]S. Xu, F. Jia, Y. Yang, L. Qiao, S. Hu, D. J. Singh, and W. Ren, Physical Review B 100, 104408 (2019).

[156]G. Xing, L. Shang, Y. Fu, W. Ren, X. Fan, W. Zheng, and D. J. Singh, Physical Review B 99, 174508 (2019).

[157]Z. Wu, Y. Xing, W. Ren, Y. Wang, and H. Guo, Carbon 149, 364 (2019).

[158]Y. Wu, W. Xia, W. Gao, F. Jia, P. Zhang, and W. Ren, 2d Materials 6, 015018 (2019).

[159]K. Wang, S. Nikolaev, W. Ren, and I. Solovyev, Physical Chemistry Chemical Physics 21, 9597 (2019).

[160]K. Wang, T. Hu, F. Jia, G. Zhao, Y. Liu, I. V. Solovyev, A. P. Pyatakov, A. K. Zvezdin, and W. Ren, Applied Physics Letters 114, 092405 (2019).

[161]G. Tang, W. Ren, J. Hong, and A. Stroppa, Journal of Chemical Physics 151, 124704 (2019).

[162]P. Sivarajah, A. Steinbacher, B. Dastrup, J. Lu, M. Xiang, W. Ren, S. Kamba, S. Cao, and K. A. Nelson, Journal of Applied Physics 125, 213103 (2019).

[163]A. Pyatakov, A. Kaminskiy, E. Lomov, W. Ren, S. Cao, and A. Zvezdin, Spin 9, 1940004 (2019).

[164]J. Manuel Bermudez-Garcia et al., Inorganic Chemistry Frontiers 6, 2379 (2019).

[165]X. Liu, Y. Yang, T. Hu, G. Zhao, C. Chen, and W. Ren, Nanoscale 11, 18575 (2019).

[166]J. Liu, G. Ding, J. Yu, X. Liu, X. Zhang, J. Guo, J. Zhang, W. Ren, and R. Che, Journal of Materials Chemistry A 7, 18072 (2019).

[167]J. Liu, G. Ding, J. Yu, X. Liu, X. Zhang, J. Guo, W. Ren, J. Zhang, and R. Che, Rsc Advances 9, 28421 (2019).

[168]C. Liu, T. Hu, Y. Wu, H. Gao, Y. Yang, and W. Ren, Journal of Physics-Condensed Matter 31, 235702 (2019).

[169]L. Li, Y. You, S. Hu, Y. Shi, G. Zhao, C. Chen, Y. Wang, A. Stroppa, and W. Ren, Applied Physics Letters 114, 083102 (2019).

[170]E. Li, Z. Feng, B. Kang, J. Zhang, W. Ren, and S. Cao, Journal of Alloys and Compounds 811, 152043 (2019).

[171]Z.-M. Jin, S.-Y. Ruan, J.-G. Li, X. Lin, W. Ren, S.-X. Cao, G.-H. Ma, and J.-Q. Yao, Acta Physica Sinica 68, 167501 (2019).

[172]F. Jia, G. Kresse, C. Franchini, P. Liu, J. Wang, A. Stroppa, and W. Ren, Physical Review Materials 3, 103801 (2019).

[173]H.-X. Huang, J. Chen, W. Ren, Y. Gao, W. Li, and Y. Chen, Journal of Physics-Condensed Matter 31, 345402 (2019).

[174]P. Hu, S. Hu, Y. Huang, J. R. Reimers, A. M. Rappe, Y. Li, A. Stroppa, and W. Ren, Journal of Physical Chemistry Letters 10, 1319 (2019).

[175]Z. Feng et al., Computational Materials Science 156, 310 (2019).

[176]L. Fang, C. Chen, Y. Yang, Y. Wu, T. Hu, G. Zhao, Q. Zhu, and W. Ren, Physical Chemistry Chemical Physics 21, 8046 (2019).

[177]S. T. Dibaba, X. Ge, W. Ren, and L. Sun, Journal of Rare Earths 37, 791 (2019).

[178]S. T. Dibaba, R. Caputo, W. Xi, J. Z. Zhang, R. Wei, Q. Zhang, J. Zhang, W. Ren, and L. Sun, Acs Applied Materials & Interfaces 11, 48290 (2019).

[179]G. Deng et al., Journal of Physics-Condensed Matter 31, 235801 (2019).

[180]F. Belviso et al., Inorganic Chemistry 58, 14939 (2019).

[181]X. Zheng et al., in IEEE 2nd Electron Devices Technology and Manufacturing Conference (EDTM)Kobe, JAPAN, 2018), pp. 202.

[182]G.-D. Zhao, Y.-L. Yang, and W. Ren, Acta Physica Sinica 67, 157504 (2018).

[183]G.-D. Zhao, L.-M. Li, Y. Wang, A. Stroppa, J.-H. Zhang, and W. Ren, Rsc Advances 8, 41587 (2018).

[184]Y. Yang, B. Xu, C. Xu, W. Ren, and L. Bellaiche, Physical Review B 97, 174106 (2018).

[185]R. Wang, W. Shi, X. Xie, D. Tang, W. Manger, A. B. Busbey, and L. Xu, Marine and Petroleum Geology 98, 33 (2018).

[186]W.-J. Wan et al., Chinese Physics Letters 35, 056802 (2018).

[187]W. Wan et al., in 18th International Workshop on Junction Technology (IWJT)Shanghai, PEOPLES R CHINA, 2018), pp. 88.

[188]A. C. Veron, A. Linden, N. A. Leclaire, E. Roedern, S. Hu, W. Ren, D. Rentsch, and F. A. Nuesch, Journal of Physical Chemistry Letters 9, 2438 (2018).

[189]Y. Liu, S. Hu, R. Caputo, K. Sun, Y. Li, G. Zhao, and W. Ren, Rsc Advances 8, 39650 (2018).

[190]X. Li et al., Science 361, 794 (2018).

[191]R. Li et al., Aip Advances 8, 115328 (2018).

[192]Q. Jia et al., Advanced Materials Interfaces 5, 1701268 (2018).

[193]P. Huang et al., Physica B-Condensed Matter 530, 95 (2018).

[194]T. Hu, F. Jia, G. Zhao, J. Wu, A. Stroppa, and W. Ren, Physical Review B 97, 235404 (2018).

[195]L. Guo et al., Journal of Applied Physics 123, 155103 (2018).

[196]K. Grishunin et al., Acs Photonics 5, 1375 (2018).

[197]W. Gao, W. Xia, Y. Wu, W. Ren, X. Gao, and P. Zhang, Physical Review B 98, 045108 (2018).

[198]H. Gao, W. Wu, T. Hu, A. Stroppa, X. Wang, B. Wang, F. Miao, and W. Ren, Scientific Reports 8, 7436 (2018).

[199]H. Gao, Y. Kim, J. W. F. Venderbos, C. L. Kane, E. J. Mele, A. M. Rappe, and W. Ren, Physical Review Letters 121, 106404 (2018).

[200]S. T. Dibaba, R. Wei, W. Xi, L. Zhao, L. Shi, W. Ren, T. Mayr, and L. Sun, Rsc Advances 8, 35706 (2018).

[201]G. Deng et al., Physical Review B 98, 184411 (2018).

[202]G. Deng et al., Physical Review B 97, 085154 (2018).

[203]C. Chen, L. Fang, J. Zhang, G. Zhao, and W. Ren, Scientific Reports 8, 467 (2018).

[204]W. Zhou et al., Physical Review B 96, 035401 (2017).

[205]W. Zhou et al., Physical Review B 96, 064103 (2017).

[206]S. Zhao et al., Materials & Design 117, 353 (2017).

[207]Y. You, C. Wang, Y. L. Xu, J. X. Wan, W. Ren, X. H. Fang, and X. Y. Chen, Journal of Applied Physics 121, 025305 (2017).

[208]Y. Yang, J. Zhang, S. Hu, Y. Wu, J. Zhang, W. Ren, and S. Cao, Physical Chemistry Chemical Physics 19, 28928 (2017).

[209]Y. Yang, H. Xiang, H. Zhao, A. Stroppa, J. Zhang, S. Cao, J. Iniguez, L. Bellaiche, and W. Ren, Physical Review B 96, 104431 (2017).

[210]Y. Yang, Y. Wu, B. Kang, Z. Feng, J. Zhang, W. Ren, and S. Cao, Journal of Alloys and Compounds 695, 1699 (2017).

[211]Y. Yan, Y. R. Jin, G. Zhang, J. Yang, Y. Wang, and W. Ren, Scientific Reports 7, 10104 (2017).

[212]K. Xu, W. Zhao, J. Xing, H. Gu, W. Ren, J. Zhang, and S. Cao, Journal of Crystal Growth 467, 111 (2017).

[213]M. Xiang, Y. Cao, W. Zhao, B. Kang, Z. Feng, P. Sharma, J. Zhang, W. Ren, and S. Cao, Journal of Superconductivity and Novel Magnetism 30, 2791 (2017).

[214]Y. Wu, W. Xia, W. Gao, W. Ren, and P. Zhang, Physical Review Applied 8, 034007 (2017).

[215]D. H. Ryan, Q. Stoyel, L. Veryha, K. Xu, W. Ren, S. Cao, and Z. Yamani, Ieee Transactions on Magnetics 53, 3101505 (2017).

[216]G. Qin et al., Iucrj 4, 506 (2017).

[217]S. K. Mohanta et al., Journal of Magnetism and Magnetic Materials 430, 65 (2017).

[218]P. Ma, Z. Xu, M. Wang, L. Lu, M. Yin, X. Chen, D. Li, and W. Ren, Materials Research Bulletin 90, 253 (2017).

[219]Q. Liu et al., Journal of Infrared and Millimeter Waves 36, 543 (2017).

[220]Z.-G. Li, T. Lu, H. Gao, Q. Zhang, M.-J. Li, W. Ren, and W.-C. Lu, Acta Physico-Chimica Sinica 33, 1789 (2017).

[221]B. J. Kennedy, Q. Zhou, S. Zhao, F. Jia, W. Ren, and K. S. Knight, Physical Review B 96, 214105 (2017).

[222]J. Kang et al., Iucrj 4, 598 (2017).

[223]F. Jia, Y. Qi, S. Hu, T. Hu, M. Li, G. Zhao, J. Zhang, A. Stroppa, and W. Ren, Rsc Advances 7, 38410 (2017).

[224]S. Hu, F. Jia, C. Marinescu, F. Cimpoesu, Y. Qi, Y. Tao, A. Stroppa, and W. Ren, Rsc Advances 7, 21375 (2017).

[225]S. Hu et al., Journal of Physical Chemistry C 121, 23045 (2017).

[226]A. Garcia-Fernandez et al., Inorganic Chemistry 56, 4918 (2017).

[227]F.-R. Fan, H. Wu, D. Nabok, S. Hu, W. Ren, C. Draxl, and A. Stroppa, Journal of the American Chemical Society 139, 12883 (2017).

[228]M. Chen, H. Lu, N. M. Abdelazim, Y. Zhu, Z. Wang, W. Ren, S. V. Kershaw, A. L. Rogach, and N. Zhao, Acs Nano 11, 5614 (2017).

[229]Y. Cao, M. Xiang, Z. Feng, B. Kang, J. Zhang, N. Guiblin, W. Ren, B. Dkhil, and S. Cao, Rsc Advances 7, 13846 (2017).

[230]Y. Cao et al., Scientific Reports 7, 14079 (2017).

[231]W. Zhou, J. Zeng, X. Li, J. Xu, Y. Shi, W. Ren, F. Miao, B. Wang, and D. Xing, Carbon 101, 235 (2016).

[232]Y. Yan, G. Zhang, C. Wang, C. Peng, P. Zhang, Y. Wang, and W. Ren, Scientific Reports 6, 29550 (2016).

[233]Q. Xu, W. Shi, X. Xie, W. Manger, P. McGuire, X. Zhang, R. Wang, and Z. Xu, Marine and Petroleum Geology 77, 1095 (2016).

[234]J. Wang, K. Yang, H. Chen, C. Deng, D. Li, X. Chen, and W. Ren, Aip Advances 6, 055305 (2016).

[235]G. Wang, W. Zhao, Y. Cao, B. Kang, J. Zhang, W. Ren, and S. Cao, Journal of Alloys and Compounds 674, 300 (2016).

[236]Y. Sun, W. Ren, S. Cao, H. Zhou, H. J. Zhao, H. Xu, and H. Zhao, Philosophical Magazine 96, 1613 (2016).

[237]G. Qi, M. Zhang, L. Wang, Z. Mu, W. Ren, W. Li, Z. Di, and X. Wang, Journal of Applied Physics 119, 223101 (2016).

[238]H. Huang, D. Zhang, Y. Gao, W. Ren, and C. S. Ting, Physical Review B 93, 064519 (2016).

[239]F. Hong, J. Lu, H. Gao, W. Ren, R. Xu, F. Xu, Z. Ma, and Y. Yan, Journal of Physics-Condensed Matter 28, 365502 (2016).

[240]H. He et al., Physical Review B 94, 205127 (2016).

[241]X. Ge, Z.-M. Song, L. Sun, Y.-F. Yang, L. Shi, R. Si, W. Ren, X. Qiu, and H. Wang, Biomaterials 108, 35 (2016).

[242]Y. Fang et al., Scientific Reports 6, 33448 (2016).

[243]X. Chen et al., 2d Materials 3, 015012 (2016).

[244]Y. Cao et al., Journal of Applied Physics 119, 063904 (2016).

[245]S. Cao et al., Scientific Reports 6, 37529 (2016).

[246]X. Zheng et al., Advanced Functional Materials 25, 1805 (2015).

[247]W. Zhao, S. Cao, R. Huang, Y. Cao, K. Xu, B. Kang, J. Zhang, and W. Ren, Physical Review B 91, 104425 (2015).

[248]J. Zhang, J. X. Cao, X. Chen, J. W. Ding, P. Zhang, and W. Ren, Physical Review B 91, 045417 (2015).

[249]H. Zhang et al., Scientific Reports 5, 13066 (2015).

[250]H.-B. Xue, Y.-H. Nie, and W. Ren, European Physical Journal B 88, 76 (2015).

[251]H.-B. Xue, Y.-H. Nie, J. Chen, and W. Ren, Annals of Physics 354, 375 (2015).

[252]X. Xu, W. Ren, H. Xu, X. Zhang, X. Zheng, D. L. Phillips, and C. Zhao, Sensors and Actuators B-Chemical 213, 139 (2015).

[253]Y. Wang, Y. Wang, W. Ren, P. Liu, H. Zhao, J. Chen, J. Deng, and X. Xing, Physical Chemistry Chemical Physics 17, 29097 (2015).

[254]P. S. Wang, W. Ren, L. Bellaiche, and H. J. Xiang, Physical Review Letters 114, 147204 (2015).

[255]G. Wang et al., Advanced Functional Materials 25, 3666 (2015).

[256]G. Wang et al., Journal of Applied Physics 118, 094102 (2015).

[257]J. Lu, F. Hong, W. Lin, W. Ren, Y. Li, and Y. Yan, Journal of Physics-Condensed Matter 27, 175505 (2015).

[258]Y. Li, K. An, L. Sheng, L. Yu, W. Ren, and X. Zhao, Chemical Physics Letters 631, 12 (2015).

[259]G. Li, L. Sheng, L. Yu, K. An, W. Ren, and X. Zhao, Materials Science and Engineering B-Advanced Functional Solid-State Materials 193, 153 (2015).

[260]Y. Jin, X. P. Cui, J. A. Cheng, S. X. Cao, W. Ren, and J. C. Zhang, Applied Physics Letters 107, 072907 (2015).

[261]H. X. Huang, S. C. Zhang, Y. Gao, and W. Ren, Physica C-Superconductivity and Its Applications 511, 33 (2015).

[262]L. Fang, C. Zhao, Y. Chen, L. Sheng, K. An, L. Yu, W. Ren, and X. Zhao, Carbon 91, 408 (2015).

[263]G. Deng, P. Guo, W. Ren, S. Cao, H. E. Maynard-Casely, M. Avdeev, and G. J. McIntyre, Journal of Applied Physics 117, 164105 (2015).

[264]D. Deng et al., Applied Physics Letters 107, 102404 (2015).

[265]Y. Cao, Y. Yang, M. Xiang, Z. Feng, B. Kang, J. Zhang, W. Ren, and S. Cao, Journal of Crystal Growth 420, 90 (2015).

[266]K. An, G. Wei, G. Qi, L. Sheng, L. Yu, W. Ren, and X. Zhao, Chemical Physics Letters 637, 71 (2015).

[267]H. J. Zhao, Y. Yang, W. Ren, A.-J. Mao, X. M. Chen, and L. Bellaiche, Journal of Physics-Condensed Matter 26, 472201 (2014).

[268]H. J. Zhao, W. Ren, Y. Yang, J. Iniguez, X. M. Chen, and L. Bellaiche, Nature Communications 5, 4021 (2014).

[269]H. J. Zhao, J. Iniguez, W. Ren, X. M. Chen, and L. Bellaiche, Physical Review B 89, 174101 (2014).

[270]Y. Yang, W. Ren, and L. Bellaiche, Physical Review B 89, 245439 (2014).

[271]H. Wu, S. Cao, M. Liu, Y. Cao, B. Kang, J. Zhang, and W. Ren, Physical Review B 90, 144415 (2014).

[272]H. Tan, X. Ma, L. Sheng, K. An, L. Yu, H. Zhao, J. Xu, W. Ren, and X. Zhao, Japanese Journal of Applied Physics 53, 117101 (2014).

[273]D. Sando et al., Philosophical Transactions of the Royal Society a-Mathematical Physical and Engineering Sciences 372, 20120438 (2014).

[274]Z. Qiao, W. Ren, H. Chen, L. Bellaiche, Z. Zhang, A. H. MacDonald, and Q. Niu, Physical Review Letters 112, 116404 (2014).

[275]S. Hu, L. Chen, Y. Wu, L. Yu, X. Zhao, S. Cao, J. Zhang, and W. Ren, Chinese Science Bulletin 59, 5170 (2014).

[276]Y. Cao, S. Cao, W. Ren, Z. Feng, S. Yuan, B. Kang, B. Lu, and J. Zhang, Applied Physics Letters 104, 232405 (2014).

[277]S. Cao, H. Zhao, B. Kang, J. Zhang, and W. Ren, Scientific Reports 4, 5960 (2014).

[278]H. J. Zhao, W. Ren, Y. Yang, X. M. Chen, and L. Bellaiche, Journal of Physics-Condensed Matter 25, 466002 (2013).

[279]H. J. Zhao, W. Ren, X. M. Chen, and L. Bellaiche, Journal of Physics-Condensed Matter 25, 385604 (2013).

[280]H. Zhao, S. Cao, R. Huang, W. Ren, S. Yuan, B. Kang, B. Lu, and J. Zhang, Journal of Applied Physics 114, 113907 (2013).

[281]S. J. Yuan, W. Ren, F. Hong, Y. B. Wang, J. C. Zhang, L. Bellaiche, S. X. Cao, and G. Cao, Physical Review B 87, 184405 (2013).

[282]Q. Wang, H. Xie, Y.-H. Nie, and W. Ren, Physical Review B 87, 075102 (2013).

[283]W. Ren, Y. Yang, O. Dieguez, J. Iniguez, N. Choudhury, and L. Bellaiche, Physical Review Letters 110, 187601 (2013).

[284]W. Ren, Advances in Manufacturing 1, 166 (2013).

[285]H. Qiu et al., Nature Communications 4, 2642 (2013).

[286]S. Prosandeev, D. Wang, W. Ren, J. Iniguez, and L. Bellaiche, Advanced Functional Materials 23, 234 (2013).

[287]R. Huang, S. Cao, W. Ren, S. Zhan, B. Kang, and J. Zhang, Applied Physics Letters 103, 162412 (2013).

[288]L. Fang, L. Sheng, K. An, L. Yu, W. Ren, Y. Ando, and X. Zhao, Physica E-Low-Dimensional Systems & Nanostructures 50, 116 (2013).

[289]T. H. Cho, W. S. Su, T. C. Leung, W. Ren, and C. T. Chan, Computer Physics Communications 184, 1077 (2013).

[290]L. Bellaiche, W. Ren, and S. Singh, Physical Review B 88, 161102 (2013).

[291]N. Barrett et al., Journal of Applied Physics 113, 187217 (2013).

[292]Y. Yang, M. Stengel, W. Ren, X. H. Yan, and L. Bellaiche, Physical Review B 86, 144114 (2012).

[293]Y. Yang, W. Ren, D. Wang, and L. Bellaiche, Physical Review Letters 109, 267602 (2012).

[294]Y. Yang, W. Ren, M. Stengel, X. H. Yan, and L. Bellaiche, Physical Review Letters 109, 057602 (2012).

[295]J. E. Rault et al., Physical Review Letters 109, 267601 (2012).

[296]C. W. Huang, W. Ren, N. Viet Cuong, Z. Chen, J. Wang, T. Sritharan, and L. Chen, Advanced Materials 24, 4170 (2012).

[297]C. Daumont et al., Journal of Physics-Condensed Matter 24, 162202 (2012).

[298]Z. Chen et al., Physical Review B 86, 235125 (2012).

[299]N. Balke et al., Nature Physics 8, 81 (2012).

[300]Y. Yang, Y. Xiao, W. Ren, X. H. Yan, and F. Pan, Physical Review B 84, 195447 (2011).

[301]Y. Xiang and W. Ren, Journal of Physics a-Mathematical and Theoretical 44, 325305 (2011).

[302]Y. Xiang and W. Ren, Quantum Information & Computation 11, 948 (2011).

[303]W. Ren and L. Bellaiche, Physical Review Letters 107, 127202 (2011).

[304]Z. Qiao, W. Ren, and J. Wang, Modern Physics Letters B 25, 359 (2011).

[305]Z. Chen et al., Physical Review B 84, 094116 (2011).

[306]W. Chen et al., Applied Physics Letters 99, 222904 (2011).

[307]F. Cao, W. Ren, X. Xu, Y.-X. Tong, and C. Zhao, Chemical Physics Letters 512, 81 (2011).

[308]D. Sichuga, W. Ren, S. Prosandeev, and L. Bellaiche, Physical Review Letters 104, 207603 (2010).

[309]W. Ren and L. Bellaiche, Physical Review B 82, 113403 (2010).

[310]J. M. Kiat, C. Bogicevic, F. Karolak, G. Dezanneau, N. Guiblin, W. Ren, L. Bellaiche, and R. Haumont, Physical Review B 81, 144122 (2010).

[311]F. Cao, X. Xu, W. Ren, and C. Zhao, Journal of Physical Chemistry C 114, 970 (2010).

[312]D. Albrecht, S. Lisenkov, W. Ren, D. Rahmedov, I. A. Kornev, and L. Bellaiche, Physical Review B 81, 140401 (2010).

[313]L. Q. Yan, W. Ren, J. Shen, Z. H. Sun, and F. W. Wang, Journal of Applied Physics 105, 07a719 (2009).

[314]W. Ren, J.-T. Ye, W. Shi, Z.-K. Tang, C. T. Chan, and P. Sheng, New Journal of Physics 11, 103014 (2009).

[315]W. Ren, C.-Z. Wang, K.-M. Ho, and C. T. Chan, Physical Review B 79, 161404 (2009).

[316]T. H. Cho, W. S. Su, T. C. Leung, W. Ren, and C. T. Chan, Physical Review B 79, 235123 (2009).

[317]F. Cao, W. Ren, X. Xu, Y.-m. Ji, and C. Zhao, Physical Chemistry Chemical Physics 11, 6256 (2009).

[318]F. Cao, W. Ren, Y.-m. Ji, and C. Zhao, Nanotechnology 20, 145703 (2009).

[319]W. Ren, F. Xu, and J. Wang, Nanotechnology 19, 435402 (2008).

[320]W. Ren, T. H. Cho, T. C. Leung, and C. T. Chan, Applied Physics Letters 93, 142102 (2008).

[321]W. Ren, C. T. Chan, T. H. Cho, T. C. Leung, J. Wang, H. Guo, and P. Sheng, Physical Review B 78, 195404 (2008).

[322]B. Wang, Y. Zhu, W. Ren, J. Wang, and H. Guo, Physical Review B 75, 235415 (2007).

[323]W. Ren, J. R. Reimers, N. S. Hush, Y. Zhu, J. Wang, and H. Guo, Journal of Physical Chemistry C 111, 3700 (2007).

[324]Z. Qiao, W. Ren, J. Wang, and H. Guo, Physical Review Letters 98, 196402 (2007).

[325]J. Wang, B. Wang, W. Ren, and H. Guo, Physical Review B 74, 155307 (2006).

[326]W. Ren, J. Wang, Z. Ma, and H. Guo, Journal of Chemical Physics 125, 164704 (2006).

[327]W. Ren, Z. Qiao, J. Wang, Q. Sun, and H. Guo, Physical Review Letters 97, 066603 (2006).

[328]W. Ren, J. Wang, Z. S. Ma, and H. Guo, Physical Review B 72, 035456 (2005).

[329]W. Ren, J. Wang, and Z. S. Ma, Physical Review B 72, 195407 (2005).

[330]W. Ren and J. Wang, Physical Review B 69, 033306 (2004).