Controlling Ferromagnetic Easy Axis in a Layered MoS2 Single Crystal
Controlling Ferromagnetic Easy Axis in a Layered MoS2 Single Crystal
Citing Articles
2013 {1}
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2014 {6}
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2015 {15}
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· Liang Cai, Jingfu He, Qinghua Liu, Tao Yao, Lin Chen, Wensheng Yan, Fengchun Hu, Yong Jiang, Yidong Zhao, Tiandou Hu, Zhihu Sun, and Shiqiang Wei, "Vacancy-induced ferromagnetism of MoS2 nanosheets", J. Am. Chem. Soc. 137, 2622-2627 (2015).
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· Zhao Zhao, Haijun Zhang, Hongtao Yuan, Shibing Wang, Yu Lin, Qiaoshi Zeng, Gang Xu, Zhenxian Liu, G. K. Solanki, K. D. Patel, Yi Cui, Harold Y. Hwang, and Wendy L. Mao, "Pressure induced metallization with absence of structural transition in layered MoSe2", Nat. Commun. 6, 7312 (2015). See also: arXiv:1504.08077v1.
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· Xu Zhao, Congxin Xia, Tianxing Wang, and Xianqi Dai, "Effect of structural defects on electronic and magnetic properties of pristine and Mn-doped MoS2 monolayer", Solid State Commun. 222, 31-35 (2015).
· Baorui Xia, Li An, Daqiang Gao, Shoupeng Shi, Pinxian Xi, and Desheng Xue, "Hierarchical ultrathin Mo(SxSe1-x)2 nanosheets with tunable ferromagnetism and efficient hydrogen evolution reaction activity: Towards defect sites effect", CrysEngComm 17, 6420-6425 (2015).
· Sang Wook Han, Won Seok Yun, J. D. Lee, Y. H. Hwang, J. Baik, H. J. Shin, Wang G. Lee, Young S. Park, and Kwang S. Kim, "Hydrogenation-induced atomic stripes on the 2H-MoS2 surface", Phys. Rev. B 92, 241303(R) (2015).
2016 {18}
· D. Cao, H. B. Shu, T. Q. Wu, Z. T. Jiang, Z. W. Jiao, M. Q. Cai, and W. Y. Hu, "First-principles study of the origin of magnetism induced by intrinsic defects in monolayer MoS2", Appl. Surf. Sci. 361, 199-205 (2016).
· Xiuli Lu, Kun Xu, Shi Tao, Zewei Shao, Xu Peng, Wnetuan Bi, Pengzuo Chen, Hui Ding, Wangsheng Chu, Changzheng Wu, and Yi Xie, "Engineering electronic structure of Two-Dimensional Subnanopore nanosheet by Molecular Titanium-oxide Incorporation for Enhanced photocatalytic activity", Chem. Sci. 7, 1462-1467 (2016).
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· Baorui Xia, Qing Guo, Daqiang Gao, Shoupeng Shi, and Kun Tao, "High temperature ferromagnetism in Cu-doped MoS2 nanosheets", J. Phys. D: Appl. Phys. 49, 165003 (2016).
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· B. Zhao, C. Y. Li, L. L. Liu, B. Zhou, Q. K. Zhang, Z. Q. Chen, and Z. Tang, "Adsorption of gas molecules on Cu impurities embedded monolayer MoSS2: A first-principles study", Appl. Surf. Sci. 382, 280-297 (2016).
· Yixin Ouyang, Chongyi Ling, Qian Chen, Zilu Wang, Li Shi, and Jinlan Wang, "Activating inert basal planes of MoS2 for hydrogen evolution reaction through the formation of different intrinsic defects", Chem. Mater. 28, 4390-4396 (2016).
· Yaping Miao, Yuhong Huang, Qinglong Fang, Zhi Yang, Kewei Xu, Fei Ma, and Paul K. Chu, "Tuning of electronic states and magnetic polarization in monolayered MoS2 by codpoing with transition metals and nonmetals", J. Mater. Sci. 51, 9514-9525 (2016).
· Alexander V. Kolobov and Junju Tominaga, "Magnetism in 2D TMDC (Book Chapter)", Two-Dimensional Transition-Metal Dichalcogenides (Editors: A. V. Kolobov & J. Tominaga) 239, p. 365-388 (2016) (Spinger Int'l Publishing).
· Soyoung Jekal and Soon Cheol Hong, "First-principles Calculation on Magnetism of 1H/1T Boundary in Monolayer MoS2", J. Korean Magn. Soc. 26, 71-75 (2016) (written in Korean).
· Jieqiong Wang, Fan Sun, Sen Yang, Yitong Li, Chuan Zhao, Minwei Xu, Yin Zhang, and Hao Zeng, "Robust ferromagnetism in Mn-doped MoS2 nanostructures", Appl. Phys. Lett. 109, 092401 (2016).
· Chuanyu Zhao, Chuanhong Jin, Jianlan Wu, and Wei Ji, "Magnetism in molybdenum disulphide monolayer with sulfur substituted by 3d transition metals", J. Appl. Phys., 120, 144305 (2016).
· Levna Chacko, A. K. Swetha, R. Anjana, M. K. Jayaraj, and P. M. Aneesh, "Wasp-waisted magnetism in hydrothermally grown MoS2 nanoflakes", Mater. Res. Express 3, 116102 (2016).
· Won Seok Yun and J. D. Lee, "Schottky barrier tuning of the single-layer MoS2 on magnetic metal substrates through vacancy defects and hydrogenation", Phys. Chem. Chem. Phys. 18, 31027-31032 (2016).
· Sang Wook Han, Youngsin Park, Young Hun Hwang, Soyoung Jekal, Manil Kang, Wang G. Lee, Woochul Yang, Gun-Do Lee, and Soon Cheol Hong, "Electron beam-formed ferromagnetic defects on MoS2 surface along 1T phase transition", Sci. Rep. 6, 38730 (2016).
· Sang Wook Han, Youngsin Park, Young Hun Hwang, Wang G. Lee, and S. C. Hong, "Investigation of electron irradiation-induced magnetism in layered MoS2 single crystals", Appl. Phys. Lett. 109, 252403 (2016).
2017 {10}
· Lei Tao, Fanchen Meng, Shudong Zhao, Yongli Song, Jianxin Yu, Xianjie Wang, Zhi-Guo Liu, Yi Wang, Bingsheng Li, Yang Wang, and Yu Sui, "Experimental and theoretical evidence for ferromagnetic edge in WSe2 nanosheets", Nanoscale 9, 4898-4906 (2017).
· Lan Nguyen, Hannu-Pekka Komsa, Ekaterina Khestanova, Reza J. Kashtiban, Jonathan J. P. Peters, Sean Lawlor, Ana M. Sanchez, Jeremy Sloan, Roman V. Gorbachev, Irina V. Grigorieva, Arkady V. Krasheninnikov, and Sarah J. Haigh, "Atomic Defects and Doping of Monolayer NbSe2", ACS Nano 11, 2894-2904 (2017).
· Guanhui Gao, Chi Chen, Xiaobin Xie, Yantao Su, Shendong Kang, Guichi Zhu, Duyang Gao, Achim Trampert, and Lintao Cai, "Toward edges-rich MoS2 layers via chemical liquid exfoliation triggering distinctive magnetism", Mater. Res. Lett. 5, 267-275 (2017).
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· Yuqiao Guo, Haitao Deng, Xu Sun, Xiuling Li, Jiyin Zhao, Junchi Wu, Wangsheng Chu, Sijia Zhang, Haibin Pan, Xusheng Zheng, Xiaojun Wu, Changqing Jin, Changzheng Wu, and Yi Xie, "Modulation of Metal and Insulator States in 2D Ferromagnetic VS2 by van der Waals Interaction Engineering", Adv. Mater. 29, 1700715 (2017).
· Sang Wook Han, Gi-Beom Cha, Youngsin Park, and S. C. Hong, "Hydrogen physisorption based on the dissociative hydrogen chemisorption at the sulphur vacancy of MoS2 surface", Sci. Rep. 7, 7152 (2017).
· Ping Wu, Naiqiang Yin, Peng Li, Wenjing Cheng, and Min Huang, "Adsorption and diffusion behaviors of noble metal adatoms (Pd, Pt, Cu, Ag and Au) on MoS2 monolayer: A first-principles study", Phys. Chem. Chem. Phys. 19, 20713-20722 (2017).
· Hao Tan, Wei Hu, Chao Wang, Chao Ma, Hengli Duan, Wensheng Yan, Liang Cai, Peng Guo, Zhihu Sun, Qinghua Liu, Xusheng Zheng, Fengchun Hu, and Shiqiang Wei, "Intrinsic Ferromagnetism in Mn-Substituted MoS2 Nanosheets Achieved by Supercritical Hydrothermal Reaction", Small 13, 1701389 (2017).
· Kyung Yeol Ma, Seong In Yoon, A-Rang Jang, Hu Young Jeong, YongJin Kim, Pramoda K. Nayak, and Hyeon Suk Shin, "Hydrogenation of Monolayer Molybdenum Diselenide via Hydrogen Plasma Treatment", J. Mater. Chem. C 5, 11294-11300 (2017).
2018 {11}
· Xu Zhao, Xiaomeng Liu, Tianxing Wang, and Shuyi Wei, "Effect of structural defects on electronic and magnetic properties in pristine and Cr-doped HfS2 monolayer", J. Alloys Compd. 731, 303-309 (2018).
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· Muhammad habib, Zahir Muhammad, Rashid Khan, Chuan Qiang Wu, Zia Ur Rehman, Yu Zhou, Hengjie Liu, and Li Song, "Ferromagnetism in CVT Grown Tungsten Diselenide Single Crystals with Nickel Doping", Nanotechnology 29, 115701 (2018).
· P. Taivansaikhan, T. Tsevelmaa, S. H. Rhim, S. C. Hong, and D. Odkhuu, "Inducing and manipulating magnetization in two-dimensional zinc-oxide by strain and external voltage", J. Phys.: Conden. Matter 30, 145802 (2018). See also: arXiv:1712.01578.
· Yuan-Yan Zhu and Jian-Min Zhang, "First-principle study of single TM atoms X (X=Fe, Ru or Os) doped monolayer WS2 systems", Superlattice Microst. 117, 155-162 (2018).
· Yan Chen, Shengxi Huang, Xiang Ji, Kiran Adepalli, Kedi Yin, Xi Ling, Xinwei Wang, Jianmin Xue, Mildred Dresselhaus, Jing Kong, and Bilge Yildiz, "Tuning Electronic Structure of Single Layer MoS2 through Defect and Interface Engineering", ACS Nano 12, 2569-2579 (2018).
· Qingwei Zhou, Shaoqiang Su, Pengfei Cheng, Xianbiao Hu, Min Zeng, Xingsen Gao, Zhang Zhang, and Junming Liu, "Robust ferromagnetism in zigzag-edges rich MoS2 pyramids", Nanoscale 10, 11578-11584 (2018).
· Fang Zhang, Wei Li, Yaqiang Ma, and Xianqi Dai, "Strain effects on the Schottky contacts of graphene and MoSe2 heterobilayers", Physica E 103, 284-288 (2018).
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· Zuyun He, Ran Zhao, Xiaofei Chen, Huijun Chen, Yunmin Zhu, Huimin Su, Shengxi Huang, Jianming Xue, Junfeng Dai, Shuang Cheng, Meilin Liu, Xinwei Wang, and Yan Chen, "Defect Engineering in Single-Layer MoS2 Using Heavy Ion Irradiation", ACS Appl. Mater. Interfaces 10, 42524-42533 (2018).
2019 {10}
· Jing Yang, Hiroyo Kawai, Calvin Pei Yu Wong, and Kuan Eng Johnson Goh, "Electrical Doping Effect of Vacancies in Monolayer MoS2", J. Phys. Chem. C 123, 2933-2939 (2019).
· Sang Wook Han, Gi-Beom Cha, Manil Kang, Jong Duk Lee,and Soon Cheol Hong, "Hydrogen interaction with selectively desulfurized MoS2 surface using Ne+ sputtering", J. Appl. Phys. 125, 085102 (2019).
· Younghun Hwang, Won Seok Yun, Gi-Beom Cha, Soon Cheol Hong, and Sang Wook Han, "Thermally driven homonuclear-stacking phase of MoS2 through desulfurization", Nanoscale 11, 11138-11144 (2019).
· Zhanfei Zhang,Yan Dong,Hui Sun,Guangyi Liu,Sheng Liu, and Xianglin Yang, "Defect-rich 2D reticulated MoS2 monolayers: Facile hydrothermal preparation and marvellous photoelectric properties", J. Taiwan Inst. Chem. Eng. 101, 221-2330 (2019).
· Sang Wook Han, Gi-Beom Cha, Kyoo Kim, and Soon Cheol Hong, "Hydrogen interaction with a sulfur-vacancy-induced occupied defect state in the electronic band structure of MoS2", Phys. Chem. Chem. Phys. 21, 15302-15309 (2019).
· Jiaxi Liu, Pengru Huang, Yilong Wang, Hongliang Peng, Yongjin Zou, Huanzhi Zhang, Erhu Yan, Mengqiu Long, Fen Xu, and Lixian Sun, "Tuning the properties of hydrogenated graphene via interfacial contact of cubic BN (111)", Physica B 571, 257-262 (2019).
· Xu Yu, Xiaokun Wen, Wenfeng Zhang, Li Yang, Hao Wu, Xun Lou, Zijian Xie, Yuan Liu, and Haixin Chang, "Fast and controlled growth of two-dimensional layered ZrTe3 nanoribbons by chemical vapor deposition", Cryst. Eng. Commun. 21, 5586-5594 (2019).
· Li Yang, Hao Wu, Wenfeng Zhang, Xun Lou, Zijian Xie, Xu Yu, Yuan Liu, and Haixin Chang, "Ta Doping Enhanced Room-Temperature Ferromagnetism in 2D Semiconducting MoTe2 Nanosheets", Adv. Elect. Mater. 5, 1900552 (2019).
· L. M. Martinez, C. L. Saiz, A. Cosio, R. Olmos, H. Iturriaga, L. Shao, and S. R. Singamaneni, "Magnetic Properties of Proton Irradiated Mn3Si2Te6 van der Waals Single Crystals", MRS Adv. 4, 2177-2184 (2019).
· Takanori Shirokura, Iriya Muneta, Kuniyuki Kakushima, Kazuo Tsutsui, and Hitoshi Wakabayashi, "Strong edge-induced ferromagnetism in sputtered MoS2 film treated by post-annealing", Appl. Phys. Lett. 115, 192404 (2019).
2020 {12}
· R. G. M. da Fonseca, R. F. Albers, E. R. Leite, and A. J. A. de Oliveira, "Parallel magnetic anisotropy in few layers MoS2 films", J. Magn. Magn. Mater. 497, 165985 (2020).
· Hongtao Ren, Lei Zhang, and Gang Xiang, "Web buckle-mediated room-temperature ferromagnetism in strained MoS2 thin films", Appl. Phys. Lett. 116, 012401 (2020).
· Jing Wang, Xiaoyu Lin, Zengyong Chu, Zhenyu Huang, Taotao Guo, Lingni Yang, and Li Shun, "Magnetic MoS2: A promising microwave absorption material with both dielectric loss and magnetic loss properties", Nanotechnology 31, 135602 (2020).
· Gi Wan Jeon, Kyu Won Lee, and Cheol Eui Lee, "High-Energy Proton-Irradiation Effects on the Magnetism of the Transition-Metal Dichalcogenide MoS2", J. Korean Phys. Soc. 76, 93-96 (2020).
· Mingyue Chen, Ce Hu, Xingfang Luo, Aijun Hong, Ting Yu, and Cailei Yuan, "Ferromagnetic behaviors in monolayer MoS2 introduced by nitrogen-doping", Appl. Phys. Lett. 116, 073102 (2020).
· X. W. Zhao, Z. Yang, J. T. Guo, G. C. Hu, W. W. Yue, X. B. Yuan, and J. F. Ren, "Tuning electronic and optical properties of monolayer PdSe2 by introducing defects: first-principles calculations", Sci. Rep. 10, 4028 (2020).
· Xiaoping Han, Maamar Benkraouda, and Noureddine Amrane, "S Vacancy Engineered Electronic and Optoelectronic Properties of Ni-Doped MoS2 Monolayer: A Hybrid Functional Study", J. Elect. Mater. 49, 3234-3241 (2020).
· L. M. Martinez, H. Iturriaga, R. Olmos, L. Shao, Y. Liu, Thuc T. Mai, C. Petrovic, Angela R. Hight Walker, and S. R. Singamaneni, "Enhanced magnetization in proton irradiated Mn3Si2Te6 van der Waals crystals", Appl. Phys. Lett. 116, 172404 (2020). See also: arXiv:1907.07222.
· Weigang Lu, Blake Birmingham, and Zhenrong Zhang, "Defect Engineering on MoS2 Surface with Argon Ion Bombardments and Thermal Annealing", Appl. Surf. Sci. 532, 147461 (2020).
· Burcu Ozden, Ethan Khan, Sunil Uprety, Tianyi Zhang, Joseph Razon, Ke Wang, Tamara Isaacs-Smith, Minseo Park, and Mauricio Terrones, "Impact of 150keV and 590keV proton irradiation on monolayer MoS2", arXiv:2008.04895 (2020).
· Wei Li, Jianqi Huang, Bo Han, Chunyu Xie, Xiaoxiao Huang, Kesong Tian, Yi Zeng, Zijing Zhao, Peng Gao, Yanfeng Zhang, Teng Yang, Zhidong Zhang, Shengnan Sun, and Yanglong Hou, "Molten-Salt-Assisted Chemical Vapor Deposition Process for Substitutional Doping of Monolayer MoS2 and Effectively Altering the Electronic Structure and Phononic Properties", Adv. Sci. 7, 2001080 (2020).
· Xixia Zhang, Shanpeng Wang, Chao-Kuei Lee, Chang-Maw Cheng, Jia-chi Lan, Xinru Li, Jie Qiao, and Xutang Tao, "Unravelling the effect of sulfur vacancies on the electronic structure of MoS2 crystal", Phys. Chem. Chem. Phys. 22, 21776-21783 (2020).
2021 {9}
· Chao Liu, Cui Kong, Feng-Jun Zhang, Chun-Mei Kai, Wei-Qin Cai, Xian-Yang Sun, and Won-Chun Oh, "Research progress of defective MoS2 for photocatalytic hydrogen evolution", J. Korean Ceram. Soc. 58, 135-147 (2021).
· Mohd. Parvaz, Hasan Abbas, and Zishan H. Khan, "Synthesis and Photocatalytic Properties of 2D Transition Metal Dichalcogenides (Book Chapter)", Emerging Trends in Nanotechnology (Editor: Zishan Husain Khan), Chapter 1, (2021) (Springer Singapore).
· Mona Abdia and Bandar Astinchap, "Effect of the magnetic field and electron/hole doping on electronic heat capacity and Pauli spin susceptibility of monolayer MoS2 in the presence of electron-phonon coupling", Mater. Today Commun. 26, 101859 (2021).
· Pinqiang Cao and Jianyang Wu, "Self-Assembly of MoS2 Monolayer Sheets by Desulfurization", Langmuir 37, 4971-4983 (2021). See also: arXiv:2101.02660.
· H. Sharona, "Defects in multilayer MoS2 grown by pulsed laser deposition and their impact on electronic structure", J. Appl. Phys. 130, 084303 (2021).
· Heyi Li, Chaoming Liu, Yanqing Zhang, Chunhua Qi, Guoliang Ma, Tianqi Wang, Shangli Dong, and Mingxue Huo, "Modulation of 1 MeV electron irradiation on ultraviolet response in MoS2 FET", Nanotechnology 32, 475205 (2021).
· Ravinder Pawar and Akanksha Ashok Sangolkar, "Density functional theory based HSE06 calculations to probe the effects of defect on electronic properties of monolayer TMDCs", Comput. Theor. Chem. 1205, 113445 (2021).
· Liang Cai, Hengli Duan, Qinghua Liu, Chao Wang, Hao Tan, Wei Hu, Fengchun Hu, Zhihu Sun, and Wensheng Yan, "Ultrahigh-temperature ferromagnetism in MoS2 Moiré superlattice/graphene hybrid heterostructures", Nano Res. 14, 4182-4187 (2021).
· Xiaoli Zhang, Xiaoyi Zhang, and Yu Yang, "The process for preparing MX2 (M=Mo,W; X=Se,S) single crystal", J. Phys.: Conf. Ser. 2079, 012014 (2021).
2022 {10}
· Deepika Gupta, Vishnu Chauhan, Sonica Upadhyay, N. Koratkar, Fouran Singh, Shalendra Kumar, Aman Mahajan, Ramesh Chandra, and Rajesh Kumara, "Defects engineering and enhancement in optical and structural properties of 2D-MoS2 thin films by high energy ion beam irradiation", Mater. Chem. Phys. 276, 125422 (2022).
· Daniel J. Trainer, Jouko Nieminen, Fabrizio Bobba, Baokai Wang, Xiaoxing Xi, Arun Bansil, and Maria Iavarone, "Visualization of defect induced in-gap states in monolayer MoS2", npj 2D Mater. Appl. 6, 13 (2022).
· Akanksha Ashok Sangolkar, Pooja,Mohmmad Faizan, Rubi Agrawal, and Ravinder Pawar, "Density functional theory study of graphene adhesion on WX2 (X = S and Se) monolayer: Role of atom vacancy and atomic reorganization defects", Int. J. Quantum Chem. 122, e26871 (2022).
· Hongtao Ren and Gang Xiang, "Strain-Modulated Magnetism in MoS2", Nanomaterials 12, 1929 (2022).
· Abdul Hannan, Adnan Khalil, Muhammad Habib, Zia ur Rehman, Abdul Ghafar Wattoo, Muhammad Yousaf, Hamza Naeem, Imen Kebaili, Hussein Alrobei, and Meshal Alzaid, "Ferromagnetic Properties of Ni9S8/MoS2 Hybrid Structure", J. Supercond. Nov. Magn.35, 1321-1327 (2022).
· Sang Wook Han, Won Seok Yun, Manil Kang, Sangsun Lee, and Jusang Park, "Phase transition of a MoS2 monolayer through top layer desulfurization by He+ ion irradiation", J. Appl. Phys. 131, 224301 (2022).
· Aditya Deshpande, Christian Ratsch, Cristian V. Ciobanu, and Suneel Kodambaka, "Entropy stabilization of two-dimensional transition metal dichalcogenide alloys: A density functional theory study", J. Appl. Phys. 131, 234302 (2022).
· Hongtao Ren and Gang Xiang, "Recent Progress in Research on Ferromagnetic Rhenium Disulfide", Nanomaterials 12, 3451 (2022).
· Wenxuan Guo, Mengge Li, Xiaoxiang Wu, Yali Liu, Tianjian Ou, Cong Xiao, Zhanjie Qiu, Yuan Zheng, and Yewu Wang, "Nonvolatile n-Type Doping and Metallic State in Multilayer-MoS2 Induced by Hydrogenation Using Ionic-Liquid Gating", Nano Lett. 22, 8957-8965 (2022).
· Faruk Özel, Emre Arkan, Halime Coskun, İlyas Deveci, Murat Yıldırım, Mehmet Yıldırım, İkram Orak, Mehmet Okan Erdal, Adem Sarılmaz, Tugrul Talha Ersöz, Adem Koçyiğit, Abdulkerim Karabulut, Abdurrahman Özen, Abdalaziz Aljabour, Mahmut Kus, and Mustafa Ersöz, "Refractory-Metal-Based Chalcogenides for Energy", Adv. Funct. Mater. 32, 2207705 (2022).
2023 {8}
· Mingrui Zhu, Wanxin Zhou, Jiangtao Yang, Jian Zhou, and Qingfang Li, "Tunable magnetic and electronic properties of armchair BeN4 nanoribbons", Phys. Chem. Chem. Phys. 25, 5029-5036 (2023).
· Anupam Giri, Gyeongbae Park, and Unyong Jeong, "Layer-Structured Anisotropic Metal Chalcogenides: Recent Advances in Synthesis, Modulation, and Applications", Chem. Rev. 123, 3329-3342 (2023).
· Ram Kumar, Aditya H. Kelker, Rahul Singhal, Vasant G. Sathe, Ram Janay Chaudhary, and Neeraj Shukla, "Strain induced structural changes and magnetic ordering in thin MoS2 flakes as a consequence of 1.5 MeV proton ion irradiation", J. Alloys Compd. 951, 169882 (2023).
· Aditya Deshpande, Koki Hojo, Koichi Tanaka, Pedro Arias, Hicham Zaid, Michael Liao, Mark Goorsky, and Suneel Kodambaka, "Need for complementary techniques for reliable characterization of MoS2-like layers", J. Vac. Sci. Technol. A 41, 042203 (2023).
· G. Cardenas-Chirivi, K. Vega-Bustos, H. Rojas-Páez, D. Silvera-Vega, J. Pazos, O. Herrera, M. A. Macías, C. Espejo, W. López-Pérez, J. A. Galvis, and P. Giraldo-Gallo, "Room temperature multiferroicity in a transition metal dichalcogenide", npj 2D Mater. Appl. 7, 54 (2023). See also: arXiv:2212.02490.
· Preetam Singh, Santanu Ghosh, Manjari Jain, Aditya Singh, Rajendra Singh, Mohammad Balal, Sudipta Roy Barman, Ulrich Kentsch, Shengqiang Zhou, Saswata Bhattacharya, and Pankaj Srivastava, "Highly Enhanced Defects Driven Room Temperature Ferromagnetism in Mixed-phase MoS2-MoOx Films", J. Phys. Chem. C 127, 16010-16018 (2023).
· Haiming Deng, Qianqian Zhu, Chao Kong, Guixian Tang, Jun Cao, Tao Han, Chunzhi Jiang, and Yi Peng, "Tunable the electronic and magnetic properties of monolayer Mo8S12 via defects and 3d transition metal substitutional doping", J. Magn. Magn. Mater. 588, 171385 (2023).
· Burcu Ozden, Tianyi Zhang, Mingzu Liu, Andres Fest, Daniel A Pearson, Ethan Khan, Sunil Uprety, Jiffer E. Razon, Javari Cherry, Kazunori Fujisawa, He Liu, Nestor Perea-López, Ke Wang, Tamara Isaacs-Smith, Minseo Park, and Mauricio Terrones, "Engineering Vacancies for the Creation of Antisite Defects in Chemical Vapor Deposition Grown Monolayer MoS2 and WS2 via Proton Irradiation", ACS Nano 17, 25101-25117 (2023).
2024 {2}
· Roozbeh Anvari and Wennie Wang, "Nature of point defects in monolayer MoS2 and the MoS2/(111)Au heterojunction", J. Appl. Phys. 134, 174304 (2024). See also: arXiv:2403.01708.
· Xiaodan Wang, Beibei Wang, and Hao Shen, "Introduction (Chapter 1)", Emerging Hydrogenated Semiconductors: Synthesis, Properties and Applications (Editors: X. Wang et al.), p. 5 (2024) (Cambridge Scholars Publishing).
2025 {7}
· Xinhu Wu, Yongfu Wang, Kuiliang Gong, Gaiqing Zhao, Xudong Sui, and Xiaobo Wang, "Superlubricity of Sputtered MoS2 Film in Dry Air Enabled by Proton Irradiation", Tribol. Lett. 73, 3 (2025).
· Florian Brette, Stéphane Célérier, Christine Canaff, Lola Loupias, Michael Paris, Aurélien Habrioux, Florent Boucher, and Vincent Mauchamp, "XPS Binding Energy Shifts in 2D Ti3C2Tz MXene go largely Beyond Intuitive Explanations: Rationalization from DFT Simulations and Experiments", Small Methods 9, 2400848 (2025).
· Liu Chu, Eduardo Souza de Cursi, and Qingqing Ji, "Mechanical Impacts of Random Defects in Monolayer MoS2 by Stochastic Finite Element Modeling", ACS Appl. Nano Mater. 8, 4060-4066 (2025).
· Hussam Mustafa, Cynthia Nnokwe, Gaihua Ye, Mengqi Fang, Swati Chaudhary, Jia-An Yan, Kai Wu, Connor J. Cunningham, Colin M. Hemesath, Andrew James Stollenwerk, Paul M. Shand, Eui-Hyeok Yang, Gregory A. Fiete, Rui He, and Wencan Jin, "Origin of Large Effective Phonon Magnetic Moments in Monolayer MoS2", ACS Nano 19, 11241-11248 (2025).
· Asheesh Kumawat, Meera Rawat, Aditya Yadav, Govind Gupta, Kajal Kumawat, and Manoj Kumar Kumawat, "Defects-Induced Fermi Level Modulation and Exciton-to-Trion Conversion in a CVD-Grown MoS2 Thin Film", ACS Appl. Electron. Mater. 7, 4075-4084 (2025).
· Yan Chen, Shengxi Huang, Xiang Ji, Kiran Adepalli, Kedi Yin, Xi Ling, Xinwei Wang, Jianmin Xue, Mildred Dresselhaus, Jing Kong, and Bilge Yildiz, "Tuning Electronic Structure of Single Layer MoS2 through Defect and Interface Engineering", ACS Nano 19, 11241-11248 (2025).
· Xiang Li, Xin-Wei Yi, Jing-Yang You, Jia-Wen Li, Qing-Han Yang, Gang Su, and Bo Gu, "Bilateral Hydrogenation Realizes High-Temperature Quantum Anomalous Hall Insulator in 2D Cr2Ge2Te6", arXiv:2509.09164 (2025).