Local Strain Induced Bandgap Modulation and Photoluminescence Enhancement of Multilayer Transition Metal Dichalcogenides
Local Strain Induced Bandgap Modulation and Photoluminescence Enhancement of Multilayer Transition Metal Dichalcogenides
Citing Articles
2017 {1}
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2018 {8}
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2019 {8}
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· Yating Yang, Wei-Hai Fang, Alexander V. Benderskii, Run Long, and Oleg V. Prezhdo, "Strain Controls Charge Carrier Lifetimes in Monolayer WSe2: Ab Initio Time Domain Analysis", J. Phys. Chem. Lett. 10, 7732-7739 (2019).
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2020 {20}
· Hangbo Zhao, Yongjun Lee, Mengdi Han, Bhupendra. Sharma, Xuexian Chen, Jong-Hyun Ahn, and John A. Rogers, "Nanofabrication approaches for functional three-dimensional architectures", Nano Today 30, 100825 (2020).
· Erik Fissicaro Procópio, Renan Narciso Pedrosa, Fábio A. L. de Souza, Wendel S. Paz, and Wanderlã Luis Scopel, "Tuning the photocatalytic water-splitting capability of two-dimensional α-In2Se3 by strain-driven band gap engineering for H2 production", Phys. Chem. Chem. Phys. 22, 3520-3526 (2020).
· Jiangpeng Zhou, Yaping Wu, Hao Wang, Zhiming Wu, Xu Li, Weihuang Yang, Congming Ke, Shiqiang Lu, Chunmiao Zhanga, and Junyong Kanga, "Strain manipulation of the polarized optical response in two-dimensional GaSe layers", Nanoscale 12, 4069-4076 (2020).
· Sheng Yang, Panpan Zhang, Ali Shaygan Nia, and Xinliang Feng, "Emerging 2D Materials Produced via Electrochemistry", Adv. Mater. 32, 1907857 (2020).
· Ahmed Raza Khan, Teng Lu, Wendi Ma, Yuerui Lu, and Yun Liu, "Tunable Optoelectronic Properties of WS2 by Local Strain Engineering and Folding", Adv. Elect. Mater. 6, 1901381 (2020).
· Kory Beach, Michael C. Lucking, and Humberto Terrones, "Strain dependence of second harmonic generation in transition metal dichalcogenide monolayers and the fine structure of the C exciton", Phys. Rev. B 101, 155431 (2020).
· Qin Fan, Lude Wang, Duo Xu, Yanhong Duo, Jie Gao, Lei Zhang, Xianbao Wang, Xiang Chen, Jinhua Li, and Han Zhang, "Solution-gated transistors of two-dimensional materials for chemical and biological sensors: status and challenges ", Nanoscale 12, 11364-11394 (2020).
· Jin Myung Kim, Chullhee Cho, Ezekiel Y. Hsieh, and SungWoo Nam, "Heterogeneous deformation of two-dimensional materials for emerging functionalities", J. Mater. Res. 35, 1369-1385 (2020).
· Dongqi Liu, Xiao-Qing Yan, Hao-Wei Guo, Zhi-Bo Liu, Wen-Yuan Zhou, and Jian-Guo Tian, "Substrate effect on the photoluminescence of chemical vapor deposition transferred monolayer WSe2", J. Appl. Phys. 128, 043101 (2020).
· Adithya Kommini and Zlatan Aksamija, "Anisotropic Thermoelectric Power Factor of Two-Dimensional Materials with Periodic Potential Barriers: The Wigner-Rode Formalism", Phys. Rev. Applied 14, 034037 (2020).
· Sabir Hussain, Rui Xu, Kunqi Xu, Le Lei, Lan Meng, Zhiyue Zheng, Shuya Xing, Jianfeng Guo, Haoyu Dong, Adeel Liaqat, Muhammad Ahsan Iqbal, Yan Jun Li, Yasuhiro Sugawara, Fei Pang, Wei Ji, Liming Xie, and Zhihai Cheng, "Strain-induced hierarchical ripples in MoS2 layers investigated by atomic force microscopy", Appl. Phys. Lett. 117, 153102 (2020).
· Yi-Rung Lin, Wen-Hui Cheng, Matthias H. Richter, Joseph S DuChene, Elizabeth A. Peterson, Cora M. Went, Zakaria Y. Al Balushi, Deep Jariwala, Jeffrey B. Neaton, Li-Chyong Chen, and Harry A Atwater, "Band Edge Tailoring in Few-Layer Two-Dimensional Molybdenum Sulfides/Selenides Alloys", J. Phys. Chem. C 124, 22893-22902 (2020).
· Ghada Dushaq, Bruna Paredes, Jin-You Lu, Matteo Chiesa, and Mahmoud Rasras, "Tuning the Photoluminescence of Few-Layer MoS2 Nanosheets by Mechanical Nanostamping for Broadband Optoelectronic Applications", ACS Appl. Nano Mater. 3, 10333-10341 (2020).
· Iris Niehues, Philipp Marauhn, Thorsten Deilmann, Daniel Wigger, Robert Schmidt, Ashish Arora, Steffen Michaelis de Vasconcellos, Michael Rohlfing, and Rudolf Bratschitsch, "Strain tuning of the Stokes shift in atomically thin semiconuctors", Nanoscale 12, 20786-20796 (2020).
· Davoud Hejazi, Renda Tan, Neda Kari Rezapour, Mehrnaz Mojtabavi, Meni Wanunu, and Swastik Kar, "2D-MoS2 with Narrowest Excitonic Linewidths Grown by Flow-Less Direct Heating of Bulk Powders", arXiv:2010.12672 (2020).
· Yalan Yan, Shuang Ding, Xiaonan Wu, Jian Zhu, Dengman Feng, Xiaodong Yang, and Fangfei Li, "Tuning the physical properties of ultrathin transition-metal dichalcogenides via strain engineering", RSC Adv. 10, 39455-39467 (2020).
· Zhiwei Peng, Xiaolin Chen, Yulong Fan, David J. Srolovitz, and Dangyuan Lei, "Strain engineering of 2D semiconductors and graphene: from strain fields to band-structure tuning and photonic applications", Light Sci. Appl. 9, 190 (2020).
· Ahmed Raza Khan, Boqing Liu, Tieyu Lü, Linglong Zhang, Ankur Sharma, Yi Zhu, Wendi Ma, and Yuerui Lu, "Direct Measurement of Folding Angle and Strain Vector in Atomically Thin WS2 Using Second-Harmonic Generation", ACS Nano 14, 15806-15815 (2020).
· Juyoung Leem, "A snapshot review on exciton engineering in deformed 2D materials", MRS Adv. 64, 3491-3506 (2020).
· Nadire Nayir, Yuanxi Wang, Sharmin Shabnam, Danielle Reifsnyder Hickey, Leixin Miao, Xiaotian Zhang, Saiphaneendra Bachu, Nasim Alem, Joan Redwing, Vincent H. Crespi, and Adri C. T. van Duin, "Modeling for Structural Engineering and Synthesis of Two-Dimensional WSe2 Using a Newly Developed ReaxFF Reactive Force Field", J. Phys. Chem. C 124, 28285-28297 (2020).
2021 {12}
· Lude Wang, Duo Xu, Lianfu Jiang, Jie Gao, Zhongmin Tang, Yunjie Xu, Xiang Chen, and Han Zhang, "Transition Metal Dichalcogenides for Sensing and Oncotherapy: Status, Challenges, and Perspective", Adv. Funct. Mater. 31, 2004408 (2021).
· Muvva D. Prasad, M. Ghanashyam Krishna, and Sudip K. Batabyal, "Silver Bismuth Iodide Nanomaterials as Lead-Free Perovskite for Visible Light Photodetection", ACS Appl. Nano Meter. 4, 1252-1259 (2021).
· Shengxue Yang, Yujia Chen, and Chengbao Jiang, "Strain engineering of two‐dimensional materials: Methods, properties, and applications", InfoMat 3, 397-420 (2021).
· Davoud Hejazi, Renda Tan, Neda Kari Rezapour, Mehrnaz Mojtabavi, Meni Wanunu, and Swastik Kar, "MoS2 Nanosheets with Narrowest Excitonic Line Widths Grown by Flow-Less Direct Heating of Bulk Powders: Implications for Sensing and Detection", ACS Appl. Nano Mater. 4, 2583-2593 (2021).
· Jijun He, Ioannis Paradisanos, Tianyi Liu, Alisson R. Cadore, Junqiu Liu, Mikhail Churaev, Rui Ning Wang, Arslan S. Raja, Clément Javerzac-Galy, Philippe Roelli, Domenico De Fazio, Barbara L. T. Rosa, Sefaattin Tongay, Giancarlo Soavi, Andrea C. Ferrari, and Tobias J. Kippenberg, "Low-Loss Integrated Nanophotonic Circuits with Layered Semiconductor Materials", Nano Lett. 21, 2709-2718 (2021). See also: arXiv:2010.06014.
· Jingwei Wang, Mengjiao Han, Qun Wang, Yaqiang Ji, Xian Zhang, Run Shi, Zefei Wu, Liang Zhang, Abbas Amini, Liang Guo, Ning Wang, Junhao Lin, and Chun Cheng, "Straomed Epitaxy of Monolayer Transition Metal Dichalcogenides for Wrinkle Arrays", ACS Nano 15, 6633-6644 (2021).
· Christy Roshini Paul Inbaraj, Roshan Jesus Mathew, Rajesh Kumar Ulaganathan, Raman Sankar, Monika Kataria, Hsia Yu Lin, Yit-Tsong Chen, Mario Hofmann*, Chih-Hao Lee, and Yang-Fang Chen, "A Bi-Anti-Ambipolar Field Effect Transistor", ACS Nano 15, 8686-8693 (2021).
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· Yeonghoon Jin and Kyoungsik Yu, "A review of optics-based methods for thickness and surface characterization of two-dimensional materials", J. Phys. D: Appl. Phys. 54, 393001 (2021).
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2022 {22}
· Larionette P. L. Mawlong and Jong-Hyun Ahn, "Three-Dimensional Structured Photodetectors Based on 2D Transition-Metal Dichalcogenide", Small Struct. 3, 2100149 (2022).
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· Hong Tang, Bimal Neupane, Santosh Neupane, Shiqi Ruan, Niraj K. Nepal, and Adrienn Ruzsinszky, "Tunable band gaps and optical absorption properties of bent MoS2 nanoribbons", Sci. Rep. 12, 3008 (2022). See also: arXiv:2109.04551.
· Lujun Huang, Alex Krasnok, Andrea Alu, Yiling Yu, Dragomir Neshev, and Andrey Miroshnichenko, "Enhanced Light-Matter Interaction in Two-Dimensional Transition Metal Dichalcogenides", Rep. Prog. Phys. 85, 046401 (2022). See also: arXiv:2103.11064.
· Chiara Trovatello, Armando Genco, Cristina Cruciano, Benedetto Ardini, Qiuyang Li, Xiaoyang Zhu, Gianluca Valentini, Giulio Cerullo, and Cristian Manzoni, "Hyperspectral microscopy of two-dimensional semiconductors", Opt. Mater.: X 14, 100145 (2022).
· Jiaxiang Zhang, Xuanlin Zhang, Yu Wang, Peng Cheng, Baojie Feng, Kehui Wu, Yunhao Lu, and Lan Chen, "Giant Bandgap Engineering in Two-Dimensional Ferroelectric α-In2Se3", J. Phys. Chem. Lett. 13, 3216-3268 (2022).
· Immanuel Paulraj and Chia-Jyi Liu, "Advanced 2D Materials for Energy Applications (Book Chapter)", 2D Nanomaterials Chemistry and Properties (Editor: Ram K. Gupta), Chapter 2, (2022) (CRC Press).
· Cinzia Di Giorgio, Elena Blundo, Giorgio Pettinari, Marco Felici, Fabrizio Bobba, and Antonio Polimeni, "Mechanical, Elastic, and Adhesive Properties of Two-Dimensional Materials: From Straining Techniques to State-of-the-Art Local Probe Measurements", Adv. Mater. Interfaces 9, 2102220 (2022).
· Syed Hamza Safeer, Alexandre S. M. V Ore, Alisson R. Cadore, Vanessa O. Gordo, Pilar G. Vianna, Isabel C. S. Carvalho, Victor Carozo, and Christiano J. S. de Matos, "CVD growth and optical characterization of homo and heterobilayer TMDs", J. Appl. Phys. 132, 024301 (2022).
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· Sara Shabani, Thomas P. Darlington, Colin Gordon, Wenjing Wu, Emanuil Yanev, James Hone, Xiaoyang Zhu, Cyrus E. Dreyer, P. James Schuck, and Abhay N. Pasupathy, "Ultralocalized Optoelectronic Properties of Nanobubbles in 2D Semiconductors", Nano Lett. 22, 7401-7407 (2022). See also: arXiv:2208.14518.
· Hiroyuki Mogi, Yusuke Arashida, Ryusei Kikuchi, Ryosuke Mizuno, Jun Wakabayashi, Naoki Wada, Yasumitsu Miyata, Atsushi Taninaka, Shoji Yoshida, Osamu Takeuchi, and Hidemi Shigekawa, "Ultrafast nanoscale exciton dynamics via laser-combined scanning tunneling microscopy in atomically thin materials", npj 2D Mater. Appl. 6, 72 (2022).
· MAnthony Impellizzeri, Michele Amato, Chris P. Ewels, and Alberto Zobelli, "Electronic Structure of Folded Hexagonal Boron Nitride", J. Phys. Chem. C 126, 17746-17752 (2022). See also: arXiv:2211.10125.
· V. V. Enaldiev, F. Ferreira, J. G. McHugh, and V. I. Fal'ko, "Self-organized quantum dots in marginally twisted MoSe2/WSe2 and MoS2/WS2 bilayers", npj 2D Mater. Appl. 6, 74 (2022). see also: arXiv:2204.06823.
· Mingjie Pu, Yufeng Guo, and Wanlin Guo, "Strain-mediated oxygen evolution reaction on magnetic two-dimensional monolayers", Nanoscale Horiz. 7, 1404-1410 (2022).
· Qishuo Tan, Weijun Luo, Tianshu Li, Jun Cao, Hikari Kitadai, Xingzhi Wang, and Xi Ling, "Charge-transfer-enhanced d–d emission in antiferromagnetic NiPS3", Appl. Phys. Rev. 9, 041406 (2022).
· Christian Martella, Davide Campi, Pinaka Pani Tummala, Erika Kozma, Paolo Targa, Davide Codegoni, Marco Bernasconi, Alessio Lamperti, and Alessandro Molle, "Extreme Bendability of Atomically Thin MoS2 Grown by Chemical Vapor Deposition Assisted by Perylene-Based Promoter", Nanomaterials 12, 4050 (2022).
· M. Sledzinska, P. Xiao, E. Puig Vilardell, E. Chávez Angel, M. J. Esplandiu, and C. M. Sotomayor Torres, "Exciton tuning and strain imaging in WS2 supported on PDMS micropillars", Appl. Phys. Lett. 121, 253101 (2022).
· Dongjoon Rhee, Boyun Han, Myeongjin Jung, Jihyun Kim, Okin Song, and Joohoon Kang, "Hierarchical Nanoscale Structuring of Solution-Processed 2D van der Waals Networks for Wafer-Scale, Stretchable Electronics", ACS Appl. Mater. Interfaces 14, 57153-57164 (2022).
· S. Reshmi, R. Sundheep, and Dattatray J. Late, "Optical Based Technoques for 2D Layered Materials (Book Chapter)", Advanced Analytical Techniques for Characterization of 2D Materials (Editor: C. S. Rout and D. J. Late) Chapter 2, pp 2-1−2-24 (2022) (AIP Publishing, Melville, New York).
· RPratik V. Shinde, Vitthal M. Shinde, and Chandra Sekhar Rout, "X-Ray-Based Techniques for 2D Materials (Book Chapter)", Advanced Analytical Techniques for Characterization of 2D Materials (Editor: C. S. Rout and D. J. Late) Chapter 4, pp 4-1−4-24 (2022) (AIP Publishing, Melville, New York).
· Rutuparna Samal, Sithara Radhakrishnan, and Chandra Sekhar Rout, "Analytical Techniques for Pore Size and Specific Surface Area Analysis (Book Chapter)", Advanced Analytical Techniques for Characterization of 2D Materials (Editor: C. S. Rout and D. J. Late) Chapter 8, pp 8-1−8-24 (2022) (AIP Publishing, Melville, New York).
2023 {19}
· Wen Tong Geng, Jian Bo Lin, Vei Wang, Qiang Gu, Qing Peng, Takahisa Ohno, and Jun Nara, "Displacement vorticity as the origin of moiré potentials in twisted WSe2/MoSe2 bilayers", Matter 6, 493-505 (2023).
· Wenwei Chen, Canghai Zheng, Jiajie Pei, and Hongbing Zhan, "External field regulation strategies for exciton dynamics in 2D TMDs", Opt. Mater. Express 13, 1007-1030 (2023).
· Sheng-Kuei Chiu, Ming-Chi Li, Ji-Wei Ci, Yuan-Chih Hung, Dung-Sheng Tsai, Chien-Han Chen, Li-Hung Lin, Kenji Watanabe, Takashi Taniguchi, Nobuyuki Aoki, Ya-Ping Hsieh, and Chiashain Chuang, "Enhancing optical characteristics of mediator-assisted wafer-scale MoS2 and WS2 on h-BN", Nanotechnology 34, 255703 (2023).
· Ishant Chauhan, Manjot Kaur, Kulwinder Singh, Ram K. Sharma, Ankush Vij, Anup Thakur, and Akshay Kumar, "Temperature- and light-dependent photoconductivity studies of thermally evaporated WTe2 thin film for photodetection application", Appl. Nanosci. 13, 3225-3232 (2023).
· Myung Uk Park, Myeongjin Kim, Sung Hyun Kim, ChangJun Lee, Kyo-Seok Lee, Jaehun Jeong, Mann-Ho Cho, Dug Young Kim, Kyung-Hwa Yoo, "Funnel Devices Based on Asymmetrically Strained Transition Metal Dichalcogenides", Adv. Mater. 35, 2209788 (2023).
· B. Ardini, A. Bassi, A. Candeo, A. Genco, C. Trovatello, F. Liu, X. Zhu, G. Valentini, G. Cerullo, R. Vanna, and C. Manzoni, "High-throughput multimodal wide-field Fourier-transform Raman microscope", Optica 10, 663-670 (2023).
· Sumaiya Jahan Tabassum, Tanshia Tahreen Tanisha, Nishat Tasnim Hiramony, and Samia Subrina, "Large band gap quantum spin Hall insulators in plumbene monolayer decorated with amidogen, hydroxyl and thiol functional groups", Nanoscale Adv. 5, 3357-3367 (2023).
· Surinder Pal Kaur, Vikash Mishra, and Brahmananda Chakraborty, "Transition metal dichalcogenides and hybrids for electrochemical sensing (Book Chapter)", 2D Materials-Based Electrochemical Sensors (Editor: Chandra Sekhar Rout) Chapter 6, pp 199−224 (2023) (Elsevier).
· Sithara Radhakrishnan and Chandra Sekhar Rout, "2D black phosphorous based electrochemical sensors (Book Chapter)", 2D Materials-Based Electrochemical Sensors (Editor: Chandra Sekhar Rout) Chapter 9, pp 281−301 (2023) (Elsevier).
· Jin Myung Kim, Md Farhadul Haque, Ezekiel Y. Hsieh, Shahriar Muhammad Nahid, Ishrat Zarin, Kwang-Yong Jeong, Jae-Pil So ,Hong-Gyu Park, and SungWoo Nam, "Strain Engineering of Low-Dimensional Materials for Emerging Quantum Phenomena and Functionalities", Adv. Mater. 35, 2107362 (2023).
· Mengfei Yuan, Junqiu Zhang, Xingyu Yue, Yipu Xia, Yuanjun Jin, Wingkin Ho, and Maohai Xie, "Substrate Effect on Band Bending of MoSe2 Monolayer Near Mirror-Twin Domain Boundaries", Adv. Elect. Mater. 9, 2300112 (2023).
· Li Tan, Ming-Ming Yang, Xiao-Wen Hu, Qi-Geng Yan, Chun-Lin Wu, Bao-Lai Liang, Yu Zhang, and Xiao-Li Li, "Temperature-dependent photoluminescence characteristics of 2D vertically oriented MoS2 microsheets grown by magnetron sputtering", Optik 288, 171188 (2023).
· Weifeng Jin, "High Electric Field Transport Characteristics in Field-Effect Transistors Based on Monolayer/Few-Layer MoS2", IEEE Transactions on Electron Devices 70, 3992-4000 (2023).
· Hong Tang, Jason M. Breslin, Li Yin, and Adrienn Ruzsinszky, "Bending effects and optical properties of WSe2 nanoribbons of topological phase", Phys. Rev. Mater. 7, 084201 (2023).
· Hongtao Ren and Gang Xiang, "Strain Engineering of Intrinsic Ferromagnetism in 2D van der Waals Materials", Nanomaterials 13, 2378 (2023).
· Na-Na Zhao, Jia-Min Wang, Zhi-Hao Yuan, Zhen Cui, and Cong-Cong Ren, "First principles study of electronic and optical properties of S-type heterostructures MoSi2N4/GeC", Acta Phys. Sin. 72, 196102 (2023) (written in Chinese).
· Sikandar Aftab, Sajjad Hussain, and Abdullah A. Al-Kahtani, "Latest Innovations in Two-dimensional Flexible Nanoelectronics", Adv. Mater. 35, 2301280 (2023).
· Soyeong Kwon, Jin Myung Kim, Peiwen J. Ma, Weilin Guan, and SungWoo Nam, "Near-Field Nano-Optical Imaging of van der Waals Materials", Adv. Phys. Res. 2, 2300009 (2023).
· Faling Ling, Yi Ling, Xiaoqing Liu, Li Li, Xianju Zhou, Xiao Tang, Chuan Jing, Yongjie Wang, Sha Jiang, and Yi Lu, "Chirality dependent electromechanical properties of single-layer MoS2 under out-of-plane deformation: A DFT study", Phys. Chem. Chem. Phys. 25, 28510-28516 (2023).
2024 {21}
· H. Li, S. Kovalchuk, A. Kumar, D. Liang, B. D. Frank, H. Lin, N. Severin, K. Bolotin, S. Kirstein, and J. P. Rabe, "Evidence for charging and discharging of MoS2 and WS2 on mica by intercalating molecularly thin liquid layers", Phys. Status Solidi A 221, 2300302 (2024).
· Shrawan Roy, Jie Gao, and Xiaodong Yang, "Upconversion photoluminescence of monolayer WSe2 with biaxial strain tuning", Opt. Express 32, 3308-3315 (2024).
· Yue Zhang, M. Abir Hossain, Kelly J. Hwang, Paolo F. Ferrari, Joseph Maduzia, Tara Peña, Stephen M. Wu, Elif Ertekin, and Arend M. van der Zande, "Patternable Process-Induced Strain in 2D Monolayers and Heterobilayers", ACS Nano 18, 4205-4215 (2024).
· Isaac Soltero, Mikhail A. Kaliteevski, James G. McHugh, Vladimir V. Enaldiev, and Vladimir I. Fal’ko, "Competition of Moiré Network Sites to Form Electronic Quantum Dots in Reconstructed MoX2/WX2 Heterostructures", Nano Lett. 24, 1996-2002 (2024). See also: arXiv:2311.17710.
· Rashbihari Layek, Koushik Mondal, Srikanta Karmakar, Rajat Sarkar, Dipankar Chattopadhyay, and Pathik Kumbhakar, "Synergistic effect in Chemically Synthesized Noble Metal Nanoparticles and 2D MoSe2 Nanocomposite for Enhanced Electrochemical Performance", Mater. Today Commun. 38, 108342 (2024).
· Haitao Yu, Mingzi Sun, Xiao Wu, Cheuk Hei Chan, Bolong Huang, and Zhong Lin Wang, "Atomscopic of Ripple Origins for Two-Dimensional Monolayer Transition Metal Dichalcogenides", Nano Res. 17, 2136-2144 (2024).
· Shrawan Roy, Xiaodong Yang, and Jie Gao, "Biaxial strain tuned upconversion photoluminescence of monolayer WS2", Sci. Rep. 14, 3860 (2024).
· Sam Olin, Erekle Jmukhadze, Allan H. MacDonald, and Wei-Cheng Lee, "Ab initio study of the energy competition between Γ and K valleys in bilayer transition metal dichalcogenides", Phys. Rev. B 109, 165101 (2024). See also: arXiv:2310.17824.
· Shrawan Roy, Xiaodong Yang, and Jie Gao, "Uniaxial Strain Tuning of Upconversion Photoluminescence in Monolayer WSe2", Adv. Photonics Res. 5, 2300220 (2024).
· Haoyu Dong, Songyang Li, Shuo Mi, Jianfeng Guo, Zhaxi Suonan, Hanxiang Wu, Yanyan Geng, Manyu Wang, Huiwen Xu, Li Guan, Fei Pang, Wei Ji, Rui Xu, and Zhihai Cheng, "Strain-engineered rippling at the bilayer-MoS2 interface identified by advanced atomic force microscopy", Front. Phys. 19, 63201 (2024).
· Jingwei Wang, Liqiong He, Yunhao Zhang, Huiyu Nong, Shengnan Li, Qinke Wu, Junyang Tan, and Bilu Liu, "Locally Strained 2D Materials: Preparation, Properties, and Applications", Adv. Mater. 36, 2314145 (2024).
· Yu-Ching Chen, Po-Han Chen, Yin-Song Liao, Jyh-Pin Chou, and Jyh Ming Wu, "Defect Engineering Centrosymmetric 2D Material Flexocatalysts", Small 20, 2401116 (2024).
· Shijie Hao, Yulong Hao, Jin Li, Kaiyi Wang, Chen Fan, Shiwei Zhang, Yuehua Wei, and Guolin Hao, "Controllable growth of two-dimensional wrinkled WSe2 nanostructures via chemical vapor deposition based on thermal mismatch strategy", Appl. Phys. Lett. 125, 072102 (2024).
· Xiangxiang Yu, Zhuiri Peng, Langlang Xu, Wenhao Shi, Zheng Li, Xiaohan Meng, Xiao He, Zhen Wang, Shikun Duan, Lei Tong, Xinyu Huang, Xiangshui Miao, Weida Hu, and Lei Ye, "Manipulating 2D Materials through Strain Engineering", Small 20, 2402561 (2024).
· Tao Yuwen, Ruiquan Yang, Assel Aitkaliyeva, Charles J. Hages, and Daniel R. Talham, "Spin-Crossover Solids as Phase-Change Materials to Actuate Strain in 2D MoS2", Chem. Mater. 36, 8714-8724 (2024).
· Ramon Torres-Cavanillas and Alicia Forment-Aliaga, "Design of stimuli-responsive transition metal dichalcogenides", Commun. Chem. 7, 241 (2024).
· Shashi Pandey, R. Kiran, Ravi Trivedi, Y. Raviprakash, Sudha D. Kamath, and Vikash Mishra, "Insights on bio-medical, quantum, and optoelectronic applications of 2D transition metal dichalcogenides–a review", Opt. Quantum Electron. 56, 1920 (2024).
· Indrajeet Dhananjay Prasad, Sumitra Shit, Yunus Waheed, Jithin Thoppil Surendran, KenjiWatanabe, Takashi Taniguchi, and Santosh Kumar, "Measurements of absolute bandgap deformation-potentials of optically-bright bilayer WSe2", arXiv:2412.00453 (2024).
· Xinxin Yue, Lifu Zhang, Xiang Chen, Shaozheng Ji, Fang Liu, Min Feng, Shibin Deng, Zhenpeng Hu, Yuan Yan, and Xuewen Fu, "Abnormal Response of Indirect Excitons to Non-Uniform Elastic Strain in MoS2 Flakes", Adv. Opt. Mater. 12, 2401728 (2024).
· Hengbo Liu, Jia Li, Jianke Tian, Yan Li, Linyang Li, Jun Li, and Guodong Liu, "Abnormal Response of Indirect Excitons to Non-Uniform Elastic Strain in MoS2 Flakes", Phys. Chem. Chem. Phys. 26, 29813-29824 (2024).
· Jin Myung Kim, Kwang-Yong Jeong, Soyeong Kwon, Jae-Pil So, Michael Cai Wang, Peter Snapp, Hong-Gyu Park, and SungWoo Nam, "Strained two-dimensional tungsten diselenide for mechanically tunable exciton transport", Nat. Commun. 15, 10847 (2024).
2025 {20}
· V. Wang, J. B. Lin, E. Z. Liang, T. Ohno, J. Nara, and W. T. Geng, "Effect of direct interlayer coupling on the moiré potentials in twisted WSe2/MoSe2 heterobilayers", Physica B 699, 416873 (2025).
· Ruoqi Ai, Ximin Cui, Yang Li, and Xiaolu Zhuo, "Local Strain Engineering of Two-Dimensional Transition Metal Dichalcogenides Towards Quantum Emitters", Nano-Micro Lett. 17, 104 (2025).
· Shuo Liu, Xinyun Zhou, Wanglong Wu, Junda Yang, Ruiying Ma, Le Yuan, Qinglin Xia, Mianzeng Zhong, and Jun He, "Strong interface coupling for enhanced photoresponse in 1D BiInSe/2D WSe2 phototransistor", Appl. Phys. Lett. 126, 061101 (2025).
· Hotae Jeon, Hee Jung Kwon, Jaehyun Lee, Sun Kyung Han, Hyunjin Kim, Jaewon Heo, Junhwi Han, Seunghun Shin, Jiheon Park, Min Kyung Cho, Daniel J. Preston, In Soo Kim, Minho Kim, and Won-Kyu Lee, "Strain-Enabled Band Structure Engineering in Layered PtSe2 for Water Electrolysis under Ultralow Overpotential", ACS Nano 19, 9107-9120 (2025).
· Ajit Kumar Katiyar and Jong-Hyun Ahn, "Strain-Engineered 2D Materials: Challenges, Opportunities, and Future Perspectives", Small Methods 9, 2401404 (2025).
· Suvi-Tuuli Varjamo, Christopher Edwards, Yaoqiang Zhou, Ruihuan Fang, Seyed Hossein Hosseini Shokouh, and Zhipei Sun, "Optical Modification of TMD Heterostructures", Nano Lett. 25, 4379-4385 (2025).
· Xiaoming Liu, Andong Hu, Zhaoli Liu, Keren Ding, Wei Xia, Huayuan Shangguan, Cui Zhang, and Tao Fu, "Review on Fundamental and Recent Advances of Strain Engineering for Enhancing Photocatalytic CO2 Reduction", Adv. Energy Mater. 15, 2405320 (2025).
· Seung Hun Lee, Dabin Jeon, and Sung-Nam Lee, "Synaptic Plasticity and Memory Retention in ZnO–CNT Nanocomposite Optoelectronic Synaptic Devices", Materials 18, 2293 (2025).
· Yan Zhang, Shu-Zhuan Sun, and Li Duan, "ZnI2/SnS2 van der Waals heterojunction: A high-efficiency direct Z-type photocatalyst for overall water-splitting predicted from first-principles calculation", Chem. Phys. 597, 112796 (2025).
· Rui Wang, Zishun Li, Shunyu Chang, Zihan Li, Yue Liu, Nan Qin, Wen-Zhu Shao, Cheng-Yan Xu, Liang Zhen, Tiger H. Tao, Yanquan Geng, Xiaorui Zheng, and Yang Li, "Spatially Textured Strained Engineering of WSe2 on Dielectric Silk Fibroin for Enhanced Optoelectronic Performance", ACS Nano 19, 20237-20246 (2025).
· Xing Zhen, Huazhen Wu, Wenyong Feng, Haowen Chen, Jing Wang, Huanjun Chen, Ningsheng Xu, Lei Shao, and Shao-Zhi Deng, "Single-Particle Plasmon Spectroscopy Revealing the Local Strain-Induced Band Structure Change in 2D Semiconductors", Adv. Opt. Mater. 13, 2500158 (2025).
· Tian-Jun Dai, Xiang Xiao, Zhong-Yuan Fan, Zi-Yan Zhang, Yi Zhou, Yong-Chi Xu, Jian Sun, and Xue-Fei Liu, "Barrier-Free Carrier Injection in 2D WSe2-MoSe2 Heterostructures via Fermi-Level Depinning", Nanomaterials 15, 1035 (2025).
· Yuanqiang He, Hongjin Xiong, Qingkang Ren, Zhiwei Chen, Weirui Yu, Jieli Liu, Chao Wang, and Jinlai Zhao, "Enhanced Photoluminescence and Optoelectronic Performance for Wrinkled 2D MoS2 Through Strain Regulation", Adv. Opt. Mater. 13, 2500670 (2025).
· Shimei Liu, Zhenxu Lin, Yuheng Mao, Shulei Li, Mingcheng Panmai, Guixin Li, and Sheng Lan, "Giant Enhancement of Second Harmonic Generation From WS2 Monolayer Driven by Nanocavity-Induced Strain", Laser Photonics Rev. 19, e00468 (2025).
· Amir Kleiner and Sivan Refaely-Abramson, "First-principles design for strain-tunable exciton dynamics in 2D materials", arXiv:2507.09363 (2025).
· Jiahui Zhang, Jingwei Wang, Yunhao Zhang, Huiyu Li, Liqiong He, Shengnan Li, Mingchuang Zhao, Yu Lei, Hongzhang Wang, and Bilu Liu, "Reversed Liquid Metal Phase Transition-Induced Transfer and Wrinkle Formation in Two-Dimensional Materials", Chem. Mater. 37, 6689-6696 (2025).
· Xingfu Li, Sunny Gupta, and Boris I. Yakobson, "Undulation-induced moiré superlattices with one-dimensional polarization domains and flat bands in two-dimensional bilayer semiconductors", Phys. Rev. B 112, 115308 (2025).
· Dario Marchiani, Nuria Jimenez-Arevalo, Ilaria Rago, Francesco Pandolfi, Gianluca Cavoto, Marco Sbroscia, Pavel Dudin, Jose Avila, Carlo Mariani, Maria Grazia Betti, and Riccardo Frisenda, "Tensile Strain-Induced Bandgap Reduction and Exciton Recombination in a Trilayer MoS2 Nanosheet Wrinkle: Implications for Nanoscale Optoelectronic and Photonic Devices", ACS Appl. Nano Mater. 8, 20230-20238 (2025).
· Yanyan Geng, Chang Li, Shuo Mi, Manyu Wang, Xinen Han, Huiji Hu, Yunzhen Wang, Haojie You, Shumin Meng, Hanxiang Wu, Jianfeng Guo, Shiyu Zhu, Yanjun Li, Yasuhiro Sugawara, Sabir Hussain, Fei Pang, Rui Xu, and Zhihai Cheng, "Unveiling the delicate “hidden” conditions at the interface of 2D materials by advanced atomic force microscopy", arXiv:2510.23139 (2025).
· Kleuton A. L. Lima, José A. dos S. Laranjeira, Neymar J. N. Cavalcante, Nicolas F. Martins, Julio R. Sambrano, Douglas S. Galvão, Luiz A. Ribeiro Jr, "Quadrene: A Novel Quasi-2D Carbon Allotrope with High Carrier Mobility", arXiv:2512.14911 (2025).
2026 {1}
· Shrawan Roy, Jie Gao, and Xiaodong Yang, "Upconversion photoluminescence in WSSe alloy monolayer under uniaxial tensile strain", Opt. Mater. 169, 117563 (2026).
· Abhishek R. Patel, Anas D. Fazal, Trupti D. Solanky, Subhendu Dhibar, Sumit Kumar, and Sumit Kumar Panja, "Recent advances and challenges in graphene-based nanomaterials for photocatalytic CO2 reduction", Mater. Adv., accepted (2026).
· Yue Gao, Jiahao Xu, Yuanqiu Lai, Yaoxuan Fan, Yuhan Zhou, Ying Tu, Xiang Liu, Xueqian Xia, Gui-Na Wei, Jia-Wei Shen, and Wei Duan, "2D nanomaterial-triggered ferroptosis in cancer therapy", J. Nanobiotechnol., accepted (2026).
· Pooja D. Reddy, Virat Tara, Arturas Vailionis, Arka Majumdar, and Kunal Mukherjee, "Reversible Polymorph Switching in IV–VI Thin Films with Epitaxial Control and Birefringence Contrast", Nano Lett., accepted (2026).