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Covers in 2015
24. H. Xu, Y. Xu, X. Pang, Y. He, J. Jung, H. Xia, and Z. Lin, “A general route to nanocrystal kebabs periodically assembled on stretched flexible polymer shish”, Science Advances. 1, e1500025 (2015).(Highlighted by: [Science]; [Georgia Institute of Technology]; [PhysOrg]; [ScienceDaily]; [Nanowerk]; [World of Chemicals]; [Nanotechnology Now]; [Pinterest]; [Fnews]; [Nano Daily]; [TrendsSoul]; and [more])
23. B. Jiang, X. Pang, B. Li, and Z. Lin, “Organic-inorganic nanocomposites via placing monodisperse ferroelectric nanocrystals in direct and permanent connect with ferroelectric polymers”, Journal of the American Chemical Society. 137, 11760 (2015).
22. J. Hu, A. Liu, H. Jin, D. Ma, D. Yin, P. Lin, Shun Wang, Z. Lin, and J. Wang, “A Versatile Strategy for Shish-Kebab-Like Multi-Heterostructured Chalcogenides and Enhanced Photocatalytic Hydrogen Evolution”, Journal of the American Chemical Society. 137, 11004 (2015).
21. D. Yang, X. Pang, Y. He, Y. Wang, G. Chen, W. Wang, and Z. Lin, “Precisely Size-Tunable Magnetic/Plasmonic Core/Shell Nanoparticles with Controlled Optical Properties”, Angewandte Chemie International Edition . 54, 12091 (2015).
20. H. Xu, X. Pang, Y. He, M. He, J. Jung, H. Xia, and Z. Lin, “An Unconventional Route to Monodisperse and Intimate Semiconducting Organic-Inorganic Nanocomposites”, Angewandte Chemie International Edition. 54, 4636 (2015). (featured on the Cover of Angewandte Chemie International Edition).
19. B. Li, C. Zhang, B. Jiang, W. Han, and Z. Lin, “Flow-Enabled Self-Assembly of Large-Scale Aligned Nanowires”, Angewandte Chemie International Edition. 54, 4250 (2015). (Selected as Very Important Paper (VIP)).
18. Y. Yang, W. Zhan, R. Peng, C. He, X. Pang, D. Shi, T. Jiang, and Z. Lin, “Graphene-Enabled Superior and Tunable Photomechanical Actuation in Liquid Crystalline Elastomer Nanocomposites”, Advanced Materials. 27, 6376 (2015). (featured on the Cover of Advanced Materials)
17. S. Wu, R. Xu, M. Lu, R. Ge, J. Iocozzia, C. Han, B. Jiang, and Z. Lin, “Graphene-Containing Nanomaterials for Lithium Ion Battery”, Advanced Energy Materials. 5, 1500400 (2015). (featured on the Cover of Advanced Energy Materials)
16. S. H. Kang, W. S. Hwang, Z. Lin, S. H. Kwon, and S. W. Hong, “A Robust Highly Aligned DNA Nanowire Array-Enabled Lithography for Graphene Nanoribbon Transistors”, Nano Letters. 15, 7913 (2015).
15. K. Eom, J. Jung, V. Lair, J. Tapesh, S. Lee, Z. Lin, and T. F. Fuller “Improved stability of bare Sn electrode with high quality SEI formation for lithium ion battery”, Nano Energy. 12, 314 (2015).
14. D. Zheng, X. Pang, M. Wang, Y. He, C. Lin, and Z. Lin, “Unconventional Route to Hairy Plasmonic/Semiconductor Core/Shell Nanoparticles with Precisely Controlled Dimensions and Their Use in Solar Energy Conversion”, Chemistry of Materials. 27, 5271 (2015).
13. B. Li, B. Jiang, H. Tang, and Z. Lin, “Unconventional Seed-Mediated Growth of Ultrathin Au Nanowires in Aqueous Solution”, Chemical Science. 6, 6349 (2015).
12. M. Wang, D. Zheng, M, Ye, X. Xu, C. Lin, L. Sun, and Z. Lin, “One-dimensional densely aligned perovskite-decorated semiconductor heterojunctions with enhanced photocatalytic activity”, Small. 11, 1436 (2015). (Highlighted by Materials View. [Link]; featured on the Frontispiece of Small).
11. C. Feng, X. Pang, Y. He, Y. Chen, G. Zhang, and Z. Lin, “A Versatile Strategy for Uniform Hybrid Nanoparticles and Nanocapsules”, Polymer Chemistry. 6, 5190 (2015). (featured on the Cover of Polymer Chemistry).
10. X. Xin, R. Biswas, B. Li, J. Jung, Y. Yoon, and Z. Lin, “Ab initio simulation of charge transfer at the semiconductor quantum dot/TiO2 interface in quantum dot-sensitized solar cells”, Particle and Particle Systems Characterization, 32, 80 (2015). (featured on Cover of Particle and Particle Systems Characterization).
9. M. Ye, X. Wen, M. Wang, J. Iocozzia, N. Zhang, C. Lin, and Z. Lin, “Recent advances in dye-sensitized solar cells: from photoanodes, sensitizers, electrolytes to counter electrodes”, Materials Today. 18, 155 (2015).
8. W. Liao, D. Zheng, J. Tian, and Z. Lin, “Dual-functional semiconductor-decorated upconversion hollow spheres for high efficiency dye-sensitized solar cells”, Journal of Materials Chemistry A. 3, 23360 (2015).
7. X. Liu, Z. Li, W. Zhao, C. Zhao, Y. Wang, and Z. Lin, “A facile route to reduced graphene oxide-wrapped octahedral Cu2O with enhanced photocatalytic and photovoltaic performance”, Journal of Materials Chemistry A. 3, 19148 (2015).
6. X. Zhang, Y. Lai, Y. Zeng, K. Zhang, and Z. Lin, “Fibrous and Flexible Supercapacitors Comprising Hierarchical Nanostructures with Carbon Spheres and Graphene Oxide Nanosheets”, Journal of Materials Chemistry A. 3, 12761 (2015).
5. C. Han, D. Yang, Y. Yang, B. Jiang, Y. He, M. Wang, A. Song, Y. He, B. Li, and Z. Lin, “Hollow Titanium Dioxide Spheres as Anode Material for Lithium Ion Battery with Largely Improved Rate Stability and Cycle Performance by Suppressing the Formation of Solid Electrolyte Interface Layer”, Journal of Materials Chemistry A. 3, 13340 (2015).
4. D. Yang, M. Wang, B. Zhou, G. Zhang, and Z. Lin, “An External Template-Free Route to Uniform Semiconducting Hollow Mesospheres and Their Use in Photocatalysis”, Nanoscale. 7, 12990 (2015).
3. H. Tang, Y. He, B. Li, J. Jung, C. Zhang, X. Liu, and Z. Lin, “Continuous Crafting of Uniform Colloidal Nanocrystals by Inert-Gas-Driven Microflow Reactor”, Nanoscale. 7, 9731 (2015).
2. S. Wu, Y. Lv, M. Lu, and Z. Lin, “A Facile and Environmentally Friendly Route to Multiferroic Nanorods and Their Size-dependent Magnetic Properties”, Journal of Materials Chemistry C. 3, 3121 (2015).
1. Y. Xu, C. Wang, S. Zhong, W. Li, and Z. Lin, “Self-assembly of Miktoarm Star-Like ABn Block Copolymers: From Wet to Dry Brushes”, Langmuir. 31, 2905 (2015).
