[1] J. J. Gu, W. Zhang, H. L. Su, T. X. Fan, S. M. Zhu, Q. L. Liu, D. Zhang*, “Morphology Genetic Materials Templated from Natural Species”, Adv Mater 2014 DOI:10.1002/adma.201401413. In press.
[2] D. X. Liu, J. J. Gu*, Q. L. Liu, Y. W. Tan, Z. Li, W. Zhang, Y. S. Su, W. X. Li, A. J. Cui, C. Z. Gu, D. Zhang*, “Metal-Organic Frameworks Reactivate Deceased Diatoms to be Efficient CO2 Absorbents”, Adv Mater 2014, 26, 1229. Inside Front Cover.
[3] Y. W. Tan, J. J. Gu*, W. Xu, Z. P. Chen, D. X. Liu, Q. L. Liu, D. Zhang*, “Reduction of CuO Butterfly Wing Scales Generates Cu SERS Substrates for DNA Base Detection”, ACS Appl Mater Inter 2013, 5, 9878.
[4] X. N. Zang, Y. W. Tan, Z. Lv, J. J. Gu*, D. Zhang*, “Moth wing scales as optical pH sensors” Sensor Actuat B-Chem 2012, 166, 824.
[5] Y. W. Tan, J. J. Gu*, L. H. Xu, X. N. Zang, D. Liu, W. Zhang, Q. L. Liu, S. M. Zhu, H. L. Su, C. L. Feng, G. L. Fan, D. Zhang*, “High-Density Hotspots Engineered by Naturally Piled-Up Subwavelength Structures in Three-Dimensional Copper Butterfly Wing Scales for Surface-Enhanced Raman Scattering Detection”, Adv Funct Mater 2012, 22, 1578. Inside Front Cover.
[6] X. N. Zang, Y. Y. Ge, J. J. Gu*, S. M. Zhu, H. L. Su, C. L. Feng, W. Zhang, Q. L. Liu, D. Zhang*, “Tunable optical photonic devices made from moth wing scales: a way to enlarge natural functional structures' pool”, J Mater Chem 2011, 21, 13913.
[7] Y. W. Tan, X. N. Zang, J. J. Gu*, D. X. Liu, S. M. Zhu, H. L. Su, C. L. Feng, Q. L. Liu, W. M. Lau, W. J. Moon, D. Zhang*, “Morphological Effects on Surface-Enhanced Raman Scattering from Silver Butterfly Wing Scales Synthesized via Photoreduction” Langmuir 2011, 27, 11742.
[8] Y. W. Tan, J. J. Gu*, X. N. Zang, W. Xu, K. C. Shi, L. H. Xu, D. Zhang*, “Versatile fabrication of intact three-dimensional metallic butterfly wing scales with hierarchical sub-micrometer structures”, Angew Chem Int Ed 2011, 50, 8307. Highlighted by Nature, “Materials: Butterfly wings turned to metal”, Nature 2011, 476, 9.
[9] Y. Chen, X. N. Zang, J. J. Gu*, S. M. Zhu, H. L. Su, D. Zhang*, X. B. Hu, Q. L. Liu, W. Zhang, D. X. Liu, “ZnO single butterfly wing scales: synthesis and spatial optical anisotropy”, J Mater Chem 2011, 21, 6140. Highlighted by Royal Society of Chemistry, UK, “A single scale tells more than a whole wing”.
[10] Y. Chen, J. J. Gu*, D. Zhang*, S. M. Zhu, H. L. Su, X. B. Hu, C. L. Feng, W. Zhang, Q. L. Liu, A. R. Parker, “Tunable three-dimensional ZrO2 photonic crystals replicated from single butterfly wing scales”, J Mater Chem 011, 21, 15237.
[11] Y. Chen, J. J. Gu*, S. M. Zhu, T. X. Fan, D. Zhang*, Q. X. Guo, “Iridescent large-area ZrO2 photonic crystals using butterfly as templates”, Appl Phys Lett 2009, 94.
[12] J. J. Gu*, D. Zhang, Q. X. Guo, “Giant Seebeck coefficient decrease in polycrystalline materials with highly anisotropic band structures: Implications in seeking high-quality thermoelectric materials”, Solid State Commun 2008, 148, 10.
[13] J. J. Gu*, M. W. Oh, H. Inui, D. Zhang, “Anisotropy of mobility ratio between electron and hole along different orientations in ReGexSi1.75-x thermoelectric single crystals”, Phys Rev B 2005, 71.
论著: [1] J. J. Gu, D. Zhang, Y. W. Tan, “Metallic Butterfly Wing Scales: Superstructures with High Surface-Enhancement Properties for Optical Applications”, Springer, 2014. In press.
