Lidezeng

Novel photoelectric functional materials and devices：Self-assembly and biomimetic nanomaterials&Light control materials&Energy conversion/storage materials and devices.

❖Q. Lu, H. Guo, Y. Y. Zhang, X. D. Tang, W. B. Lei, R. J. Qi, J. H. Chu, D. Z. Li*, Q. B. Zhao*. Graphene oxide-Fe₃O₄ nanocomposite magnetic solid phase extraction followed by UHPLC-MS/MS for highly sensitive determination of eight psychoactive drugs in urine samples. Talanta 2020, 206, 120212.

❖Q. Lu, L. Y. Liu, X. L. Zhang, Y. Cheng, Y. Huang, Y. K. Shan, Q. B. Zhao, G. H. Zhang, D. Z. Li*. Graphene transparent conductive films directly grown on quartz substrates by assisted catalysis of Cu nanoparticles. Journal of Materials Science 2019, 54(14), 10312–10324.

❖Y. Huang, J. Y. Lin, L. Y. Liu, Q. Lu, X. L. Zhang, G. H. Zhang, D. Z. Li*. Enhanced Performance of Graphene Transparent Conductive Films by Introducing SiO₂ Bilayer Antireflection Nanostructure. New Journal Chemistry 2019, 43, 19063–19068.

❖Y. Cheng, H. Bi*, X. L. Che, D. Z. Li*, W. L. Ji, F. Q. Huang*. Suppression of graphene nucleation by plasma treatment of Cu foil for the rapid growth of large-size single-crystal graphene. Carbon 2019, 147, 51–57.

❖Y. Cheng, H. Bi*, X. L. Che, W. Zhao, D. Z.Li*, F. Q. Huang*. Rapid growth of large-area single-crystal graphene film by seamless stitching using resolidified copper foil on a molybdenum substrate.Journal of Materials Chemistry A 2019, 7(31), 18373–18379.

❖X. L. Zhang, Q. Lu, Y. Cheng, L. Y. Liu, Y. K. Shan, G. H. Zhang, D. Z. Li*. Moth-eye-like antireflection coatings based on close-packed solid/hollow silica nanospheres. Journal of Sol-Gel Science and Technology 2019, 90(2), 330–338.

❖G. Q. Huang, G. H. Zhang*, Z. P. Gao, J. W. Cao, D. Z. Li, H. Yun*, T. Zeng*. Enhanced visible-light-driven photocatalytic activity of BiFeO₃ via electric-field control of spontaneous polarization. Journal of Alloys and Compounds 2019, 783, 943–951.

❖G. H. Zhang, J. W. Cao, G. Q. Huang, J. Li, D. Z. Li, W. F. Yao*, T. Zeng*. Facile fabrication of well-polarized Bi₂WO₆ nanosheets with enhanced visible-light photocatalytic activity. Catalysis Science & Technology 2018, 8, 6420–6428.

❖L. Y. Liu, Y. Cheng, X. L. Zhang, Y. K. Shan, X. Zhang, W. Y. Wang, D. Z. Li*. Graphene-based transparent conductive films with enhanced transmittance and conductivity by introducing antireflection nanostructure. Surface & Coatings Technology 2017, 325, 611-616.

❖S. S. Han, L. Y. Liu, Y. K. Shan, F. Yang, D. Z. Li*. Research of Graphene/Antireflection Nanostructure Composite Transparent Conducting Films. Journal of Inorganic Materials 2017, 32(2), 197–202.

❖S. S. Han, F. Yang, L. Y. Liu, M. Zhou, Y. K. Shan, D. Z. Li*. Direct Growth of Graphene on Different Templates to Fabricate Special Shapes of Graphene by Remote Catalyzation of Cu Nanoparticles. Journal of Materials Science & Technology 2017, 33(8), 800-806.

❖S. S. Han, D. Z. Li*,Y. K. Shan*, K. Yuan. Research of Antireflection and Visible Luminescence Performance of SiO₂ film doped with Eu³⁺. Jouranl of Rare Earth & Application 2015, 1, 1–6.

❖D. Z. Li, S. S. Han, A. M. Li, Y. M. Wang, Y. K. Shan*, F. Q. Huang*. Novel-Type Nanostructured SiO₂ Antireflection Coatings and Their Application in Cu(In,Ga)Se₂ Solar Cells. Materials Chemistry and Physics 2015, 165, 97–102.

❖李德增*，陈波. 自主探究、分层式实验教学改革探索. 第13届全国大学化学教学研讨会 2015. P305–308. (会议论文)

❖李德增*，陈波. 突破衍射极限--探索纳米世界的超分辨显微技术. 化学教学 2015, 37(1), 12–15,19. (邀请文章)

❖D. Z. Li, Z. Q. Liu, Y. M. Wang*, Y. K. Shan, F. Q. Huang*. Efficiency Enhancement of Cu(In,Ga)Se₂ Solar Cells by Applying SiO₂–PEG/PVP Antireflection Coatings. Journal of Materials Science & Technology 2015, 31(2), 229–234.

❖D. Z. Li,Y. K. Shan*, F. Q. Huang*, S. J. Ding. Sol–Gel Preparation and Characterization of SiO₂ coated VO₂ Films with Enhanced Transmittance and High Thermochromic Performance. Applied Surface Science 2014, 317, 160–166.

❖D. Z. Li, D. Y. Wan, X. L. Zhu, Y. M. Wang*, Z. Han, S. S. Han, Y. K. Shan*, F. Q. Huang*. Broadband Antireflection TiO₂–SiO₂ Stack Coatings with Refractive-Index-Grade Structure and Their Applications to Cu(In,Ga)Se₂ Solar Cells. Solar Energy Materials & Solar Cells 2014, 130(11), 505–512.

❖D. Z. Li, Y. K. Shan*. Function Synergistic Effect of Broadband Antireflection and Thermochromism on SiO₂ coated VO₂ films. Proceeding of International Conference on Emerging Information, Technology & Materials 2013.

❖S. J. Ding, Z. Q. Liu, D. Z. Li, W. Zhao, Y. M. Wang, D. Y. Wan, F. Q. Huang*. Tunable Assembly of Vanadium Dioxide Nanoparticles to Create Porous Film for Energy-Saving Applications. ACS Applied Materials & Interfaces 2013, 5(5), 1630–1635.

❖D. Z. Li, G. M. Wu*, G. H. Gao, J. Shen, F. Q. Huang*. Ultrafast Coloring-Bleaching Performance of Nanoporous WO₃–SiO₂ Gasochromic Films Doped with Pd Catalyst. ACS Applied Materials & Interfaces 2011, 3(12), 4573–4579.

❖D. Z. Li, F. Q. Huang*, S. J. Ding. Sol–gel Preparation and Characterization of Nanoporous ZnO/SiO₂ Coatings with Broadband Antireflection Properties. Applied Surface Science 2011, 257(23), 9752–9756.

❖Y. W. Huang, D. Z. Li, J. H. Feng. G. F. Li, Q. Zhang*. Transparent Conductive Tungsten-Doped Tin Oxide Thin Films Synthesized by Sol–Gel Technique on Quartz Glass Substrates. Journal of Sol−Gel Science Technology 2010, 54(3), 276–281.

❖D. D. Lekeufack, A. Brioude*, A. W. Coleman, P. Miele, J. Bellessa, D. Z. Li, P. Stadelmann. Core-Shell Gold J-Aggregate Nanoparticles for Highly Efficient Strong Coupling Applications. Applied Physics Letters 2010, 96(25), 253107(1−3).

❖D. Z. Li, C. Symonds*, F. Bessueille, J. C. Plenet, A. Errachid, G. M. Wu, J. Shen, J. Bellessa. Transfer of Optically Active Polyelectrolyte Multilayers by Micro-Contact Printing. Journal of Optics A: Pure and Applied Optics 2009, 11(6), 065601(1−5).