研究领域

木质功能改性、人造板加工制造

论文与著作

[1] Y. Chen¹, B. Dang¹, J. Fu, et al. Cellulose-Based Hybrid Structural Material for Radiative Cooling. Nano Letters 2021, 21, 1, 397–404.

[2] B. Dang, T. Jin, Y. Chen, et al. Effect of nano-zirconium oxide modification on flame retardancy of lignocellulose composite. Industrial Crops & Products, 2022, 26:5455-5466.

[3] B. Dang, Y. Chen，X. Shen. et al. Fabrication of Fe₃O₄-modified lignocellulose composite for microwave absorption via a sol–gel-assisted hot-pressing process. Cellulose, 2019, 26(9):5455-5466.

[4] B. Dang, Y. Chen，N. Yang, et al. Effect of aluminosilicate on flame-retardant and mechanical properties of lignocellulose composite. Cellulose, 2018, 25(7):4167-4177.

[5] B. Dang, Y. Chen, N. Yang, et al. Effect of carbon fiber addition on the electromagnetic shielding properties of carbon fiber/polyacrylamide/wood based fiberboards. Nanotechnology, 2018, 29(19): 195605.

[6] B. Dang, Y. Chen, H. Wang, et al. Preparation of high mechanical performance nano-fe₃o₄/wood fiber binderless composite boards for electromagnetic absorption via a facile and green method. Nanomaterials, 2018, 8(52).

[7] B. Dang, Y. Chen, X. Shen, et al. Fabrication of a Nano-ZnO/polyethylene/wood-fiber composite with enhanced microwave absorption and photocatalytic activity via a facile hot-press method. Materials, 2017, 10(11):1267.

        [8] Y. Wang, T. Xie, J. Zhang, B. Dang*, et al. Green fabrication of ionic liquid-activated lignocellulose flame retardant                     composite. Industrial Crops & Products, 2022, 178:11402.

荣誉与奖励

浙江省知识产权奖三等奖  2023.09