Xinxin Zhang

Personal Resume

Currently she is a postdoctor at the Textile Technology Innovation Center of Donghua University. 

Education

      2011-2015 

Qingdao University, China

B.S. 

     2015-2022

Donghua University, China

Ph.D.

Employment History

2022-present

Textile Technology Innovation Center, Donghua University

Postdoctor

Major Research Achievements

Her main research interests are the construction, structural design, and application research of 3D nanofibrous materials for high-temperature thermal protection. She has published 11 SCl papers in journals such as ACS Nano、Adv. Funct. Mater, etc, of which 4 first author papers.

Representative Works：

[1] Xinxin Zhang, Fei Wang, Lvye Dou, Xiaota Cheng, Yang Si*, Jianyong Yu and Bin Ding*. Ultrastrong, superelastic, and lamellar multiarch structured ZrO₂–Al₂O₃ nanofibrous aerogels with high-temperature resistance over 1300 °C. ACS Nano 2020, 14 (11), 15616-15625.

[2] Xinxin Zhang, Xiaota Cheng, Yang Si*, Jianyong Yu and Bin Ding*. All-ceramic and elastic aerogels with nanofibrous-granular binary synergistic structure for thermal superinsulation. ACS Nano 2022, 16, 5487−5495.

[3] Xinxin Zhang, Xiaota Cheng, Yang Si*, Jianyong Yu*, and Bin Ding*. Elastic and highly fatigue resistant ZrO₂-SiO₂ nanofibrous aerogel with low energy dissipation for thermal insulation. Chemical Engineering Journal  2022, 433, 133628.

[4] Xinxin Zhang, Yitao Liu, Yang Si*, Jianyong Yu and Bin Ding*. Flexible and tough zirconia-based nanofibrous membranes for thermal insulation. Composites Communications 2022, 33, 101219.

[5] Lvye Dou, Xinxin Zhang, Haoru Shan, Xiaota Cheng, Yang Si*, Jianyong Yu and Bin Ding*. Interweaved cellular structured ceramic nanofibrous aerogels with superior bendability and compressibility. Advanced Functional Materials 2020, 30, 2005928.

[6] Lvye Dou, Xinxin Zhang, Xiaota Cheng, Zongmin Ma, Xueqin Wang, Yang Si*, Jianyong Yu and Bin Ding*. Hierarchical cellular structured ceramic nanofibrous aerogels with temperature-invariant superelasticity for thermal insulation. ACS Applied Materials & Interfaces 2019, 11(32), 29056-29064.

[7] Wen Zhou, Xinxin Zhang, Xiaobao Gong, Mingle Ding, Jianyong Yu, Shichao Zhang* and Bin Ding*. Environmentally friendly polyamide nanofiber membranes with interconnective amphiphobic channels for seawater desalination. ACS Applied Materials & Interfaces 2022, 14 (30), 35287-35296. 

[8] Shouzhen Li, Xinxin Zhang, Xiaota Cheng, Guangting Han*, Yang Si, Yitao Liu, Jianyong Yu and Bin Ding*. Flexible and compressive Al₂O₃/ZrO₂/Y₂O₃ nanofibrous membranes for thermal insulation at 1400 °C. Composites Communications 2022, 35, 101290.

[9] Dingding Zong, Xinxin Zhang, Xia Yin, Fei Wang, Jianyong Yu, Shichao Zhang* and Bin Ding*. Electrospun fibrous sponges: principle, fabrication, and applications. Advanced Fiber Materials 2022, 4, 1434-1462.

[10] Lvye Dou, Xiaota Cheng, Xinxin Zhang, Yang Si*, Jianyong Yu and Bin Ding*. Temperature-invariant superelastic, fatigue resistant, and binary-network structured silica nanofibrous aerogels for thermal superinsulation. Journal of Materials Chemistry A 2020, 8(16), 7775-7783.

[11] Xin Zhang, Cheng Liu, Xinxin Zhang, Yang Si*, Jianyong Yu, and Bin Ding*. Super strong, shear resistant, and highly elastic lamellar structured ceramic nanofibrous aerogels for thermal insulation. Journal of Materials Chemistry A 2021, 9, 27415-27423.