Resume:

Yuzhi Zhang, a researcher at the Special Coating Research Center of Shanghai Institute of Silicate, Chinese Academy of Sciences. Engaged in research on comprehensive performance test and evaluation technology of spacecraft thermal control materials under extreme on-orbit operating environment, created multi-station ultraviolet irradiation simulation equipment, built a service performance characterization platform for spacecraft materials, and supported the development and application of new aerospace materials. The Chairman of the Technical Committee of Special Coatings in the field of Inorganic non-metallic Materials of Chinese Society for Testing & Materials (CSTM).

Main research directions:

1.  Design, preparation and performance characterization of special function films

2.  Study on the evolution of structure and properties of materials irradiated environment in space

3.  Study on environmental effects and on-orbit performance of space materials

Main research achievements

Main projects undertaken in recent years (limited to 5):

1. Chinese Academy of Sciences key deployment project "Development of atomic oxygen resistant polyimide film materials for low orbit" Project 4 "Technology integration and atomic oxygen/UV synergistic effect evaluation technology，2019.10-2022.9

2. Basic Research Project "Surface modified coating technology" task 2 "multi-factor collaborative evaluation technology，2021.01-2023.12

3. Joint Project of National Natural Science Foundation of China " Surface modification-based construction of gradient layers against atomic oxygen and their service behavior in complex environments" Task 3 "Study on integrated effects of atomic oxygen/ultraviolet/ionization (electron, etc.)/thermal cycle in complex environment"

Representative works in recent years (limited to 5):

1. Xin Chai, Yuzhi Zhang*, Yunzhen Cao, Lingnan Wu, Jiayu Ma, Yangqiao Liu, Lixin Song, Modulation of photoelectric properties of indium tin oxide thin films via oxygen control, and its application to epsilon-near-zero properties for an infrared absorber, Journal of Applied Physics, 2020,128,185301

2. Haogeng Li, Hongyu Gu^？, Yuzhi Zhang^？, Lingnan Wu, Lixin Song^？, First-principles insights into atomic oxygen di？usion inside polyhedral oligomeric silsesquioxane cages, Computational Materials Science, 2021,186,110007

3. Denghang Tang, Haogeng Li, Hongyu Gu*, Shaobo Lv , Jiayu Ma, Yuzhi Zhang*, Lixin Song*，Porous silica coating with excellent atomic oxygen protection performance and ffexibility，Surface & Coatings Technology，2022，447：128840

4. Xin Chai, Rumeng Song, Yuzhi Zhang*, Yunzhen Cao, Yangqiao Liu, Lingnan Wu, Jiayu Ma, Lixin Song, A design strategy of wide angle, broadband tunable near-infrared absorber, Vacuum, 2022, 203,111307

5. Rumeng Song, Yuzhi Zhang*, Yan Zhang, Jiayu Ma, Lingnan Wu, and Lixin Song, A design strategy for aGST-GST-VO2-Ag based tunable thermal emitter Applied Physics Express 2023, 16, 042001

Recent authorized patents (optional, limited to 5):

1. A inkstone ZnO/ graphene composite photocatalyst and its preparation method, ZL201710131796.X, Authorization date, 2021 05 25

2. The method and device for measuring spectral emissivity of 50~150K low-temperature materials, ZL201910788369.6，Authorization date, 2022 12 13

3. Visible - near-infrared wavelength absorber, ZL202010652336.1, Authorization date, 2022 12 13

4. A micro and nano porous coating against atomic oxygen and preparation method thereof, ZL 202210207875.3, Authorization date, 2023 06 06

Standards developed in recent years (limited to 5)

1. Q/AKAD 0096-2022, Vacuum-ultraviolet irradiation test of space materials, Publishing data：2022 10 10

2. Q/AKAD 0600-2022, Test methods for atomic oxygen in space materials, Publishing data：2022 10 10