The zinc oxide tetrapods micro- and nanostructures offers the opportunity as solid backbone to integrate foreign nanostructures to functionalize them further in form of hybrid multifunctional nanomaterials. Key publications in the direction are listed below:
1. , Nanoscale Advances 2, 2114-2126 (2020).
2. , Materials Today Physics 100178 (2020).
3. , Inorganic Chemistry 59, 7727-7738 (2020).
4. , Nature Asia Materials 11, 8 (2019).
5. , Nanoscale Advances 1, 1516-1526 (2019).
6. , Carbon 144, 423-432 (2019).
7., Advanced Electronic Materials 5,1800791 (2019).
8. , Carbon 142, 60-67 (2019).
9. , Applied Surface Science 470, 535-542 (2019).
10. , Nanoscale 10, 10050-10062 (2018).
11. , Frontiers in Chemistry 6, 411 (2018).
12. , Scientific Reports 8, 13880 (2018).
13. , Ceramics International 44, 4859-4867 (2018).
14. , Advanced Functional Materials 27 1604676 (2017).
15. , Scientific Reports 7, 14715 (2017).
16. , ACS Applied Materials & Interfaces 9, 25571-25577 (2017).
17. , ACS Applied Materials & Interfaces 9, 4084-4099 (2017).
18. , Carbon 111, 103-112 (2017).
19. , Vacuum 146, 492-500 (2017).
20. , Scientific Reports 6, 32913 (2016).
21. , Composites Science & Technology 134, 226-233 (2016).
22. , Sensors & Actuators B: Chemical 244, 434-448 (2016).
23. , Physical Chemistry and Chemical Physics 17, 22923-22933 (2015).
24. , Scientific Reports 5, 8839 (2015).
25. , Sensors & Actuators B: Chemical 221, 544–555 (2015).