Along with inherent physical properties, these specially architectured materials in highly porous 3D network forms, offer additional features towards their novel photonics/plasmonics responses with possibility to tune them in real-time. Few representative works are as below:
1. , Materials Today 32, 108-130 (2020).
2. , Lasers and Photonics Reviews (2020).
3. , Materials Today Physics 100178 (2020).
4. , Materials Today Chemistry 15, 100208 (2020).
5. , ACS Applied Electronic Materials 5, 1800791 (2019).
6. , Beilstein Journal of Nanotechnology 5, 1491-1431(2014).
7. , Plasmonics 9, 129-136 (2014).
8. , Plasmonics 8, 811-815 (2013).
9. , Journal of Applied Physics 112, 64308 (2012).
10., Plasmonics 7, 25-31 (2012).
11. , Nucl. Instr. and Meth. B 268, 3027-3024 (2010).
12. , Applied Physics Letters 92, 43107(2008).
13. , Applied Physics Letters 92, 10315 (2008).
14. , Nucl. Instr. and Meth. B 266, 1804-1809 (2008).
15. , Applied Physics Letters 90, 73110 (2007).
16. , Applied Physics Letters 91, 63103 (2007).
17. , Nanotechnology 18, 345606 (2007).
18. , Scripta Materialia 56, 629-632 (2007).
19. , Nanotechnology 18, 125604 (2007).
20. , Journal of Nanoscience and Nanotechnology 7, 1878-1881 (2007).