These pure and functionalized zinc oxide nano- and microstructures have shown interesting sensing capabilities in many directions. Some key publications in the direction of sensing technologies are listed below:
1., Materials Today 32, 108-130 (2020).
2. , Materials Horizons 7, 598-604 (2020).
3. , Lasers and Photonics Reviews (2020).
4. , Medical Devices Sensors (2020).
5. , Biosensors Bioelectronics 168, 112562 (2020).
6., Applied Physics Reviews 7, 021301 (2020).
7. , RSC Advances 10, 27764-27774 (2020).
8. , ACS Applied Nano Materials 3, 1468-1478 (2020).
9. , Scientific Reports 10, 11864 (2020).
10. , Sensor Actuators B: Chemical 320, 128363(2020).
11. , New Journal of Chemistry 44, 3777-3785 (2020).
12. , Journal of Materials Chemistry C 7, 5477-5487 (2019).
13. , Nano Energy 56, 420-425 (2019).
14. , Advanced Electronic Materials 5, 1800413 (2019).
15. , Advanced Electronic Materials 5,1800791 (2019).
16. , Nanotechnology 30, 065501 (2019).
17., Physica Status Solidi-RRL 13, 1900012 (2019).
18. , Sensors 19, 1525 (2019).
19. , Advanced Materials Technologies 3, 1800248 (2018).
20. , ACS Applied Materials & Interfaces 10, 30631-30639 (2018).
21. , Sensors Actuators B: Chemical 262, 425-435 (2018).
22. , Advanced Functional Materials 27 1604676 (2017).
23. , ACS Omega 2, 2985-2993 (2017).
24. , ACS Applied Materials & Interfaces 9, 25571-25577 (2017).
25. , ACS Applied Materials & Interfaces 9, 4084-4099 (2017).
26. , Biosensors & Bioelectronics 89, 334-342 (2017).
27., Sensors & Actuators B: Chemical 242, 694-699 (2017).
28. , Journal of Materials Chemistry A 4, 16723-16730 (2016).
29. , Journal of Materials Chemistry A 4, 6527-6539 (2016).
30. , Sensors & Actuators B: Chemical 244, 434-448 (2016).
31. , ACS Applied Materials & Interfaces 7, 14303-14316 (2015).
32. , Sensors & Actuators B: Chemical 221, 544–555 (2015).
33. , physica status solidi-Rapid Research Letters 9, 171–174 (2015).
34. , Advanced Materials 26, 1541-1550 (2014).
35. , Journal of Physical Chemistry C 118, 15068–15078(2014).