Awards:

1. “12th Annual Chinese Excellent Patent Award (2010)” for the patent “A method to make high sensitive FBG temperature sensor” by the State Intellectual Property Office of the People’s Republic of China, http://www.sipo.gov.cn/ztzl/ndcs/zgzlj/12thzlj/dt/201010/t20101018_540889.html (in Chinese).

2. “Chinese Government Award for Outstanding Self-Financed Students Abroad (2013)” USD$6000, http://www.csc.edu.cn/Chuguo/4a7272ed189944a2805d31782a066c41.shtml (in Chinese).

3. “Queensland University of Technology Postgraduate Research Award” tuition fee plus a living stipend.  

Journal Papers: http://eprints.qut.edu.au/view/person/Li,_Kuo.html

https://scholar.google.com.au/citations?user=pmtJFRUAAAAJ&hl=en

*Corresponding author

1. K. Li*, Y. Zhao, Y. Li*, G. Liu, and J. Li*, Fiber Bragg grating biaxial tilt sensor using one optical fiber. Optik, vol.218, article no.164973, 2020.

2. K. Li, Y. Li*, G. Liu, J. Tian, and Y. Wang, “A pre-relaxed FBG accelerometer using transverse forces with high sensitivity and improved resonant frequency”, Photonics Letters of Poland, 12(1), 4-6, 2020.

3. K. Li, G. Liu*, Y. Li, J. Yang and W. Ma, “Ultra-Small Fiber Bragg Grating Accelerometer”, Applied Sciences, vol.9, no.13, article no. 2707, 2019.

4. K. Li*, T. H. T. Chan, M. H. Yau, D. P. Thambiratnam and H. Y. Tam, "Maximum amplification of a string transverse-force amplifier in fiber Bragg grating accelerometers," OSA Continuum, vol.2, no.3, pp.938-945, 2019.

5. K. Li*, “Review of the Strain Modulation Methods Used in Fiber Bragg Grating Sensors,” Journal of Sensors, vol. 2016, Article ID 1284520, 2016.  

6. K. Li*, T. H. T. Chan, M. H. Yau, D. P. Thambiratnam and H. Y. Tam, "Fiber Bragg grating accelerometer based on a transversely rotating stick." Optik, vol.126, no.23, pp. 4337-4341, 2015.   

7. K. Li*, T. H. T. Chan, M. H. Yau, D. P. Thambiratnam and H. Y. Tam, “Biaxial fiber Bragg grating accelerometer using axial and transverse forces”, IEEE Photonics Technology Letters, vol.26, no.15, pp. 1549-1552, 2014.

8. K. Li*, T. H. T. Chan, M. H. Yau, D. P. Thambiratnam and H. Y. Tam, “Experimental verification of the modified spring-mass theory of fiber Bragg grating accelerometers using transverse forces”, Applied Optics, vol.53, no.6, pp. 1200-1211, 2014.   

9. K. Li*, M.H. Yau, T.H.T. Chan, D. Thambiratnam, and H.Y. Tam, “Fiber Bragg grating strain modulation based on nonlinear string transverse-force amplifier”, Optics Letters, vol.38, no.3, pp. 311-313, 2013.    

10. K. Li*, T. H. T. Chan, M. H. Yau, T. Nguyen, D. P. Thambiratnam and H. Y. Tam, “Very sensitive fiber Bragg grating accelerometer using transverse forces with an easy over-range protection and low cross axial sensitivity”, Applied Optics, vol.52, no.25, pp. 6401-6410, 2013.  

11. K. Li*, Z.A. Zhou, and A.C. Liu, “A high sensitive fiber Bragg grating cryogenic temperature sensor”, Chinese Optics Letters, vol.7, no.2, pp. 121-123, 2009.  

12. K. Li* and Z.A. Zhou, “A high sensitive fiber Bragg grating strain Sensor with automatic temperature compensation”, Chinese Optics Letters, vol.7, no.3, pp. 191-193, 2009.

13. K. Li*, Z.A. Zhou, A.C. Liu, and X.Y. Wang, “High sensitive fiber Bragg grating temperature sensors at high temperature”, ACTA OPTICA SINICA (in Chinese), vol.29, no.1, pp. 249-251, 2009.

14. K. Li*, Z.A. Zhou, A.C. Liu and X.P. Ye, “Preliminary study on the stability of highly sensitive fiber Bragg grating temperature sensors”, Progressing in Geophysics (in Chinese), vol.25, 2204-2208, 2010.

15. K. Li* and Z.A. Zhou, “A fiber Bragg grating temperature sensor with adjustable sensitivity”, Journal of Geodesy and Geodynamic (in Chinese), vol. 29,144-147, 2009.

16. K. Li*, Z.A. Zhou, and A.C. Liu, “The application of fiber Bragg grating sensor to high precision temperature measurement”, Progressing in Geophysics (in Chinese), vol. 23, 1322-1325, 2008.