Publications at SJTU:

1. L. Lin#, J. Liu#, Z. Pan, W. Pang, X. Jiang, M. Lei, J. Gao, Y. Xiao, B. Li, F. Hu, Z. Bao*, X. Wei*, W Wu*, B. Gu*, "General post-regulation strategy of AIEgens’ photophysical properties for intravital two-photon fluorescence imaging," Advanced Science, In Press.
   

2. W. Pang, C. Wang, W. Wu, X. Wei*, B. Gu*,"Highly efficient two-photon photodynamic therapy using light-sheet excitation," Laser & Photonics Reviews, In press.  
   

3. N. Song, B. Gu*, "In vivo and in situ robust quantitative optical biopsy of hepatocellular carcinoma and metastasis based on two-photon autofluorescence imaging," Optics Letters, 49(14), 4054-4057, 2024.

4. C. Wang, B. Gu*, S. Qi*, S. Hu*, Y. Wang*, “Boosted photo-immunotherapyvia near-infrared light excited phototherapy in tumor sites andphoto-activation in sentinel lymph nodes,” Nanoscale Advances, 6(8), 2075-2087, 2024.

5. W. Pang#, Z. Xiao#, X. Wei, B. Gu*,"Biocompatible polymer optical fiber with strong-scattering-spherical endfor interstitial photodynamic therapy,” Optics Letters,48(15), 3849-3852, 2023.

6. L. Lin#, Z. Bao#, P. Jiang, Z. Xu, B. Shi, G. Xu*, D.Wang*, X. Wei*, B. Gu*, "Superior biocompatible carbon dotsfor dynamic fluorescence imaging of nucleolus in living cells,” BiomaterialsScience, 11(8), 2935-2949, 2023.

7. M. Lei, W. Pang, B. Shi, C. Wang, D. Wang, X. Wei, B. Gu*, “Two-photon photodynamictherapy using nucleolus-targeted carbon dots,” Chinese Journal of Lasers, 49(15),1507105, 2022.

8. L. Lin, W. Pang, X. Jiang, S. Ding, X. Wei*, B. Gu*, " Lightamplified oxidative stress in tumor microenvironment by carbonized hemin nanoparticlesfor boosting photodynamic anticancer therapy,” Light: Science &Applications, 11, 47, 2022.

9. X. Jiang#, R. Pu#, C. Wang, J. Xu, Y. Tang, S. Qi, Q.Zhan, X. Wei, B. Gu*, “Noninvasiveand early diagnosis of acquired brain injury using fluorescence imaging in theNIR-II window,” Biomedical Optics Express, 12(11), 6984-6994, 2021.

10. W. Pang#, S. Ding#, L. Lin, C. Wang, M. Lei, J. Xu, X.Wang, J. Qu, X. Wei, B. Gu*,"Noninvasive and real-time monitoring of Au nanoparticles promoted cancermetastasis using in vivo flow cytometry,” Biomedical OpticsExpress 12 (4), 1846-1857, 2021.

11. X. Weng, D. Wei, Z. Yang, W. Pang, K. Pang, B. Gu*,X. Wei*, “Photodynamic therapy reduces metastasis of breast cancer byminimizing circulating tumor cells,” Biomedical Optics Express 12 (7),3878-3886, 2021.

12. P. Jiang^#, W. Pang^#, S. Ding, D.Wang, X. Wei, B. Gu*, “Rapidex vivo assessment of cancer prognosis by nucleolus-targeted fluorescenceimaging using nitrogen doped carbon dots,” Analytica Chimica Acta,338309, 2021

13. S. Ding^#, W. Wu^#, T. Peng#, W.Pang, P. Jiang, Q. Zhan, S. Qi, X. Wei*, B.Gu*, B. Liu*, “Near-infrared light excited photodynamic anticancertherapy based on UCNPs-AIEgens nanocomposite,” Nanoscale Advances, 3 (8),2325-2333, 2021.

14. W. Pang#, P. Jiang#, S. Ding, Z. Bao, N. Wang, H. Wang,J. Qu, D. Wang*, B. Gu*, X.Wei*, “Nucleolus-targeted photodynamic anticancer therapy using renal-clearablecarbon dots," Advanced HealthcareMaterials 9 (16), 2000607, 2020.

15. H. Lin#, X. Cheng#, M. -J. Yin*, Z. Bao, X. Wei, B. Gu*, “Flexible porphyrindoped polymer optical fibers for rapid and remote nosing of trace DNT vapor,"Analyst 145 (15), 5307-5313, 2020.

16. M. Liu#, B. Gu#,W. Wu#, Y. Duan, H. Liu, X. Deng, M. Fan, X. Wang, X. Wei, K. -T. Yong, K.Wang*, G. Xu* and B. Liu*, “Binary Organic Nanoparticles with BrightAggregation-Induced Emission for Three-Photon Brain Vascular Imaging," Chemistryof Materials 32 (15), 6437-6443, 2020.

17. M. Liu#, Y. Liu#, B.Gu,* X. Wei, G. Xu,* X. Wang,* M. T. Swihart,* K. -T. Yong,* “RecentAdvances in Copper Sulphide-Based Nanoheterostructures,” Chemical SocietyReviews 48 (19), 4950-4965, 2019.

18. F. Yin#, B. Gu#, J. Li#, Y Liu, Z. Li, K. -T. Yong*, and B. Z. Tang*, “In vitro anticanceractivity of AIEgens,” Biomaterials science 7 (9), 3855-3865, 2019.

19. M. -J. Yin, B.Gu*, Q. An, Y. L. Guan, K. -T. Yong*, "Recent development offiber-optic chemical sensors and biosensors: mechanisms, materials,micro/nano-fabrications, and applications." Coordination Chemistry Reviews376, 348-392, 2018.

20. B. Gu, K. -T.Yong*, and B. Liu*, “Strategies to overcomethe limitations of AIEgens in biomedical applications,” Small Methods 2 (9),1700392, 2018.

Publications before SJTU:

1. B. Gu, C. Y. Aung, P.Chong, Y. L. Guan*, and K. -T. Yong*, “Reversible and fastresponsive optical fiber relative humidity sensor based on polyelectrolyteself-assembly multilayer film,” IEEE Sensors Journal 18 (3), 1081-1086,2017.

2. F. Yin#, B. Gu#,Y. Lin#*, N. Panwar, S. C. Tjin, J. Qu, S. P. Lau, and K. -T. Yong*, “Functionalized2D nanomaterials for gene delivery applications,” Coordination ChemistryReviews 347, 77-97, 2017.

3. B.Gu#, W. Wu#, G. Xu#,G. Feng, F. Yin, P. Chong, J. Qu*, K. -T. Yong*, and B. Liu*, “Precisetwo-photon photodynamic therapy using efficient photosensitizer withaggregation-induced emission characteristics,” Advanced Materials 29 (28),1701076, 2017. (HighlyCited Paper)

4. B.Gu, A. Pliss, A. Kuzmin,A. Baev, T. Ohulchanskyy, J. Damasco, K. -T. Yong, S. Wen*, and P. N.Prasad*, “In-situ second harmonic generation by cancer cell targeting ZnOnanocrystals to effect photodynamic action in subcellular space,” Biomaterials104, 78-86, 2016.

5. B.Gu, C. Zhao, A. Baev,K. -T. Yong, S. Wen*, and P. N. Prasad*,“Molecular nonlinear optics: recent advances and applications,” Advances inOptics and Photonics 8 (2), 328-369, 2016.

6. B.Gu#, Y. Zhou#, X. Yu,and F. Luan, “Fiber loop laser stabilized by Fano resonance in metallic gratingcoupled resonator,” IEEE Photonics Technology Letters 28 (14), 1597-1600, 2016.

7. F. Luan#, B. Gu#, A. Gomes, K. -T. Yong, S. Wen*, and P. N. Prasad*,“Lasing in nanocomposite random media,” Nano Today, 10 (2), 168-192, 2015.

8. B.Gu, W. Qi, Y. Zhou, Z.Wu, P. Shum, and F. Luan*, “Reflective liquid level sensor based on modesconversion in thin-core fiber incorporating titled fiber Bragg grating,” Optics Express 22 (10), 11834-11839, 2014.

9. B.Gu, W. Qi, J. Zheng,Y. Zhou, P. Shum, and F. Luan*, “Simple and compact reflective refractometerbased on tilted fiber Bragg grating inscribed in the thin-core fiber,” Optics Letters, 39 (1), 22-25, 2014.

10. B.Gu*, W. Yuan, M. H.Frosz, A. P. Zhang, S. He, and O. Bang, “Nonlinear fiber-optic strain sensorbased on four-wave mixing in microstructured optical fiber,” Optics Letters, 37(5), 794-796, 2012.

11. B.Gu, W. Yuan, S. He andO. Bang, “Temperature compensated strain sensor based on cascaded Sagnacinterferometers and all-solid birefringent hybrid photonic crystal fibers,” IEEESensors Journal, 12 (6), 1641-1646,2012.

12. B.Gu, M. -J. Yin, A. P.Zhang, J. -W. Qian, and S. He, “Biocompatible fiber-optic pH sensor based on opticalfiber modal interferometer self-assembled with sodium alginate/polyethyleniminecoating,” IEEE Sensors Journal, 12 (5), 1477-1482, 2012.

13. B.Gu, M. -J. Yin, A. P.Zhang*, J. -W. Qian, and S. He, “Fiber-optic metal ion sensor based onthin-core fiber modal interferometer with nanocoating self-assembled viahydrogen bonding,” Sensors and Actuators B, 160 (1), 1174-1179, 2011.

14. B.Gu, M. -J. Yin, A. P.Zhang*, J. -W. Qian, and S. He, “Optical fiber relative humidity sensor basedon FBG incorporated thin-core fiber modal interferometer,” Optics Express, 19 (5), 4140-4146,2011.

15. B.Gu, M. -J. Yin, A. P.Zhang*, J. -W. Qian, and S. He, “Low-cost high-performance fiber-optic pHsensor based on thin-core fiber modal interferometer,” Optics Express, 17 (25), 22296-22302, 2009.

16. K. Pang, B. Gu, F. Liu, M. Dong, L. Zhu*,X. Wei*, "Recent advances in fluorescence-based in vivo flow cytometry,” Journal of Innovative Optical Health Sciences(IF=1.058), pp. 1930008, 2019.

17. Z. Han, A. M.Soehartono, B. Gu, X. Wei, K.-T. Yong, Y. Shi*, "Tunable hybridization induced transparency forefficient terahertz sensing,” Opticsexpress (IF=3.561), Vol. 27, No. 6, pp. 9032-9039, 2019.

18. Y. Yuan#, Y. Lin#, B. Gu, N. Panwar, S. C. Tjin, J.Song*, J. Qu*, and K. -T. Yong*, "Optical trapping-assistedSERS platform for chemical and biosensing applications: Design perspectives,” CoordinationChemistry Reviews, Vol. 339,pp. 138-152, 2017.

19. A. N. Kuzmin, A. Pliss, C. -K. Lim, J. Heo,S. Kim, A. Rzhevskii, B. Gu,K. -T. Yong, S. Wen*, and P. N. Prasad*, “Resonance Raman probes fororganelle-specific labeling in live cells,” Scientificreports, Vol. 6, pp. 28483,2016.

20. Y. Zhou#, W. Ding#, B. Gu, Z. Chen, X. Yu, F. Luan, “Power transfer mechanism ofmetallic grating coupled whispering gallery microsphere resonator,” Optics Letters, Vol. 40, No. 9, pp.1908-1911, 2015.

21. Y. Zhou, F. Luan, B. Gu, X. Yu*, “Controlled excitation of higher radial orderwhispering gallery modes with metallic diffraction grating,” Optics Express,Vol. 23, No. 4, pp. 4991-4996, 2015.

22. M. Yin, B. Gu, Q. Zhao, J. Qian*, A. P. Zhang, Q. An, and S. He, “Highly sensitive and selective fiber-opticmodal interferometric sensor for detecting trace mercury ion in aqueoussolution,” Analytical Methods,Vol. 4, No. 5, pp.1292-1297, 2012.

23. M. Yin, B. Gu, Q. Zhao, J. Qian*, A. P. Zhang, Q. An, and S. He,“Highly sensitive and fast responsive fiber-optic modal interferometric pHsensor based on polyelectrolyte complex and polyelectrolyte self-assemblednanocoating,” Analytical andBioanalytical Chemistry, Vol. 399, No. 10, pp.3623-3631, 2011.

24. D. J. J. Hu*, R. T. Murray, T. Legg, T. H.Runcorn, M. Zhang, R. I. Woodward, J. L. Lim, Y. Wang, F. Luan, B. Gu, P. P. Shum, E. J. R.Kelleher, S. V. Popov, and J. R. Taylor, "Fiber-integrated 780 nm sourcefor visible parametric generation," OpticsExpress, Vol. 22, pp. 29726-29732, 2014.

25. B. Zhou, A. P.Zhang*, S. He, B. Gu,“Cladding-mode-recoupling-based tilted fiber Bragg grating sensor with a core-diameter-mismatchedfiber section” IEEE Photonics Journal,Vol. 2, No. 2, pp. 152-157, 2010.

26. Z. Gui, J. Qian*, M. Yin, Q. An, B. Gu and A. P. Zhang, “A novel fast response fiber-optic pH sensor basedon nanoporous self-assembled multilayer films,” Journal of MaterialsChemistry, Vol. 20, pp. 7754–7760, 2010.

27. Y. C. Wang, A. P. Zhang*, M. Jiang, B. Gu, and S. He, “Core-modescatterer and fiber end-face mirror incorporated reflective long-period gratingsensors,” Electronics Letters, Vol.46, No. 10, pp. 710-712, 2010.

28. T. -H. Xia, A. P. Zhang*, B. Gu, and J. -J. Zhu,“Fiber-optic refractive-index sensor based on transmissive and reflectivethin-core fiber modal interferometer,” Optics Communications, Vol. 283,No. 10, pp.2136-2139, 2010.

29. T. -H. Xia, W. -S. Liu, B. Zhou, B. Gu, C. -S. Yan*,“Quasi-distributed sensing network based on coherence multiplexing and spatialdivision multiplexing for coal mine security monitoring,” Journal of Zhejiang University-SCIENCE C, Vol. 11, No. 10, pp.762-766, 2010.