A. SCI Papers:


  1. Y. Y. Hu, C.-W. Hsu, Y.-H. Tseng, C.-Y. Lin, H.-C. Chiang, A.-S. Chiang, S.-T. Chang*, and S.-J. Chen*, “Temporal focusing multiphoton microscopy with cross-modality multi-stage 3D U-net for fast and clear bioimaging,” Biomedical Optics Express, vol. 14, pp. 2478 (2023).
  2. C.-W. Hsu, C.-Y. Lin, Y. Y. Hu, and S.-J. Chen*, “Dual-resonant scanning multiphoton microscope with ultrasound lens and resonant mirror for rapid volumetric imaging,” Scientific Reports, vol. 13, pp. 161 (2023).


  1. F.-C. Hsu, C.-Y. Lin, Y. Y. Hu, Y.-K. Hwu, A.-S. Chiang, and S.-J. Chen*, “Light-field microscopy with temporal focusing multiphoton illumination for scanless volumetric bioimaging,” Biomedical Optics Express, vol. 13, pp. 6610 (2022).
  2. C.-W. Hsu, C.-Y. Lin, Y. Y. Hu, C.-Y. Wang, S.-T. Chang, A.-S. Chiang, and S.-J. Chen*, “Three-dimensional-generator U-net for dual-resonant scanning multiphoton microscopy image inpainting and denoising,” Biomedical Optics Express, vol. 13, pp. 6273 (2022).
  3. A. Nair, S.-C. Chuang, Y.-S. Lin, C.-H. Chen, T.-C. Fang, H.-C. Chiu, C.-H. Lien*, and S.-J. Chen*, “Characterization of collagen response to bone fracture healing using polarization-SHG,” Scientific Reports vol. 12, pp. 18453 (2022).
  4. Y. Y. Hu, C.-Y. Lin, C.-Y. Chang, Y.-L. Lo, and S.-J. Chen*, “Image improvement of temporal focusing multiphoton microscopy via superior spatial modulation excitation and Hilbert-Huang Transform decomposition,” Scientific Reports, vol. 12, pp. 10078 (2022).
  5. C.-J. Chang, C.-W. Lai, W.-C. Jiang, Y.-S. Li, C. Choi, H.-C. Yu, S.-J. Chen, and Y. M. Choi, “Fabrication and characterization of P-type semiconducting copper oxide-based thin-film Photoelectrodes for solar water splitting,” Coatings, vol. 12, no. 8, pp. 1206 (2022).
  6. Y. Kohmura, S.-M. Yang, H.-H. Chen, H. Takano, C.-J. Chang, Y.-S. Wang, T.-T. Lee, C.-Y. Chiu, K.-E. Yang, Y.-T. Chien, H.-M. Hu, T.-L. Su, C. Petibois, Y.-Y. Chen, C.-H. Hsu, P. Chen, D.-Y. Hueng, S.-J. Chen, C. L. Yang, A.-L. Chin, C.-M. Low, F. C. Tan, A. Teo, E. S. Tok, X. X. Cai, H.-M. Lin, J. Boeckl, A. P. Stampfl, J. Yamada, S. Matsuyama, T. Ishikawa, G. Margaritondo, A.-S. Chiang, and Y. Hwu, “The new X-ray/visible microscopy Maxwell technique for fast three-dimensional nanoimaging with isotropic resolution,” Scientific Reports, vol. 12,  pp. 9668 (2022).
  7. C.-Y. Chang, C.-S. Kuan, H.-Y. Tseng, P.-H. Lee, S.-H. Tsai, and S.-J. Chen*, “Using deep learning to identify maturity and 3D distance in Pineapple Fields,” Scientific Reports, vol. 12, pp. 8749 (2022).


  1. V. Hovhannisyan, K. Siposova, A. Musatov, and S.-J. Chen*, “Development of multifunctional nanocomposites for controlled drug delivery and hyperthermia,” Scientific Reports, vol. 11, pp. 5528 (2021).
  2. C.-Y. Chang, C.-Y. Lin, Y. Y. Hu, S.-F. Tsai, F.-C Hsu, S.-J. Chen*, “Temporal focusing multiphoton microscopy with optimized parallel multiline scanning for fast biotissue imaging,” Journal of Biomedical Optics, vol. 26, no. 1, pp. 016501 (2021).
  3. C.-H. Chen, A. V. Nair, S.-C. Chuang, Y.-S. Lin, M.-H. Cheng, C.-Y. Lin, C.-Y. Chang, S.-J. Chen, and C.-H. Lien, “Dual-LC PSHG microscopy for imaging collagen type I and type II gels with pixel-resolution analysis,” Biomedical Optics Expres, vol. 12, no. 5. pp. 3050 (2021).
  4. P.-H. Tseng, S.-J. Chiang, S.-J. Chen, and C.-Y. Dong, “Improvement in labeling efficiency of hydrophilic and hydrophobic fluorescent molecules in thick tissue sections,” Microscopy Today, vol. 29, no. 4, pp. 22 (2021).


  1. P.-S. Hu, N. Tomasovicova, H.-J. Chou, M.-C. Li, M. Vojtko, K. Zakutanska, J. Majorosova, S.-J. Chen, and P. Kopcansky, “Hyperthermia induced by near-infrared laser-irradiated CsWO3 nanoparticles disintegrates preformed lysozyme amyloid fibrils,” Nanomaterials, vol. 10, no. 3, pp. 442 (2020).


  1. S.-F. Tsai, C.-Y. Chang, S.-M. Yong, A.-L. Lim, Y. Nakao, S.-J. Chen, and Y.-M. Kuo, “A Hydrolyzed Chicken Extract CMI-168 Enhances Learning and Memory in Middle-Aged Mice,” Nutrients, vol. 11, no.1, pp. 27 (2018).


  1. Y. D. Sie, C.-Y. Chang, C.-Y. Lin, N.-S. Chang, P. J. Campagnola, and S.-J. Chen*, “Fast and improved bioimaging via temporal focusing multiphoton excitation microscopy with binary digital-micromirror-device holography,” Journal of Biomedical Optics, vol. 23, no. 11, pp. 116502 (2018).
  2. V. A. Hovhannisyan, C.-Y. Dong, F.-J. Lai, N.-S. Chang, and S.-J. Chen*, “Natural zeolite for adsorbing and release of functional materials,” Journal of Biomedical Optics, vol. 23, no.9, pp. 091411 (2018).
  3. C.-Y. Chang, C.-H. Lin, C.-Y. Lin, Y.-D. Sie, Y. Y. Hu, S.-F. Tsai, and S.-J. Chen*, “Temporal focusing-based widefield multiphoton microscopy with spatially modulated illumination for biotissue imaging,” Journal of Biophotonics, vol. 11, no.1, pp. e201600287 (2018).
  4. Y. D. Sie, C.-Y. Lin, and S.-J. Chen*, “3D surface morphology imaging of opaque microstructures via light-field microscopy,” Scientific Reports, vol. 8, pp. 10505 (2018).


  1. C.-Y. Lin, H.-Y. Chang, T.-F. Yeh, H. Teng, and S.-J. Chen*, “Three-dimensional patterned graphene oxide-quantum dot microstructures via two-photon crosslinking,” Optics Letters, vol. 42, no. 23, pp. 4970-4973 (2017).
  2. W.-S. Kuo, H.-H. Chen, S.-Y. Chen, C.-Y. Chang, C.-L. L. Hsu, H.-F. Kao, Y.-C. Chen, S.-J. Chen, W.-T. Chang, S.-R. Wu, J.-Y. Wang, “Graphene quantum dots with nitrogen-doped content dependence for highly efficient dual-modality photodynamic antimicrobial therapy and bioimaging,” Biomaterials, vol. 120, pp. 185-194 (2017).
  3. C.-Y. Teng, B.-S. Nguyen, T.-F. Yeh, Y.-L. Lee, S.-J. Chen, and H. Teng, “Roles of nitrogen functionalities in enhancing the excitation-independent green-color photoluminescence of graphene oxide dots,” Nanoscale, vol. 9, no., pp. 8256–8265 (2017)
  4. V. Hovhannisyan, C.-Y. Dong, and S.-J. Chen*, “Photodynamic dye adsorption and release performance of natural zeolite,” Scientific Reports, vol. 7, pp. 45503 (2017).


  1. W.-S. Kuo, C.-Y. Chang, H.-H. Chen, C.-L. L. Hsu, J.-Y. Wang, H.-F. Kao, L. C.-S. Chou, Y.-C. Chen, S.-J. Chen, W.-T. Chang, S.-W. Tseng, P.-C. Wu, and Y.-C. Pu, “Two-photon photoexcited photodynamic therapy and contrast agent with antimicrobial graphene quantum dots,” ACS Appl. Mater. Interfaces, vol. 8, no. 44, pp. 30467-30474, November 2016.
  2. L.-C. Chen, C.-Y. Teng, C.-Y. Lin, H.-Y. Chang, S.-J. Chen, and H. Teng, “Architecting nitrogen functionalities on graphene oxide photocatalysts for boosting hydrogen production in water decomposition process,” Advanced Energy Materials, vol. 6, no. 22, 1600719, November 2016.
  3. W.-S. Kuo, C.-L. L. Hsu, H.-H. Chen, C.-Y. Chang, H.-F. Kao, L. C.-S. Chou, Y.-C. Chen, S.-J. Chen, W.-T. Chang, S.-W. Tseng, J.-Y. Wang, and Y.-C. Pu, “Graphene quantum dots conjugated with polymers for two-photon properties under two-photon excitation,” Nanoscale, vol. 8, no. 38, pp. 16874-16880, October 2016.
  4. H.-Y. Chang, C.-Y. Lin, C.-Y. Chang, H. Teng, P. J. Campagnola, and S.-J. Chen*, “Graphene oxide dot-based microstructures via dispersion and support of bovine serum albumin,” Optical Materials Express, vol. 6, no. 10, pp. 3193-3201, October 2016.
  5. T.-F. Yeh, W. L. Huang, C. J. Chung, I.T. Chiang, L.C. Chen, H. Y. Chang, W. C. Su, C. Cheng, S.-J. Chen, H. Teng, “Elucidating quantum confinement in graphene oxide dots based on excitation-wavelength-independent photoluminescence,” Journal of Physical Chemistry Letters, vol. 7, no. 5, pp. 2087-2092, June 2016.
  6. C.-Y. Chang, Y. Y. Hu, C.-Y. Lin, C.-H. Lin, H.-Y. Chang, S.-F. Tsai, T.-W. Lin, and S.-J. Chen*, “Fast volumetric imaging with patterned illumination via digital micro-mirror device-based temporal focusing multiphoton microscopy,” Biomedical Optics Express, vol. 7, no. 5, pp. 1727-1736, April 2016.
  7. T.-F. Yeh, C.-Y. Teng, L.-C. Chen, S.-J. Chen, and H. Teng, “Graphene oxide-based nanomaterials for efficient photoenergy conversion,” Journal of Materials Chemistry A, vol. 4, no.  6, p.p. 2014-2048, February 2016.


  1. T.-W. Lin, Y.-F. Liu, Y.-H. Shih, S.-J. Chen, T.-Y. Huang, C.-Y. Chang, C.-H. Lien, L. Yu, S.-H. Chen, and Y.-M. Kuo, “Neurodegeneration in amygdala precedes hippocampus in the APPswe/PS1dE9 mouse model of Alzheimer’s disease,” Current Alzheimer Research, vol. 12, no. 10, pp. 951-963, December 2015. 
  2. W.-T. Chang, S.-J. Chen, C.-Y. Chang, Y.-H. Liu, C.-H. Chen, C.-H. Yang, L. C.-S. Chou, J.-C. Chang, L.-C. Cheng, W.-S. Kuo, and J.-Y. Wang, “Effect of size-dependent photodestructive efficacy by gold nanomaterials with multiphoton laser,” ACS Appl. Mater. Interfaces, vol. 7, no. 31, pp. 17318-17329, August 2015. 
  3. R.-Y. He, V. Ajeti, S.-J. Chen, M. Brewer, and P. Campagnola, “Ovarian cancer cell adhesion/migration dynamics on micro-structured laminin gradients fabricated by multiphoton excited photochemistry,” Bioengineering, vol. 2, no. 3, pp. 139-159, July 2015.
  4. C.-Y. Teng, T.-F. Yeh, K.-I Lin, S.-J. Chen, M. Yoshimura, and H. Teng, “Synthesis of graphene oxide dots for excitation-wavelength independent photoluminescence at high quantum yields,” Journal of Materials Chemistry C, vol. 3, no. 17, pp. 4553-4562, May 2015. 
  5. T.-F. Yeh, S.-J. Chen, H. Teng, “Synergistic effect of oxygen and nitrogen functionalities for graphene-based quantum dots used in photocatalytic H2 production from water decomposition,” Nano Energy, vol. 12, no. , pp. 476-485, March 2015. 
  6. C.-Y. Lin, K.-M. Hsu, H.-C. Huang, T.-F. Yeh, H.-Y. Chang, C.-H. Lien, H. Teng, and S.-J. Chen*, “Multiphoton fabrication of freeform polymer microstructures containing graphene oxide and reduced graphene oxide nanosheets,” Optical Materials Express, vol. 5, no. 2, pp. 218-226, February 2015.
  7. Y. D. Sie, N.-S. Chang, P. J. Campagnola, and S.-J. Chen*, “Fabrication of three-dimensional multi-protein microstructures for cell migration and adhesion enhancement,” Biomedical Optics Express, vol. 6, no. 2, pp. 480-490, February 2015. 
  8. C.-Y. Lin, P.-K. Li, L.-C. Cheng, Y.-C. Li, C.-Y. Chang, A.-S. Chiang, C. Y. Dong, and S.-J. Chen*, “High-throughput multiphoton-induced three-dimensional ablation and imaging for biotissues,” Biomedical Optics Express, vol. 6, no. 2, pp. 491-499, February 2015.
  9. M.-H. Lee, W.-P. Su, W.-J. Wang, S.-R. Lin, C.-Y. Lu, Y.-A. Chen, J.-Y. Chang, S.-S. Huang, P.-Y. Chou, S.-R. Ye, S.-J. Chen, H. He, T.-H. Liu, Y.-T. Chou, L.-J. Hsu, F.-J. Lai, S.-J. Chen, H.-C. Lee, D. Kakhniashvili, S. R. Goodman, and N.-S. Chang, “Zfra activates memory Hyal-2+ CD3- CD19- spleen cells to block cancer growth, stemness, and metastasis in vivo,” Oncotarget, vol. 6, no. 6, pp. 3737-3751, February 2015.
  10. T.-W. Lin, Y.-H. Shih, S.-J. Chen, C.-H. Lien, C.-Y. Chang, T.-Y. Huang, S.-H. Chen, C. J. Jen, and Y.-M. Kuo, “Running exercise delays neurodegeneration in amygdala and hippocampus of Alzheimer’s disease (APP/PS1) transgenic mice,” Neurobiology of Learning and Memory, vol. 118, no. , pp. 189-197, February 2015. 


  1. C.-H. Lien, C.-Y. Lin, S.-J. Chen, and F.-C. Chien, “Dynamic particle tracking via temporal focusing multiphoton microscopy with astigmatism imaging,” Optics Express, vol. 22, no. 22, pp. 27290-27299, October 2014.
  2. L.-C. Cheng, N. G. Horton, K. Wang, S.-J. Chen, and C. Xu, “Measurements of multiphoton excitation cross sections for multiphoton microscopy,” Biomedical Optics Express, vol. 5, no. 10, pp. 3427-3433, September 2014.
  3. Y.-C. Li, T.-F. Yeh, H.-C. Huang, H.-Y. Chang, C.-Y. Lin, L.-C. Cheng, C.-Y. Chang, H. Teng, and S.-J. Chen*, “Graphene oxide-based micropatterns via high-throughput multiphoton-induced reduction and ablation,” Optics Express, vol. 22, no. 16, pp. 19726-19734, August 2014.
  4. L.-C. Cheng, C.-H. Lien, Y. D. Sie, Y. Y. Hu, F.-C. Chien, C. Xu, C. Y. Dong, and S.-J. Chen*, “Nonlinear structured-illumination enhanced temporal focusing multiphoton microscopy with a digital micromirror device,” Biomedical Optics Express, vol. 5, no. 8, pp. 2526-2536, August 2014.
  5. J.-N. Yih, Y. Y. Hu, Y. D. Sie, L.-C. Cheng, C.-H. Lien, and S.-J. Chen*, “Temporal focusing-based multiphoton excitation microscopy via digital micromirror device,” Optics Letters, vol. 39, no. 11, pp. 3134-3137, June 2014.
  6. C.-Y. Chang, L.-C. Cheng, H.-W. Su, Y. Y. Hu, K.-C. Cho, W.-C. Yen, C. Xu, C. Y. Dong, and S.-J. Chen*, “Wavefront sensorless adaptive optics temporal focusing-based multiphoton microscopy,” Biomedical Optics Express, vol. 5, no. 6, pp. 1768-1777, June 2014.
  7. T.-F. Yeh, C.-Y. Teng, S.-J. Chen, and H. Teng, “Nitrogen-doped graphene oxide quantum dots as photocatalysts for overall water-splitting under visible light illumination,” Advanced Materials, vol. 26, no. 20, pp. 3297-3303, May 2014. (Impact Factor: 15.409)
  8. S.-F. Tsai, T.-Y. Huang, C.-Y. Chang, Y.-C. Hsu, S.-J. Chen, L. Yu, Y.-M. Kuo, C. J. Jen, “Social instability stress differentially affects amygdalar neuron adaptations and memory performance in adolescent and adult rats,” Frontiers in Behavioral Neuroscience, vol. 8, no. 27, pp. 1-8, 2014.
  9. K. Tilbury, C.-H. Lien, S.-J. Chen, and P. J. Campagnola, “Differentiation of Col I and Col III isoforms in stromal models of ovarian cancer by analysis of second harmonic generation polarization and emission directionality,” Biophysical Journal, vol. 106, no. 2, pp. 354-365, January 2014.


  1. V. Ajeti, C.-H. Lien, S.-J. Chen, P.-J. Su, J. M. Squirrell, K. H. Molinarolo, G. E. Lyons, K. W. Eliceiri, B. M. Ogle, and P. J. Campagnola, “Image-inspired 3D multiphoton excited fabrication of extracellular matrix structures by modulated raster scanning,” Optics Express, vol. 21, no. 21, pp. 25346-25355, October 2013. 
  2. C.-H. Lien, K. Tilbury, S.-J. Chen, and P. J. Campagnola, “Precise, motion-free polarization control in second harmonic generation microscopy using a liquid crystal modulator in the infinity space,” Biomedical Optics Express, vol. 4, no. 10, pp. 1991-2002, October 2013.
  3. C.-Y. Chang, B.-T. Ke, H.-W. Su, W.-C. Yen, and S.-J. Chen*, “Easily implementable FPGA-based adaptive optics system with state-space multichannel control,” Review of Scientific Instruments, vol. 84 no. 9, 095112, September 2013. 
  4. Y.-C. Li, L.-C. Cheng, C.-Y. Chang, C.-Y. Lin, N.-S. Chang, P. J. Campagnola, C. Y. Dong, and S.-J. Chen*, “High-throughput fabrication of gray-level bio-microstructures via temporal focusing excitation and laser pulse control,” Journal of Biomedical Optics, vol. 18, no. 7, 075004, July 2013. 
  5. H.-Y. Tan, Y.-L. Chang, W. Lo, C.-M. Hsueh, W.-L. Chen, Ghazaryan, A. A. Ghazaryan, P.-S. Hu, T.-H. Young, S.-J. Chen, and C. Y. Dong, “Characterizing the morphologic changes in collagen crosslinked-treated corneas by Fourier transform-second harmonic generation imaging,” Journal of Cataract and Refractive Surgery, vol. 39, no. 5, pp. 779-788, May 2013. 
  6. T.-F. Yeh, S.-J. Chen, C.-S. Yeh, and H. Teng, “Tuning the electronic structure of graphite oxide through ammonia treatment for photocatalytic generation of H2 and O2 from water splitting,” Journal of Physical Chemistry C, vol. 117, no. 13, pp. 6516-6524, April 2013. 
  7. V. Hovhannisyan, P.-S. Hu, S.-J. Chen, C.-S. Kim, C.-Y. Dong, “Elucidation of the mechanisms of optical clearing in collagen tissue with multiphoton imaging,” Journal of Biomedical Optics, vol. 18, no. 4, 046004, April 2013. 
  8. A. Ghazaryan, H. F. Tsai, G. Hayrapetyan, W.-L. Chen, Y.-F. Chen, M. Y. Jeong, C.-S. Kim, S.-J. Chen*, and C. Y. Dong*, “Analysis of collagen fiber domain organization by Fourier second harmonic generation microscopy,” Journal of Biomedical Optics, vol. 18, no. 3, 031105, March 2013. 
  9. P.-S. Hu, A. Ghazaryan, V. Hovhannisyan, S.-J. Chen, Y.-F. Chen, C.-S. Kim, T.-H. Tsai, and C.-Y. Dong, “Imaging of biological tissues with pixel-level analysis of second-order susceptibility,” Journal of Biomedical Optics, vol. 18, no. 3, 031102, March 2013. 


  1. V. A. Hovhannisyan, P,-S, Hu, H.-Y. Tan, S.-J. Chen*, and C.-Y. Dong*, “Spatial orientation mapping of fibers using polarization-sensitive second harmonic generation microscopy,” Journal of Biophotonics, vol. 5, no. 10, pp. 768-776, October 2012.
  2. W.-L. Chen, P,-S, Hu, A. Ghazaryan, S.-J. Chen*, T.-H. Tsai, and C.-Y. Dong*“Quantitative analysis of multiphoton excitation autofluorescence and second harmonic generation imaging for medical diagnosis,” Computerized Medical Imaging and Graphics, vol. 36, no. 7, pp. 519-526, October 2012. 
  3. T.-Y. Huang, L.-S. Lin, K.-C. Cho, S.-J. Chen, Y.-M. Kuo, L. Yu, F.-S. Wu, J.-I. Chuang, H.-I. Chen, and C. J. Jen, “Chronic treadmill exercise in rats delicately alters the Purkinje cell structure to improve motor performance and toxin-resistance in the cerebellum,” Journal of Applied Physiologyvol. 113, no. 15, pp. 889-895, September 2012. 
  4. X. Chen, Y.-D. Su, V. Ajeti, S.-J. Chen, and P. J. Campagnola, “Cell adhesion on micro-structured fibronectin gradients fabricated by multiphoton excited photochemistry,” Cellular and Molecular Bioengineering, vol. 5, no. 3, pp. 307319September 2012.
  5. Y.-C. Li, L.-C. Cheng, C.-Y. Chang, C.-H. Lien, P. J. Campagnola, and S.-J. Chen*, “Fast multiphoton microfabrication of freeform polymer microstructures by spatiotemporal focusing and patterned generation,” Optics Express, vol. 20, no. 17, pp. 19030-19038, August 2012. 
  6.  P.-S. Hu, C.-M. Hsueh, P.-J. Su, W.-L. Chen, V. Hovhannisyan, S.-J. Chen*, T.-H. Tsai, and C.-Y. Dong*, “The use of second order susceptibility as contrast mechanism for label-free imaging of biological tissue,” IEEE Journal of Selected Topics in Quantum Electronics, vol. 18, no. 4, pp. 1326-1134, July/August 2012. 
  7. W. Lo, W.-L. Chen, C.-M. Hsueh, A. A. Ghazaryan, S.-J. Chen, D. H.-K. Ma, C.-Y., H.-Y. Tan“Fast Fourier transform based analysis of second harmonic generation image in keratoconic cornea,” Investigate Ophthalmology & Visual Science, vol. 53, no. 7, pp. 3501-3507, June 2012.
  8. C.-Y. Lin, C.-H. Lien, K.-C. Cho, C.-Y. Chang, N.-S. Chang, P. J. Campagnola, C. Y. Dong, and S.-J. Chen*, “Investigation of two-photon excited fluorescence increment via crosslinked bovine serum albumin,” Optics Express, vol. 20, no. 13, pp. 13669-13676, June 2012. 
  9. W. Lo, A. Ghazaryan, C.-H. Tso, P.-S. Hu, W.-L. Chen, T.-R. Kuo, S.-J. Lin, S.-J. Chen, C.-C. Chen, and C.-Y. Dong, “Oleic acid-enhanced transdermal delivery pathways of fluorescent nanoparticles,” Applied Physics Letters, vol. 100, no. 21, 213701, May 2012. 
  10. L.-C. Cheng, C.-Y. Chang, C.-Y. Lin, K.-C. Cho, W.-C. Yen, N.-S. Chang, C. Xu, C. Y. Dong, and S.-J. Chen*, “Spatiotemporal focusing-based widefield multiphoton microscopy for fast optical sectioning,” Optics Express, vol. 20, no. 8, pp. 8939-8948, April 2012. 
  11. W.-S. Kuo, Y.-T. Chang, K.-C. Cho, K.-C. Chiu, C.-H. Lien, C.-S. Yeh, and S.-J. Chen*, “Gold nanomaterials conjugated with indocyanine green for dual-modality photodynamic and photothermal therapy,” Biomaterials, vol. 33, no. 11, pp. 3270-3278, April 2012 (Impact Factor: 7.604)
  12. A. A. Ghazaryan, P.-S. Hu, S.-J. Chen, H.-Y. Tan, C.-Y. Dong, “Spatial and temporal analysis of skin glycation by the use of multiphoton microscopy and spectroscopy,” Journal of Dermatological Science, vol. 65, no. 3, pp. 189-195, March 2012. 
  13. T.-W. Lin, S.-J. Chen, T.-Y. Huang, C.-Y. Chang, J.-I. Chuang, F.-S. Wu, Y.-M. Kuo, C. J. Jen, “Different types of exercise induce differential effects on neuronal adaptations and memory performance,” Neurobiology of Learning and Memory, vol. 97, no. 1, pp. 140-147, January 2012. 


  1. Y.-C. Hsu, H.-I. Chen,Y.-M. Kuo, L. Yu, T.-Y. Huang, S.-J. Chen, J.-I. Chuang, F.-S. Wu, C.-J. Jen, “Chronic treadmill running in normotensive rats resets the resting blood pressure to lower levels by upregulating the hypothalamic GABAergic system,” Journal of Hypertension, vol. 29, no. 12, pp. 2339-2348, December 2011.
  2. K.-C. Cho, C.-H. Lien, C.-Y. Lin, C.-Y. Chang, L. L. H. Huang, P. J. Campagnola, C. Y. Dong, and S.-J. Chen*, “Enhanced two-photon excited fluorescence in three-dimensionally crosslinked bovine serum albumin microstructures,” Optics Express, vol. 19, no. 12, pp. 11732-11739, June 2011.
  3. C.-H. Lien, W.-S. Kuo, K.-C. Cho, Y.-D. Su, L. L. H. Huang, P. J. Campagnola, C. Y. Dong, and S.-J. Chen*, “Fabrication of gold nanorods-doped, bovine serum albumin microstructures via multiphoton excited photochemistry,” Optics Express, vol. 19, no. 7, pp. 6260-6268, March 2011.
  4. K.-C. Chiu, C.-Y. Lin, C. Y. Dong, and S.-J. Chen*, “Optimizing silver film for surface plasmon-coupled emission induced two-photon excited fluorescence imaging,” Optics Express, vol. 19, no. 6, pp. 5386-5396, March 2011.
  5. J.-Y. Tseng, A. A. Ghazaryan, W. Lo, Y.-F. Chen, V. Hovhannisyan, S.-J. Chen, H.-Y. Tan, and C.-Y. Dong, “Multiphoton spectral microscopy for imaging and quantification of tissue glycation,” Biomedical Optics Express, vol. 2, no. 2, pp. 218-230, February 2011.


  1. S. Dudekula, M.-H. Lee, L.-J. Hsu, S.-J. Chen, and N.-S. Chang, “Zfra is a small wizard in the mitochondrial apoptosis,” Aging-US, vol. 2, no. 12, pp. 1023-1029, December 2010. 
  2. W.-S. Kuo, C.-H. Lien, K.-C. Cho, C.-Y. Chang, C.-Y. Lin, L. L. H. Huang, P. J. Campagnola, C. Y. Dong, and S.-J. Chen*, “Multiphoton fabrication of freeform polymer microstructures with gold nanorods,” Optics Express, vol. 18, no. 26, pp. 27550-27559, December 2010.
  3. V. Hovhannisyan, A. Ghazaryan, Y.-F. Chen, S.-J. Chen, and C.-Y. Dong, “Photophysical mechanisms of collagen modification by 80 MHz femtosecond laser,” Optics Express, vol. 18, no. 23, pp. 24037-24047November 2010.
  4. Y.-L. Chang, W.-L. Chen, W. Lo, S.-J. ChenH.-Y. Tan, C.-Y. Dong, Characterization of corneal damage from Pseudomonas aeruginosa infection by the use of multiphoton microscopy,” Applied Physics Letters, vol. 97, no. 18, 183703November 2010. 
  5. Y.-D. Su, K.-C. Chiu, N.-S. Chang, H.-L. Wu, and S.-J. Chen*, “Study of cell-biosubstrate contacts via surface plasmon polariton phase microscopy,” Optics Express, vol. 18, no. 19, pp. 20125-20135, September 2010.
  6. C.-C. Wang, F.-C. Li, W.-C. Lin, Y.-F. Chen, S.-J. Chen, S.-J. Lin, and C.-Y. Dong, “Early development of cutaneous cancer revealed by intravital nonlinear optical microscopy,” Applied Physics Letters, vol. 97, no. 11,113702, September 2010.
  7. C.-H. Lin, L. Jiang, H. Xiao, S.-J. Chen and H.-L. Tsai, “Surface-enhanced Raman scattering microchip fabricated by femtosecond laser,” Optics Letters, vol. 35, no. 17, pp. 2937-2939, September 2010.
  8. C.-H. Lin, Z.-H. Rao, L. Jiang, W.-J. Tsai, P.-H. Wu, C.-W. Chien, S.-J. Chen, and H.-L. Tsai, “Investigations of femtosecond-nanosecond dual-beam laser ablation of dielectrics,” Optics Letters, vol. 35, no. 14, pp. 2490-2492, July 2010. 
  9. J.-Y. Chang, H.-P. Lin, L.-J. Hsu, F.-J. Lai, Q. HongS.-J. Chen, and N.-S. Chang, “Signaling from membrane receptors to tumor suppressor WW domain-containing oxidoreductase,” Experimental Biology and Medicinevol. 235, no. 7, pp. 796-804, June 2010. 
  10. C.-Y. Lin, K.-C. Chiu, C.-Y. Chang, S.-H. Chang, T.-F. Guo, and S.-J. Chen*, “Surface plasmon-enhanced and quenched two-photon excited fluorescence,” Optics Express, vol. 18, no. 12, pp. 12807-12817, June 2010. 
  11. W. Lo, T.-J. Wang, W.-L. Chen, C.-M. Hsueh, S.-J. Chen, Y.-F. Chen, H.-C. Chou, P.-J. Lin, F.-R. Hu, and C.-Y. Dong, “Label-free structural characterization of mitomycin C–modulated wound healing after photorefractive keratectomy by the use of multiphoton microscopy,” Journal of Biomedical Optics, vol. 15, no. 3, 036005, June 2010. 
  12. W.-S. Kuo, C.-N. Chang, Y.-H. Chien, Y.-T. Chang, S.-J. Chen, and C.-S. Yeh, “Gold nanorods in photodynamic therapy, as hyperthermia agents, and in near-infrared optical imaging” Angewandte Chemie-International Editionvol. 49, no. 15, pp. 2711-2715, April 2010. 
  13. C.-H. Lin, L. Jiang, J. Zhou, H. Xiao, S.-J. Chen, and H.-L. Tsai, “Laser-treated substrate with nanoparticles for surface-enhanced Raman scattering,” Optics Letters, vol. 35, no. 4, pp. 941-943, April 2010.
  14. C.-H. Lin, L. Jiang, Y.H. Chai, H. Xiao, S.-J. Chen, and H.-L. Tsai, “A method to fabricate 2D nanoparticle arrays,” Apply Physics A, vol. 98, no. 4, pp. 855-860, March 2010. 
  15. C.-H. Lin, R. A. Powell, L. Jiang, H. Xiao, S.-J. Chen, and H.-L. Tsai, “Real-time depth measurement for micro-holes drilled by lasers,” Measurement Science & Technology, vol. 21, no. 2, pp. 025307, February 2010.
  16. R.-Y. He, C.-Y. Lin, Y.-D. Su, K.-C. Chiu, N.-S. Chang, H.-L. Wu, and S.-J. Chen*, “Imaging live cell membranes via surface plasmon-enhanced fluorescence and phase microscopy,” Optics Express, vol. 18, no. 4, pp. 3649-3659, February 2010. 


  1. C.-H. Lin, L. Jiang, Y. H. Chai, H. Xiao, S.-J. Chen, and H. L. Tsai, “Fabrication of microlens arrays in photosensitive glass by femtosecond laser direct writing,” Apply Physics A, vol. 97, no. 4, pp. 751-757, December 2009.
  2. C.-H. Lin, L. Jiang, Y.-H. Chai, H. Xiao, S.-J. Chen, and H.-L. Tsai, “One-step fabrication of nanostructures by femtosecond laser for surface-enhanced Raman scattering,” Optics Express, vol. 17, no. 24, pp. 21581-21589, November 2009.
  3. W. Lo, Y.-L. Chang, J.-S. Liu, C.-M. Hseuh, V. Hovhannisyan, S.-J. Chen, H.-Y. Tan, and C.-Y. Dong, “Multimodal, multiphoton microscopy and image correlation analysis for characterizing corneal thermal damage,” Journal of Biomedical Optics, vol. 14, no. 5, 054003, September 2009.
  4. C.-H. Lin, L. Jiang, H. Xiao, Y.-H. Chai, S.-J. Chen, and H.-L. Tsai, “Fabry-Perot interferometer embedded in a glass chip fabricated by femtosecond laser,” Optics Letters, vol. 34, no. 16, pp. 2408-2410, August 2009.
  5. P.-J. Su, W.-L. Chen, J.-B. Hong, T.-H. Li, R.-J. Wu, C.-K. Chou, S.-J. Chen, C. Hu, S.-J. Lin, and C.-Y. Dong, “Discrimination of collagen in normal and pathological skin dermis through second-order susceptibility microscopy,” Optics Express, vol. 17, no. 13, pp. 11161-11171, June 2009.
  6. Q. Hong, C.-I Sze, S.-R. Lin, M.-H. Lee, R.-Y. He, L. Schultz, L.-J. Hsu, S.-J. Chen, R. J. Boackle, and N.-S. Chang, “Complement C1q activates tumor suppressor WWOX to kill prostate cancer cells: downregulation of C1q in hyperplasia and cancerous prostate,” PLoS ONE, vol. 4, no 6, e5755, June 2009.
  7. R.-Y. He, Y.-D. Su, K.-C. Cho, C.-Y. Lin, N.-S. Chang, C.-H. Chang, and S.-J. Chen*, “Surface plasmon-enhanced two-photon fluorescence microscopy for live cell membrane imaging,” Optics Express, vol. 17, no. 8, pp. 5987-5997, April 2009.
  8. Y.-L. Chiang, C.-H. Lin, M.-Y. Yen, Y.-D. Su, S.-J. Chen, and H.-F. Chen, “Innovative antimicrobial susceptibility testing method using surface plasmon resonance,” Biosensors & Bioelectronics, vol. 24, no. 7, pp. 1905-1910, March 2009.


  1. V. Hovhannisyan, W. Lo, C. Hu, S.-J. Chen, and C. Y. Dong, “Dynamics of femtosecond laser photo-modification of collagen fibers,” Optics Express, vol. 16, no. 11, pp. 7958-7968, May 2008


  1. K.-H. Lee, Y.-D. Su, S.-J. ChenF.-G. Tseng and G.-B. Lee, “Microfluidic systems integrated with two-dimensional surface plasmon resonance phase imaging systems for microarray immunoassay,” Biosensors & Bioelectronics, vol. 23, no. 4, pp. 466-472, November 2007.
  2. F.-C. Chien, C.-Y. Lin, J.-N. Yih, K.-L. Lee, C.-W. Chang, P.-K. Wei, C.-C. Sun, and S.-J. Chen*, “Coupled waveguide-surface plasmon resonance biosensors constructed with sub-wavelength gratings,” Biosensors & Bioelectronics, vol. 22, no. 11, pp. 2737-2742, May 2007. 


  1. R.-Y. He, G.-L. Chang, H.-L. Wu, C.-H. Lin, K.-C. Chiu, Y.-D. Su, and S.-J. Chen*, “Enhanced live cell membrane imaging using surface plasmon-enhanced total internal reflection fluorescence microscopy,” Optics Express, vol. 14, no. 20, pp. 9307-9316, October 2006. 
  2. J.-J. Chyou, C.-S. Chu, F.-C. ChienT.-L. Yeh, C.-M. Hsu, and S.-J. Chen*, “Precise determination of dielectric constant and thickness of nanolayer using surface plasmon resonance sensing and multi-experiment linear data analysis,” Applied Optics, vol. 45, no. 23, pp. 6038-6044, August 2006. 
  3. S.-C. Huang, G.-B. Lee, F.-C. Chien, S.-J. Chen, W.-J. Chen, and M.-C. Yang, “A microfluidic system with integrated molecular imprinting polymer films for surface plasmon resonance detection,” Journal of Micromechanics and Microengineering, vol. 16, no. 7, pp. 1251-1257, July 2006. 
  4. W. P. Hu, G. L. Chang, Y. M. Kuo, and S.-J. Chen*, “Kinetic analysis of β-amyloid peptide aggregation Induced by metal ions based on surface plasmon resonance biosensing,” Journal of Neuroscience Methods, vol. 154, no. 1-2, pp. 190-197, June 2006. 
  5. C.-Y. Chung, K.-C. Cho, C.-C. Chang, W.-C. Yen, and S.-J. Chen*, “Adaptive optics system with liquid crystal phase-shift interferometer,” Applied Optics, vol. 45, no. 15, pp. 3409-3414, May 2006. 
  6. Y.-L. Lo, C.-C. Yen, and S.-J. Chen*, “Fiber type of optical coherence tomography with an auto-focus device,” Optics Communications, vol. 259, no. 1, pp. 70-77, March 2006. 
  7. J.-N. Yih, Y.-M. Chu, Y.-C. Mao, W.-H. Wang, F.-C. Chien, K.-L. Lee, P.-K. Wei, and S.-J. Chen*, “Optical waveguide biosensors constructed with sub-wavelength gratings,” Applied Optics, vol. 45, no. 9, pp. 1938-1942, March 2006. 
  8. W. P. Hu, H.-Y. Hsu, A. Chiou, K. Y. Tseng, G. L. Chang, and S.-J. Chen*, “Immunodetection of pentamer and modified C-reactive protein using surface plasmon resonance biosensing,” Biosensors & Bioelectronics, vol. 21, no. 8, pp. 1631-1637, February 2006. 
  9. F.-C. Chien and S.-J. Chen*, “Direct determination of the refractive index and thickness of bio-layer based on coupled waveguide-surface plasmon resonance mode,” Optics Letters, vol. 31, no. 2, pp. 187-189, January 2006. 


  1. J.-N. Yih, F.-C. Chien, C.-Y. Lin, H.-F. Yau, and S.-J. Chen*An angular-interrogation attenuated-total-reflection metrology system for plasmonic sensors,” Applied Optics, vol. 44, no. 29, pp. 6155-6162, October 2005. 
  2. L.-Y. Chen, M.-C. Wu, M.-T. Chou, L.-A. Kao, S.-J. Chen, and W.-Y. Chen, “Effects of solute-matrix interaction on monitoring the conformational changes of immobilized proteins by surface plasmon resonance sensor,” Talanta, vol. 67, no. 4, pp. 862-867, October 2005. 
  3. A.-C. Liu, L.-Y. Chen, C.-F. Chiou, H.-J. R. Su, Y.-C. Chan, P.-H. Tasi, S.-J. Chen, and W.-Y. Chen, “Thermodynamics and Mechanism of ssDNA Hybridization Below the Melting Temperature by Isothermal Titration Calorimetry,” Thermochimica Acta, vol. 433, pp. 87-91, September 2005.
  4. Y.-D. Su, S.-J. Chen*, and T.-L. Yeh, “Common-path phase-shift interferometry surface plasmon resonance imaging system,” Optics Letters, vol. 30, no. 12, pp. 1488-1490, June 2005. 
  5. Y.-D. Su, F.-M. Hsiu, C.-Y. Tsou, Y.-K. Chen, and S.-J. Chen*, “Surface plasmon resonance phase-shift interferometry: Real-time DNA microarray hybridization analysis,” Journal of Biomedical Optics, vol. 10, no. 3, 034005, May/June 2005. 
  6. J.-N. Yih, F. C. Chien, W.-C. Hsu, S.-Y. Tsai, and S.-J. Chen*Enhanced the readout signal of super-resolution near-field structure discs by controlling size and distribution of metal nanoclusters,” Applied Optics, vol. 44, no. 15, pp. 3001-3005, May 2005. 
  7. J.-J. Chyou, S.-J. Chen*, C.-S. Chu, Z.-H. Shih, C.-Y. Lin, and C.-F. Shu, “Fabrication and metrology of E-O polymer light modulator based on waveguide-coupled surface plasmon resonance,” Optical Engineering, vol. 44, no. 3, 034001, March 2005.


  1. S.-J. Chen*, C. K. Kuan, S. Y. Perng, D. J. Wang, H. C. Ho, T. C. Tseng, Y.-C. Lo, and C. T. Chen, “A new focusing mirror system for synchrotron radiation infrared beamlines,” Optical Engineering, vol. 43, no. 12, pp. 3077-3082, December 2004.
  2. F.-C. Chien and S.-J. Chen*, “A sensitivity comparison of optical biosensors based on four different surface plasmon resonance modes,” Biosensors & Bioelectronics, vol. 20, no. 3, pp. 633-642, October 2004.
  3. F.-C. Chien, J.-S. Liu, H.-J. Su, L.-A. Kao, C.-F. Chiou, W.-Y. Chen, and S.-J. Chen*, “An investigation into the influence of secondary structures on DNA hybridization using surface plasmon resonance biosensing,” Chemical Physics Letters, vol. 397, no. 4-6, pp. 429-434, October 2004.
  4. J.-J. Chyou, S.-J. Chen*, and Y.-K. Chen, “Two-dimensional phase unwrapping using a multichannel least-mean-square algorithm,” Applied Optics, vol. 43, no. 30, pp. 5655-5661, October 2004.
  5. S.-J. Chen*, F. C. Chien, G. Y. Lin, and K. C. Lee, “Enhanced the resolution of surface plasmon resonance biosensors by controlling size and distribution of nanoparticles,” Optics Letters, vol. 29, no. 12, pp. 1390-1392, June 2004.
  6. W. P. Hu, S.-J. Chen*, K.-T. Huang, J. H. Hsu, W. Y. Chen, G. L. Chang, and K.-A. Lai, “A novel ultrahigh-resolution surface plasmon resonance biosensor with an Au nanocluster-embedded dielectric film,” Biosensors & Bioelectronics, vol. 19, no. 11, pp. 1465-1471, June 2004.


  1. S.-J. Chen*, C.T. Chen, S.Y. Perng, C.K. Kuan, T.C. Tseng, D.J. Wang, “Design and fabrication of an active polynomial grating for soft-X-ray monochromators and spectrometers,” Nuclear Instruments & Methods in Physics Research A, vol. 467-468, pp. 298-301, July 2001. 
  2. T.C. Tseng, S.-J. Chen*, Z.C. Yeh, S.Y. Perng, D.J. Wang, C.K. Kuan, J.R. Chen, C.T. Chen, “Design and fabrication of aspherical bimorph PZT optics,” Nuclear Instruments & Methods in Physics Research A, vol. 467-468, pp. 294-297, July 2001. 
  3. S.-J. Chen*, S.Y. Perng, P.-C. Tseng, C.K. Kuan, D.J. Wang, C.T. Chen, “K-B microfocusing system using monolithic flexure-hinge mirrors for synchrotron X-rays,” Nuclear Instruments & Methods in Physics Research A, vol. 467-468, pp. 283-286, July 2001. 
  4. S.-J. Chen*, J. S. Gibson, “Feedforward adaptive noise control with multivariable gradient lattice filters,” IEEE Transactions on Signal Processing, vol. 49, no. 3, pp. 511-520, March 2001.

B. Book Chapters:

  1. C.-Y. Lin, R.-Y. He, Y.-D. Su, and S-J. ChenPlasmonic Microscopy for Biomedical Imaging
  2. 陳顯禎光機電系統整合概論,精密儀器發展中心,August 2004
  3. 陳顯禎SPR 光學顯微術,奈米檢測技術,精密儀器發展中心,December 2008

C. Patents:

  1. 顯禎、林俊佑、簡汎清、黃崑財、胡文品、陳文逸、李冠卿、李文獻,一種高靈敏度表面電漿共振感測器,中華民國 發明專利公告號:586005 (公告日期:2004/05/01)
  2. Shean-Jen Chen, Chun-Yu Lin, Fang-Ching Chien, K. T. Huang, W. P. Hu, Wen-Yih Chen, Kuan-Ching Lee, and Wen-Hsien Li, “A nanoparticle-enhanced ultrahigh-sensitivity surface plasmon resonance biosensor,” U.S. Patent Pending No. 10/660,833 (filed on September 12, 2003
  3. 陳顯禎、蘇園登、黃崑財、易政男、施至鴻、李文獻、李冠卿、陳文逸,可攜帶式表面電漿共振及表面強化拉曼散射感測系統,中華民國 發明專利公告號:I229734 (公告日期:2005/03/21)
  4. 李國賓、黃仕強、陳顯禎、簡汎清,以表面電漿共振技術偵測微流體分子模版聚合物晶片之方法及其晶片,中華民國 發明專利公告號:I249768 (公告日期:2006/02/21)
  5. 蘇園登、陳顯禎具共光程移相干涉術之表面電漿共振顯微鏡,中華民國 專利申請(申請日期:2004/12/20)
  6. Yuan-Deng Su and Shean-Jen Chen, ” Surface plasmon resonance microscope using common-path phase-shift interferometry,U.S. Patent No. US 7,339,681 B2, (Granted Date: March 4, 2008).
  7. 簡汎清、陳顯禎耦合波導表面電漿共振生物感測器於生物分子構形改變之分析,中華民國 專利申請(申請日期:2006/05/01)
  8. 陳顯禎、毛彥傑、易政男、簡汎清、林俊佑、朱怡銘、陳來勝、王維漢、吳兆棋、林彥君,波導耦合表面電漿共振生物感測器,中華民國 發明專利公告號:I296044 (公告日期:2008/02/21)
  9. Shean-Jen Chen, Yen-Chieh Mao, Jeng-Nan Yih, Fan-Ching Chien, Chun-Yu Lin, Yi-Ming Chu, Lai-Sheng Chen, Wei-Han Wang, Chao-Chi Wu, and Yen-Chun Lin, “Coupled waveguide-surface plasmon resonance biosensor,” U.S. Patent No. US7679748B2, (Granted Date: March 16, 2010).
  10. 陳顯禎、毛彥傑、易政男、簡汎清、林俊佑、朱怡銘、陳來勝、王維漢、吳兆棋、林彥君,波導耦合表面等離子體共振生物傳感器,中國大陸 發明專利公告號:ZL 2005 1 0124022.X (公告日期:2010/11/10)
  11. 陳顯禎、易政男、謝永達、胡瑜凌、鄭力中、李益誠、張家源,利用數位微型反射鏡元件之多光子螢光激發顯微裝置,中華民國 發明專利申請號:103120148 (申請日期:2014/06/11)
  12. 陳顯禎、林俊佑、張芯語、葉德夫、鄧熙聖,三維氧化石墨烯微結構與其製作方法,中華民國 發明專利申請號:103128193 (申請日期:2014/08/15)
  13. 陳顯禎、張家源、徐逢均、謝永達,“位置檢測方法及其電腦程式產品,中華民國 發明專利申請號: I668411 (公告日期:2019/08/11)
  14. 林俊佑、徐逢均、蘇明旭、蘇靖傑、張嘉熒、陳顯禎“物件特徵定位裝置及雷射與攝像整合系統,中華民國 發明專利申請號:I706335 (公告日期:2020/10/01)
  15. 陳顯禎、陳彥碩、張家源、謝永達,雷射加工系統及雷射加工路徑決定方法,中華民國 發明專利申請號:I727341 (公告日期:2021/05/11)
  16. 徐逢均、張家源、謝至亮、林俊佑、張嘉熒、陳顯禎“雷射與攝像整合系統及其方法,中華民國 發明專利申請號:I727393 (公告日期:2021/05/11)
  17. Chun-Yu Lin, Feng-Chun Hsu, Sumesh Nair, Jing-Jie Su, Chia-Ying Chang, Shean-Jen Chen, “Object characteristic locating device and laser and imaging integration system, ” U.S. Patent No. US11127160B2, (Granted Date: September 21, 2021).
  18. 陳顯禎、宋俊廷、陳定謙、徐孟輝,“高架履帶式電動自走車”,中華民國 新型專利公告號:M634262 (公告日期:2022/11/11)。

D. Others:

  1. 簡汎清、黃崑財、林俊佑、陳顯禎*奈米粒子強化之超高解析度表面電漿共振生物感測器,光學工程期刊,vol. 84pp. 1-8December 2003
  2. 許峰銘、易政男、鄒嘉原、陳怡光、陳顯禎*表面電漿共振移相干涉術:即時DNA微陣列的雜交分析,光學工程期刊,vol. 84pp. 16-23December 2003
  3. 鍾政英、卓粳佶、張智強、閻偉中、陳顯禎*具液晶移相干涉儀之適應光學系統,科儀新知,vol. 27no. 2pp. 89-95October 2005
  4. 易政男毛彥傑簡汎清李光立魏培坤陳顯禎應用奈米轉印技術製備蛋白質晶片臺灣奈米會刊vol. 7pp. 27-34December 2005
  5. 毛彥傑、陳來勝、陳顯禎蛋白質光柵晶片與檢測設備,機械工業雜誌,vol. 279no. 6pp. 59-68June 2006
  6. 陳顯禎*、簡汎清,耦合波導表面電漿共振生物感測器於生物分子構形改變之分析,工程科技通訊,vol. 87pp. 163-167August 2006
  7. 簡汎清、邱國智、林俊佑、易政男、陳顯禎*奈米電漿子感測技術於生物分子之功能分析,科儀新知,vol. 28no. 4pp. 37-49February 2007
  8. 蘇園登、何瑞玉、吳華林、陳顯禎*電漿子顯微術於活體細胞膜影像之應用,生醫光電特刊II,光電協進會,June 2007
  9. 林俊佑、邱國智、余隆佑、張哲維、簡汎清、易政男、陳顯禎*奈米電漿子生醫感測技術臺灣奈米會刊vol. 10pp. 20-37September 2007
  10. 何瑞玉、蘇園登、卓粳佶、林俊佑、陳顯禎*表面電漿子增強之雙光子螢光顯微術於活體細胞膜影像應用,光學工程期刊,vol. 107pp. 51-65September 2009
  11. 蘇園登、陳顯禎*利用表面電漿子相位顯微術於活體細胞與生物基材接觸之研究,光學工程期刊,vol. 112pp. 10-24October 2010
  12. 鄭力中、張家源、陳顯禎*基於空間時域聚焦的廣視域多光子顯微術於快速光學切片上應用,光學工程期刊,vol. 118pp. 33-40July 2012
  13. 鄭力中、張家源、林俊佑、李益誠、連啟翔、胡瑜凌、陳顯禎*時域聚焦之多光子激發顯微術,科儀新知,vol. 200no. 5pp. 52-62September 2014
  14. 張嘉熒、徐逢均、Sumesh Nair、蘇靖傑、林俊佑、許根玉、陳顯禎*,“精準雷射蟲害控制”,科儀新知vol. 220,pp. 74-85,September 2019
  15. 胡瑜凌、陳顯禎*農村勞動力不足怎麼辦?雷射結合自動定位與全自駕系統,實現精準除蟲、除草、疏花工作”,科技大觀園,August 2022。View article