[1] E. M. Sevick, B. Chance, J. Leigh, S. Nioka, M. Maris, "Quantitation of time- and frequency-resolved optical spectra for the determination of tissue oxygenation," Anal. Biochem. 195(2), 330–351 (1991).

[2] K. A. Kang, L. He, B. Chance, "Detection of absorbers in a dynamic system using NIR phase modulated device (PMD)," Advances in Experimental Medicine and Biology, P. Vaupel, R. Zander, D. F. Bruley, Eds., Vol. 345, pp. 807–814, Plenum, New York (1994).

[3] K. A. Kang, D. F. Bruley, "The B-W-K technique applied to problems of hyperthermia," Heat Transfer- Baltimore 1997, AIChE Sympo. Series, M. S.El-Genk, Ed., Vol. 93, pp. 174–184, AIChE, New York (1997).

[4] K. A. Kang, B. Chance, D. F. Bruley, "Detection of pulsed absorber using phase modulation spectroscopy," Proceeding of SPIE, Photon Migration and Imaging in Random Media and Tissue, B. Chance, R. R. Alfano, Eds., Vol. 1888, pp. 227–238, SPIE, Bellingham, WA (1993).

[5] K. A. Kang, B. Chance, D. F. Bruley, J. Londono, "The application of near field interference of phase modulated spectroscopy for detection of absorbers: Theoretical prediction of phase shift with respect to the location of the absorber by Using a probabilisticnumerical technique, the B-W-K method," Proceeding of SPIE, Photon Migration and Imaging in Random Media and Tissue, B. Chance, R. R. Alfano, Eds., Vol. 1888, pp. 340–353, SPIE, Bellingham, WA (1993).

[6] K. A. Kang, D. F. Bruley, B. Chance, "New approach to near infrared TRS spectra analysis by pulse testing frequency response analysis: Spectroscopy and imaging," Proc. Thirteenth Southern Biomedical Engineering Conf., J. Vossoughi, Ed., pp. 971–974 (1994).

[7] K. A. Kang, D. F. Bruley, J. M. Londono, B. Chance, "Highly scattering optical system identifi- cation via frequency response analysis of optical NIR-TRS spectra," Ann. Biomed. Eng. 22, 241–253 (1994).

[8] K. A. Kang, D. F. Bruley, J. Londono, B. Chance, "Frequency response by pulse reduction for the analysis of TRS spectra," Advances in Experimental Medicine and Biology, M. C. Hogan et al., Eds., Vol. 361, pp. 135–142, Plenum, New York (1994).

[9] K. A. Kang, D. F. Bruley, M. Kitai, B. Chance, "System parameter analysis of NIR-TRS spectra from homogeneous media with and without an absorbing boundary and heterogeneous media with a single absorber," ISOTT XVII, Advances in Experimental Medicine and Biology, C. Ince, J. Kesecioglu, L. Telci, K. Akpir, Eds., Vol. 388, pp. 399–414, Plenum, New York (1996).

[10] M. W. Hemelt, J. T. Barnett, D. F. Bruley, K. A. Kang, "Two and three dimensional localization of deep vein thrombosis using near infrared time resolved spectroscopy," Proc. 1997 16th Southern Biomedical Engineering Conf., J. Bumgardner, A. Puckett, Eds., pp. 449–454, IEEE Inc., Piscataway, NJ (1997).

[11] K. A. Kang, D. F. Bruley, B. Chance, "Feasibility study of a single and multiple source NIR phase modulation device for biological system characterization," Biomed. Instrum. Technol. 31(4), 373–386 (1997).

[12] B. Chance, K. A. Kang, L. He, J. Weng, E. Sevick, Highly sensitive object location in tissue models with linear in-phase and anti-phase multi-element optical arrays in one and two dimensions, Proc. Natl. Acad. Sci. 90, 3423–3427 (1993).

[13] B. Chance, K. A. Kang, L. He, "Object localization in brain and breast by a phased array system," Advances in Experimental Medicine and Biology, M. C. Hogan et al., Eds., Vol. 361, p. 225, Plenum, New York (1994).

[14] K. A. Kang, B. Chance, "Phase and intensity information in a highly scattering medium with two absorbers using phased array spectroscopy: Theoretical study," Proc. SPIE Quantification and Localization using Diffuse Photons in a Highly Scattering Medium, B. Chance, Ed., Vol. 2082, pp. 141–151, SPIE, Bellingham, (1994).

[15] B. Chance, K. A. Kang, L. He, H. Liu, S. Zhou, "Precision localization of hidden absorbers in body tissues with phased — array optical systems," Rev. Sci. Instrum. 67(12), 4324–4332 (1996).

[16] K. A. Kang, D. F. Bruley, J. M. Londono, B. Chance, "Localization of a fluorescent object in a highly scattering media via frequency response analysis of NIR-TRS spectra," Ann. Biomed. Eng. 26(1), 138–145 (1998).

[17] K. A. Kang, B. Chance, S. Zhao, S. Srinivasan, E. Patterson, R. Troupin, "Breast tumor characterization using near-infra-red spectroscopy," Proceeding of SPIE, Photon Migration and Imaging in Random Media and Tissue, B. Chance, R. R. Alfano, Eds., Vol. 1888, pp. 487–499, SPIE, Bellingham, WA (1993).

[18] A. L. Honar, K. A. Kang, "Effect of source and detector configuration on the detectability of breast cancer," Comp. Biochem. Physiol. A 132, 9–15 (2002).

[19] A. L. Honar, C. D. Ricks, K. A. Kang, "Preliminary studies on the photon path in breast tissue model by NIR-TRS," Advances in Experimental Medicine and Biology, J. F. Dunn, H. M. Swartz, Eds., Vol. 530, pp. 113–121, Klewer Academic/Plenum Publishers, New York (2003).

[20] M. W. Hemelt, J. T. Barnett, D. F. Bruley, K. A. Kang, "Application of near-IR and frequency response analysis for deep vein thrombosis detection," Biotechnol. Prog. 13 640–648 (1997).

[21] J. Barnett, M. Hemelt, K. A. Kang, D. F. Bruley, "Near infrared-time resolved spectroscopy for the detection of deep vein thrombosis within the human leg," Advances in Experimental Medicine and Biology, D. K. Harrison, D. T. Delpy, Eds., Vol. 428, pp, 31–43, Plenum, New York (1997).

[22] M. W. Hemelt, J. T. Barnett, D. F. Bruley, K. A. Kang, "Heterogeneity (DVT) depth localization using phase shift and time constant values of NIRTRS spectra," Advances in Experimental Medicine and Biology, A. G. Hudetz, D. F. Bruley, Eds., Vol. 454, pp. 671–679, Plenum, New York (1998).

[23] M. W. Hemelt, K. A. Kang, "Determination of the biological absorber depth utilizing multiple S-D separations and multiple frequency values from NIRTRS spectra," Biotechnol. Prog. 15, 622–629 (1999).

[24] M. W. Hemelt, B. Yang, K. A. Kang, "Heterogeneity depth localization using near infrared time resolved spectroscopy (NIR-TRS)," ISOTT XXI, Advances in Experimental Medicine and Biology, A. Eke, D. T. Delpy, Eds., Vol. 471, pp. 671–680, Kluwer Academic/ Plenum, New York (1999).

[25] L. Korah, F. D. Scott, Jr., G. M. Williams, K. A. Kang, "Preliminary studies of the application of near-infrared spectroscopy in the diagnose of deep vein thrombosis," Advances in Experimental Medicine and Biology, J. F. Dunn, H. M. Swartz, Eds., Vol. 530, pp. 697–706 (2003).

[26] K. A. Kang, D. K. Harrison, D. F. Bruley, Oxygen Transport to Tissue XXIX: Advances in Experimental Medicine and Biology, Vol. 614 (2008).

[27] H. Jin, K. A. Kang, "Application of novel metal nanoparticles as optical/thermal agents in optical mammography and hyperthermic treatment for breast cancer," Adv. Exp. Med. Biol., Vol. 599, Oxygen Transport to Tissue XXVIII, D. J. Maguire, D. F. Bruley, D. K. Harrison, Eds., pp. 45–52, Springer, New York (2007).

[28] K. A. Kang, J. Wang, J. Jasinski, S. Achilefu, "Fluorescence manipulation by gold nanoparticles: From complete quenching to enhancement," J. Nanobiotechnology 9, 16–28 (2011).

[29] J. Wang, M. H. Nantz, S. Achilefu, K. A. Kang, "FRET-Like fluorophore-nanoparticle complex for highly specific cancer localization," Adv. Exp. Med. Biol. 662, 407–414 (2010).

[30] J. Wang, S. Achilefu, M. Nantz, K. A. Kang, "Gold nanoparticle-fluorophore complex for conditionally fluorescing signal mediator," Anal. Chim. Acta 695, 96–104 (2011).

[31] J. Wang, M. G. O'Toole, A. Massey, S. Biswas, M. Nantz, S. Achilefu, K. A. Kang, "Highly specific, NIR fluorescent contrast agent with emission controlled by gold nanoparticle," Adv. Exp. Med. Biol. 701, 149–154 (2011).

[32] K. A. Kang, J. Wang, M. G. O'Toole, M. Nantz, J. D. Moore, S. Laulhe, S. Achilefu, "Sensitivity enhancement of NIR fluorescence contrast agent utilizing gold nanoparticle," Adv. Exp. Med. Biol. 737, 285–291 (2012).

[33] J. Wang, J. D. Moore, S. Laulhe, S. Achilefu, K. A. Kang, "Fluorophore-gold nanoparticle complex for sensitive optical biosensing and imaging," Nanotechnology 23, 095501 (2012).