Spectroscopy
  1. Jia-Zhong Zhang, ìShipboard automated determination of trace concentrations of nitrite and nitrate in oligotrophic water by gas-segmented continuous flow analysis using a liquid waveguide capillary flow cellî, Deep-Sea Research I, Vol. 47, (2000), 1157-1171.
  2. Mathias Belz, Peter Dress, Aleksandr Sukhitskiy and Suyi Liu*, "Linearity and effective optical pathlength of liquid waveguide capillary cells", Part of the SPIE Conference on Internal Standardization and Calibration Architectures for Chemical Sensors, Boston Massachusetts, September 1999, SPIE Vol. 3856, 271-281.
  3. E. J. D'Sa, G. J. Kirkpatrick, S. Y. Liu, "Application of a long path-length aqueous capillary waveguide for seawater absorption spectral measurements", Ocean Sciences Meeting of the American Geophysical Union, San Diego, CA, EOS Transactions, (1998), 76(3):OS34.
  4. E. J. D'Sa, S. E. Lohrenz, C. L. Carroll, H. Fein, "Liquid waveguide capillary flow cell for determining absorption of scattering suspensions: Comparison with an integrating sphere", to appear in Proceedings of the Society of Photo-optical Instrumentation Engineers (SPIE), Ocean Optics XIV, paper presentation: Hawaii, November 13, 1998.
  5. P. K. Dasgupta, Z. Genfa, S. K. Poruthoor, S. Caldwell, S. Dong, and S.-Y. Liu, "High-Sensitivity Gas Sensors Based on Gas-Permeable Liquid Core Waveguides and Long-Path Absorbance Detection", Anal. Chem., (1998), Vol. 70 pp. 4661-4669.
  6. Li. Song, S. Liu, V. Zhelyaskov, and M.A. El-Sayed, "Application of liquid waveguide to Raman spectroscopy in aqueous solution", Appl. Spectrosc., (1998), Vol.52, pp. 1364-1367.
  7. P. Dress, M. Belz, K.-F. Klein, K.T.V. Grattan, H. Franke, "Water-core-waveguide for pollution measurements in the deep ultra-violet", Applied Optics, Vol. 37, (1998), No. 21, 4991-4997.
  8. K.-F. Klein, M. Belz, P. Dress, B. Schelle, W.J.O. Boyle, K.T.V. Grattan and H. Franke: "Ultrasensitive detection system for fiber-optic-based ultraviolet spectroscopy". Paper presented at Photonics West (BiOS-98), (January 1998) Proceedings of SPIE, Vol. 3258, paper 3258-11, 75-81.
  9. M. Belz, P. Dress, K.-F. Klein, W.J.O. Boyle, H. Franke and K.T.V. Grattan: "Liquid Core Waveguide with Fiber Optic coupling for Remote Pollution Monitoring in the deep Ultraviolet". Poster presented at 7th IAWQ Workshop on Instrumentation, Control and Automation and Wastewater Treatment and Transport Systems, Brighton (UK), (July 1997), published in Water Science and Technology, (1998), Vol. 37, No. 12, 279-284.
  10. Su-Yi Liu, Ian R. Davies, "Testing drinking water with a very long path-length cell", Nature UK Product Review, May 1997, page 9
  11. L. Marty Martinez, Rosalie K. Crouch, D. Wesley Corson, "Application of a Submicroliter Spectrophotometer in Visual Pigment Studies", Molecular Vision 3:4, 1997, http://www.emory.edu/molvis/v3/martinez
F-O-LITEH
  1. Blyth, J, et al. "A diffusion method for making silver bromide based holographic recording material" (1999) Imaging Science Journal 47: 2
  2. Grill, CP, et al. "Development of colour in an aposematic ladybird beetle: The role of environmental conditions" (1999) Evolutionary Ecology Research 1: 6
LWCC
  1. J.-Z. Zhang, R. Wanninkhof, K. Lee, “Enhanced new production observed from the diurnal cycle of nitrate in an oligotrophic anticyclonic eddy”, Geophys. Res. Lett., Vol. 28, (2001), 1579-1582.
  2. J.-Z. Zhang, C. Kelbe, F.J. Millero, “Gas segmented continuous flow analysis of iron in water with a long liquid waveguide flow cell”, Anal. Chim. Acta, 438: (2001), 49-57.
    G. J. Kirkpatrick, O. M. Schofield, D. F. Millie, M. A. Moline, “Optical discrimination of phytoplankton species in mixed populations”, Limnol Oceanogr., (2000) 45(2), 467-471.
  3. Jia-Zhong Zhang, “Shipboard automated determination of trace concentrations of nitrite and nitrate in oligotrophic water by gas-segmented continuous flow analysis using a liquid waveguide capillary flow cell”, Deep-Sea Research I, 47: (2000), 1157-1171.
  4. E. D’Sa, et al., “Determining optical absorption of colored dissolved organic matter in seawater with a liquid capillary waveguide”, Limnol, Oceanogr. 44(4): 1999, 1142-1148.
  5. Mathias Belz, Peter Dress, Aleksandr Sukhitskiy, Suyi Liu, “Linearity and effective optical pathlength of liquid waveguide capillary cells”, Part of the SPIE Conference on Internal Standardization and Calibration Architectures for Chemical Sensors, Boston, September 1999, SPIE Vol. 3856, 271-281.
  6. Jia-Zhong Zhang, “Shipboard automated determination of trace concentrations of nitrite and nitrate in oligotrophic water by gas-segmented continuous flow analysis using a liquid waveguide capillary flow cell”, Deep-Sea Research I, Vol. 47, (2000), 1157-1171.
  7. Mathias Belz, Peter Dress, Aleksandr Sukhitskiy and Suyi Liu*, “Linearity and effective optical pathlength of liquid waveguide capillary cells”, Part of the SPIE Conference on Internal Standardization and Calibration Architectures for Chemical Sensors, Boston Massachusetts, September 1999, SPIE Vol. 3856, 271-281.
  8. E. J. D'Sa, G. J. Kirkpatrick, S. Y. Liu, “Application of a long path-length aqueous capillary waveguide for seawater absorption spectral measurements”, Ocean Sciences Meeting of the American Geophysical Union, San Diego, CA, EOS Transactions, (1998), 76(3):OS34.
    G. J. Kirkpatrick, O. M. Schofield, D. F. Millie, M. A. Moline, “Optical discrimination of phytoplankton species in mixed populations”, Limnol Oceanogr., 45(2), 467-471.
  9. E. J. D'Sa, S. E. Lohrenz, C. L. Carroll, H. Fein, “Liquid waveguide capillary flow cell for determining absorption of scattering suspensions: Comparison with an integrating sphere”, to appear in Proceedings of the Society of Photo-optical Instrumentation Engineers (SPIE), Ocean Optics XIV, paper presentation: Hawaii, November 13, 1998.
  10. P. K. Dasgupta, Z. Genfa, S. K. Poruthoor, S. Caldwell, S. Dong, and S.-Y. Liu, “High-Sensitivity Gas Sensors Based on Gas-Permeable Liquid Core Waveguides and Long-Path Absorbance Detection”, Anal. Chem., (1998), Vol. 70 pp. 4661-4669.
  11. Li. Song, S. Liu, V. Zhelyaskov, and M.A. El-Sayed, “Application of liquid waveguide to Raman spectroscopy in aqueous solution”, Appl. Spectrosc., (1998), Vol. 52, pp. 1364-1367.
  12. Su-Yi Liu, Ian R. Davies, “Testing drinking water with a very long path-length cell”, Nature UK Product Review, May 1997, page 9.
MicroVette™
  1. Shang-Xi Liu, James P. Fabisiak, Vladimir A. Tyurin, Grigory G. Borisenko, Bruce R. Pitt, John S. Lazo, and Valerian E. Kagan, “Reconstitution of Apo-Superoxide Dismutase by Nitric Oxide-Induced Copper Transfer from Metallothioneins”, Chemical Research in Toxicology, 2000.
Patents
  1. Apparatus and Method for measuring light absorption in small aqueous Fluid samples, 1995, US Patent No. 5,416,879.
  2. Rigid aqueous fluid core light guide and applications therefor, 1993, UK Patent 2,284,904B.
    Aqueous Fluid Core Waveguide, 1996, US Patent No. 5,507,447.
Nanoflo
  1. Frank, AE, et al. Effects of ammonia on bicarbonate transport in the cortical collecting duct" (2000) American Journal Of Physiology-Renal Physiology 278: 2
S2000spectrometer
  1. Cross, R, et al. "Cytochrome c ' from Rhodobacter capsulatus confers increased resistance to nitric oxide" (2000) Journal Of Bacteriology 182: 5
SpectroPipetter ™
  1. S.X. Liu, J.P. Fabisiak, V.A. Tyurin, G.G. Borisenko, B.R. Pitt, J.S. Lazo, V.E. Kagan, “Reconstitution of Apo-Superoxide Dismutase by Nitric Oxide-Induced Copper Transfer from Metallothioneins”, Chemical Research in Toxicology, 2000.
  2. S. Aleman, et al., “Long-term effects of antiretroviral combination therapy on HIV type 1 DNA levels” (1999) AIDS Research And Human Retroviruses 15: 14.
  3. T.M. Redmond, S. Yu, E. Lee, D. Bok, D. Hamasaki, N. Chen, P. Goletz, J.X. Ma, R.K. Crouch, K. Pfeifer, “Rpe65 is necessary for production of 11-cis-vitamin A in the retinal visual cycle”, Nature Genetics, vol. 20, (1998), 344-351.
  4. L. Martinez, R.K. Crouch, D.W. Corson, “Application of a Submicroliter Spectrophotometer in Visual Pigment Studies”, Molecular Vision 3:4, 1997.
SpectroPette
  1. Aleman, S, et al. "Long-term effects of antiretroviral combination therapy on HIV type 1 DNA levels" (1999) Aids Research And Human Retroviruses 15: 14
SpectroMate
1 "Fast, reversible optical sensing of NO2 using 5,10,15,20-tetrakis(3,4-bis[2-ethylhexyloxy]phenyl)-21H,23H-prophine assemblies", C.M. Dooling, O. Worsfold, T.H. Richardson, R. Tregonning, M.O. Vysotsky, C.A. Hunter, K. Kato, K. Shinbo and F. Kaneko, J. Mater. Chem. 11 (No 2) (2001) 392-398.

2 "Nitrogen dioxide sensing characteristics at elevated temperature of sol-gel glass thin films containing substituted porphyrin dyes", O. Worsfold, C.M. Dooling, T.H. Richardson, M.O. Vysotsky, R. Tregonning, C.A. Hunter and C. Malins, J. Mater.Chem. 11 (No 2) (2001) 399-403.

3 "Thermal characteristics of porphyrin entrapped sol-gels during exposure to toxic
gases", O. Worsfold, C.M. Dooling, T.H. Richardson, M.O. Vysotsky, R. Tregonning, C.A. Hunter and C. Mailins, Colloid and Surfaces A (Accepted Dec 2000).

4 "Taking advantage of optical and electrical properties of organic molecules for gas sensing applications", T.H. Richardson, C.M. Dooling, O. Worsfold, L.T. Jones, K. Kato, K. Shinbo, F. Kaneko, R. Treggoning, M.O. Vysotsky and C.A. Hunter, Thin Solid Films (Accepted Jan 2001, in press).

5 "Attenuated Total Reflection Properties and Gas Response of
Porphyrin LB Films" (in Japanese), Keizo Kato, Hitoshi Araki, Colin M. Dooling, Tim H. Richardson, Kazunari Shinbo and Futao Kaneko, Trans. IEE of Japan, 121-A, No. 7, July 2001.

6 " Surface Plasmon Resonance Properties and Gas Response in Porphyrin Langmuir-Blodgett Films", Colloids & Surfaces A, Keizo Kato, Colin M. Dooling, Tim H. Richardson, Kazunari
Shinbo, Tim H. Richardson, Futao Kaneko, Rose Tregonning, M. O.
Vysotsky and Chris A. Hunter (Accepted Feb 2001, in press).

7 "Gas sensing properties of porphyrin assemblies prepared by ultra-fast LB deposition", T.H. Richardson, C.M. Dooling, O. Worsfold, L.T. Jones, K. Kato, K. Shinbo, F. Kaneko, R. Tregonning, M.O. Vysotsky and C.A. Hunter, Colloid and Surfaces A (Accepted April 2001, in press).
Ultrapath
  1. N.B. Nelson, D.A. Siegel, C.A. Carlson, C. Swan, W.M. Smethie, S. Khatiwala, "Hydrography of chromophoric dissolved organic matter in the North Atlantic", Deep-Sea Research I, 54: (2007), 710-731
  2. Richard L. Miller, Mathias Belz, Carlos Del Castillo, Rick Trzaska, “Determining CDOM Absorption Spectra in Diverse Coastal Environments Using a Multiple Pathlength, Liquid Core Waveguide System”, Continental Shelf Research, July 2002, 22:9, p 1301-1310.
  3. Richard L. Miller, Mathias Belz and Su Yi Liu, “Measuring the absorption of CDOM in the field using a multiple pathlength liquid waveguide system”, Ocean Optics XV, paper 1308, Monaco, October 2000. “System Analyzes Water Samples at Sea”, NASA Aerospace Technology Innovation, 2001, 9 (5). http://nctn.hq.nasa.gov/innovation/innovation95/3-techtrans2.html
  4. R. L. Miller, C. Hall, C. Del Castillo, B. McKee and M. Dagg. “Bio-optical Properties of the Mississippi River Plume and Adjacent Shelf.” ASLO Aquatic Sciences, Albuquerque, NM, 2001.
  5. R. L. Miller, C. E. Del Castillo, R. T. Powell, E. D’Sa and B. Spiering. “Mapping CDOM concentration in waters influenced by the Mississippi River plume”, Proceedings of Oceans 2002, Biloxi, MS.
  6. R. L. Miller and E. D’Sa. “Evaluating the influence of CDOM on the remote sensing signal in the Mississippi River Bight”. In Eos Transactions AGU Ocean Sciences, 2002. Honolulu, HI, p. 171.
  7. D’Sa, E., R.L. Miller and R. Trzaska. “Aparent Optical Properties in Waters Influenced by the Mississippi River”, Proceedings of the Seventh Thematic Conference, Remote Sensing for Marine and Coastal Environments, 2002, 6 pg, Miami, FL.