Papers Published By PARISS Users

• Chemical analysis of the luminous slime secreted by the marine worm Chaetopterus (Annelida, Polychaeta) Bruce R. Branchini Curran E. Behney Tara L. Southworth Renu Rawat and Dimitri D. Deheyn; Photochemistry and Photobiology, Volume 90, Issue 1, pages 247–251, January/February 2014 • Use of colloidal quantum dots as a digitally switched swept light source for gold nanoparticle based hyperspectral microscopy; Kazunori Hoshino, Pratixa. P. Joshi, Gauri. Bhave, Konstantin V. Sokolov, and Xiaojing Zhang; 2014 | Vol. 22, No. 8 | DOI:10.1364/OE.22.001610 | OPTICS EXPRESS 1610 • Ionophore-Gold Nanoparticle Conjugates for Ag+-Selective Sensors with Nanomolar Detection Limit; Gyula Jgerszki1, Alajos Grn2, Istvn Bitter Klra Tth, and Robert E. Gyurcsnyi Chem. Commun., 2010,46, 607-609 • Charge-Carrier Transport in Thin Films of p-Conjugated Thiopheno-Azomethines Dilek Isık, Clara Santato, Satyananda Barik, W.G. Skene; Organic Electronics, 3, 3022–3031 (2012) • Hyperspectral imaging: A noninvasive in vivo method of imaging melanoma lesions in a patient being treated with a novel B-RAF inhibitor.; Khan, N.; Dicker, D.; Flaherty, KT; Lerner, J.; El-Deiry, W, (2010). J Clin Oncol. 28 (15-suppl), pp.e19019 • Controlled Assembly of Biodegradable Plasmonic Nanoclusters for Near-Infrared Imaging and Therapeutic Applications; Jasmine M. Tam,†, Justina O. Tam, Avinash Murthy, Davis R. Ingram, Li Leo Ma, Kort Travis, Keith P. Johnston, and Konstantin V. Sokolov; ACS Nano, vol. 4 ▪ No. 4 2010 • Polarization microscopy with stellated gold nanoparticles for robust, in-situ monitoring of biomolecules; Jesse Aaron1, Elder de la Rosa2†, Kort Travis3, Nathan Harrison3, Justin Burt2, Miguel Jos-Yacamn2 and Konstantin Sokolov 2008 / Vol. 16, No. 3 / OPTICS EXPRESS 2153 • Differentiation of vascular and non-vascular skin spectral signatures using in vivo hyperspectral radiometric imaging: Implications for monitoring angiogenesis; Tumeh, P.C.; Lerner, J.M; Dicker, D.T.; El-Deiry, W.S, (2007). Cancer Biology & Therapy. 6 (3), pp.447-453 • Molecular specific optoacoustic imaging with plasmonic nanoparticle; Srivalleesha Mallidi,Timothy Larson,Jesse Aaron, Konstantin Sokolov, Stanislav Emelianov; 2007 / Vol. 15, No. 11 / OPTICS EXPRESS 6583 • Hyperspectral image analysis of live cells in various cell cycle stages; Dicker, D.T.; Lerner, J.M.; El-Deiry, W.S, (2007). Cell Cycle. 6 (20), pp.712-734 •Identity Profiling of Cell Surface Markers by Multiplex Gold Nanorod Probes; Chenxu Yu, Harikrishna Nakshatri, and Joseph Irudayaraj NANO LETTERS 2007 Vol. 7, No. 8 2300- 2306 • Multispectral Imaging of Ion Transport in Neutral Carrier-Based Cation-Selective Membranes; Robert E. Gyurcsanyi1 and Erno˜ Lindner; Cytometry Part A 69A:792–804 (2006) • Differentiation of Normal Skin and Melanoma using High Resolution Hyperspectral Imaging; David T. Dicker, Jeremy Lerner Pat Van Belle, Stephen F. Barth, DuPont Guerry, 4th, Meenhard Herlyn, David E. Elder, Wafik S. El-Deiry; Cancer Biology & Therapy 5:8, 1033-1038, August 2006 • MEMBRANES IN ELECTROANALYTICAL CHEMISTRY: MEMBRANE-BASED CHEMICAL AND BIOSENSORS ; Erno Lindner, Robert E. Gyurcsanyi, Richard P. Buck; Encyclopedia of Surface and Colloid Science 2006 • Sol-gel derived materials as substrates for neuronal differentiation: effects of surface features and protein conformation, Sabrina S. Jedlicka,a Janice L. McKenzie, Silas J. Leavesley, Kenneth M. Little, Thomas J. Webster, J. Paul Robinson,bdf David E. Nivense and Jenna L. Rickus J. Mater. Chem., 2006, 16, 3221–3230 | 3221 • Increased optical contrast in imaging of epidermal growth factor receptor using magnetically actuated hybrid gold/iron oxide nanoparticles; Jesse S. Aaron1, Junghwan Oh1, Timothy A. Larson1, Sonia Kumar1, Thomas E. Milner and Konstantin V. Sokolov 2006 / Vol. 14, No. 26 / OPTICS EXPRESS 12930 • Novel approach to the use of neural networks to solve real-world analytical problems” (Invited Paper); Lerner, JM; Lu, T.; Mintzer, DT; Zhao, S, (1995). Proc. SPIE. 2386, pp.229 • Spectral Kinetics Ratiometry: A Simple Approach for Real-Time Monitoring of Fluorophore Distributions in Living Cells; V. Krishnan Ramanujan, Eva Biener-Ramanujan, Kinton Armmer, Victoria E. Centonze, and Brian A. Herman; Cytometry Part A 69A:912–919 (2006) • Detection of Real-Time Mitochondrial Caspase Activity, in Situ, in Live Cells; Yingpei Zhang, Catherine Haskins, Marisa Lopez-Cruzan, Jianhua Zhang, Victoria Centonze-Frohlich, Brian Herman, Microsc Microanal. 2004 Aug ;10:442-8 • Mechanistic Insights into the Development of Optical Chloride Sensors Based on the [9]Mercuracarborand-3 Ionophore; Alan Ceresa, Yu Qin, Shane Peper, and Eric Bakker; Anal. Chem. 2003, 75, 133-140 • Spectral Imaging and Electrochemical Study on the Response Mechanism of Ionophore-Based Polymeric Membrane Amperometric pH Sensors; Robert Long, Eric Bakker; Electroanalysis 2003, 15, No. 15-16 • Monitoring of headspace total volatile basic nitrogen from selected fish species using reflectance spectroscopic measurements of pH sensitive films; Liam Byrne, King Tong Lau and Dermot Diamond, Analyst, 2002, 127, 1338–1341 • Spectrally Resolved Fluorescence Lifetime Imaging Microscopy; QUENTIN S. HANLEY,* DONNA J. ARNDT- JOVIN, and THOMAS M. JOVIN APPLIED SPECTROSCOPY Volume 56, Number 2, 2002 • A glance into the bulk of solvent polymeric pH membranes; Erno Lindner, Robert E. Gyurcsnyi, and Bradford D. Pendley; Pure Appl. Chem., Vol. 73, No. 1, pp. 17–22, 2001. • Highly Multiplexed Optically Sectioned Spectroscopic Imaging in a Programmable Array Microscope Quentin S. Hanley and Thomas M Jovin; APPLIED SPECTROSCOPY, Volume 55, Number 9, 2001 • Spatial and Spectral Imaging of Single Micrometer-Sized Solvent Cast Fluorescent Plasticized Poly(vinyl chloride) Sensing Particles Ioannis tsagkatakis, Shane Peper, and Eric Bakker; Anal Chem. 2001 Jan 15;73(2):315-20. • Spectral Imaging in a Programmable Array Microscope by Hadamard Transform Fluorescence Spectroscopy QUENTIN S. HANLEY, PETER J. VERVEER, and THOMAS M. JOVIN; APPLIED SPECTROSCOPY, Volume 53, Number 1, 1999 • Hyperspectral imaging of pathology samples; Tsurui, H.; Lerner, J.M.; Takahashi, K.; Hirose, S.; Mitsui, K.; Okumura, K.; Shirai, T, (1999). . Proc. SPIE. 3605, pp.273-281 • Spectral topography of histopathological samples; Lerner, J.M.; Lu, T.T.; Vari, S.G, (1998); Proc. SPIE/BiOS’98 International Biomedical Optics Symposium. 3261, pp.224-231

Email: info(@)lightforminc.com Tel: +1(908) 281-9098 LightForm, Inc. 825C Merrimon Ave., Suite 351 Asheville NC 28804 USA Copyright © LightForm, Inc., 2025 | Pioneering Analytical Hyperspectral Microscopy Since 1996 PARISS ® is a registered trademark of LightForm, Inc Mailing address Contact

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Papers Published By PARISS Users • Chemical analysis of the luminous slime secreted by the marine worm Chaetopterus (Annelida, Polychaeta) Bruce R. Branchini Curran E. Behney Tara L. Southworth Renu Rawat and Dimitri D. Deheyn; Photochemistry and Photobiology, Volume 90, Issue 1, pages 247–251, January/February 2014 • Use of colloidal quantum dots as a digitally switched swept light source for gold nanoparticle based hyperspectral microscopy; Kazunori Hoshino, Pratixa. P. Joshi, Gauri. Bhave, Konstantin V. Sokolov, and Xiaojing Zhang; 2014 | Vol. 22, No. 8 | DOI:10.1364/OE.22.001610 | OPTICS EXPRESS 1610 • Ionophore-Gold Nanoparticle Conjugates for Ag+-Selective Sensors with Nanomolar Detection Limit; Gyula Jgerszki1, Alajos Grn2, Istvn Bitter Klra Tth, and Robert E. Gyurcsnyi Chem. Commun., 2010,46, 607-609 • Charge-Carrier Transport in Thin Films of p-Conjugated Thiopheno-Azomethines Dilek Isık, Clara Santato, Satyananda Barik, W.G. Skene; Organic Electronics, 3, 3022–3031 (2012) • Hyperspectral imaging: A noninvasive in vivo method of imaging melanoma lesions in a patient being treated with a novel B-RAF inhibitor.; Khan, N.; Dicker, D.; Flaherty, KT; Lerner, J.; El-Deiry, W, (2010). J Clin Oncol. 28 (15-suppl), pp.e19019 • Controlled Assembly of Biodegradable Plasmonic Nanoclusters for Near-Infrared Imaging and Therapeutic Applications; Jasmine M. Tam,†, Justina O. Tam, Avinash Murthy, Davis R. Ingram, Li Leo Ma, Kort Travis, Keith P. Johnston, and Konstantin V. Sokolov; ACS Nano, vol. 4 ▪ No. 4 2010 • Polarization microscopy with stellated gold nanoparticles for robust, in-situ monitoring of biomolecules; Jesse Aaron1, Elder de la Rosa2†, Kort Travis3, Nathan Harrison3, Justin Burt2, Miguel Jos-Yacamn2 and Konstantin Sokolov 2008 / Vol. 16, No. 3 / OPTICS EXPRESS 2153 • Differentiation of vascular and non- vascular skin spectral signatures using in vivo hyperspectral radiometric imaging: Implications for monitoring angiogenesis; Tumeh, P.C.; Lerner, J.M; Dicker, D.T.; El-Deiry, W.S, (2007). Cancer Biology & Therapy. 6 (3), pp.447-453 • Molecular specific optoacoustic imaging with plasmonic nanoparticle; Srivalleesha Mallidi,Timothy Larson,Jesse Aaron, Konstantin Sokolov, Stanislav Emelianov; 2007 / Vol. 15, No. 11 / OPTICS EXPRESS 6583 • Hyperspectral image analysis of live cells in various cell cycle stages; Dicker, D.T.; Lerner, J.M.; El-Deiry, W.S, (2007). Cell Cycle. 6 (20), pp.712-734 •Identity Profiling of Cell Surface Markers by Multiplex Gold Nanorod Probes; Chenxu Yu, Harikrishna Nakshatri, and Joseph Irudayaraj NANO LETTERS 2007 Vol. 7, No. 8 2300-2306 • Multispectral Imaging of Ion Transport in Neutral Carrier-Based Cation-Selective Membranes; Robert E. Gyurcsanyi1 and Erno˜ Lindner; Cytometry Part A 69A:792–804 (2006) • Differentiation of Normal Skin and Melanoma using High Resolution Hyperspectral Imaging; David T. Dicker, Jeremy Lerner Pat Van Belle, Stephen F. Barth, DuPont Guerry, 4th, Meenhard Herlyn, David E. Elder, Wafik S. El-Deiry; Cancer Biology & Therapy 5:8, 1033-1038, August 2006 • MEMBRANES IN ELECTROANALYTICAL CHEMISTRY: MEMBRANE-BASED CHEMICAL AND BIOSENSORS ; Erno Lindner, Robert E. Gyurcsanyi, Richard P. Buck; Encyclopedia of Surface and Colloid Science 2006 • Sol-gel derived materials as substrates for neuronal differentiation: effects of surface features and protein conformation, Sabrina S. Jedlicka,a Janice L. McKenzie, Silas J. Leavesley, Kenneth M. Little, Thomas J. Webster, J. Paul Robinson,bdf David E. Nivense and Jenna L. Rickus J. Mater. Chem., 2006, 16, 3221–3230 | 3221 • Increased optical contrast in imaging of epidermal growth factor receptor using magnetically actuated hybrid gold/iron oxide nanoparticles; Jesse S. Aaron1, Junghwan Oh1, Timothy A. Larson1, Sonia Kumar1, Thomas E. Milner and Konstantin V. Sokolov 2006 / Vol. 14, No. 26 / OPTICS EXPRESS 12930 • Novel approach to the use of neural networks to solve real-world analytical problems” (Invited Paper); Lerner, JM; Lu, T.; Mintzer, DT; Zhao, S, (1995). Proc. SPIE. 2386, pp.229 • Spectral Kinetics Ratiometry: A Simple Approach for Real-Time Monitoring of Fluorophore Distributions in Living Cells; V. Krishnan Ramanujan, Eva Biener-Ramanujan, Kinton Armmer, Victoria E. Centonze, and Brian A. Herman; Cytometry Part A 69A:912–919 (2006) • Detection of Real-Time Mitochondrial Caspase Activity, in Situ, in Live Cells; Yingpei Zhang, Catherine Haskins, Marisa Lopez- Cruzan, Jianhua Zhang, Victoria Centonze- Frohlich, Brian Herman, Microsc Microanal. 2004 Aug ;10:442-8 • Mechanistic Insights into the Development of Optical Chloride Sensors Based on the [9]Mercuracarborand-3 Ionophore; Alan Ceresa, Yu Qin, Shane Peper, and Eric Bakker; Anal. Chem. 2003, 75, 133-140 • Spectral Imaging and Electrochemical Study on the Response Mechanism of Ionophore-Based Polymeric Membrane Amperometric pH Sensors; Robert Long, Eric Bakker; Electroanalysis 2003, 15, No. 15-16 • Monitoring of headspace total volatile basic nitrogen from selected fish species using reflectance spectroscopic measurements of pH sensitive films; Liam Byrne, King Tong Lau and Dermot Diamond, Analyst, 2002, 127, 1338–1341 • Spectrally Resolved Fluorescence Lifetime Imaging Microscopy; QUENTIN S. HANLEY,* DONNA J. ARNDT-JOVIN, and THOMAS M. JOVIN APPLIED SPECTROSCOPY Volume 56, Number 2, 2002 • A glance into the bulk of solvent polymeric pH membranes; Erno Lindner, Robert E. Gyurcsnyi, and Bradford D. Pendley; Pure Appl. Chem., Vol. 73, No. 1, pp. 17–22, 2001. • Highly Multiplexed Optically Sectioned Spectroscopic Imaging in a Programmable Array Microscope Quentin S. Hanley and Thomas M Jovin; APPLIED SPECTROSCOPY, Volume 55, Number 9, 2001 • Spatial and Spectral Imaging of Single Micrometer-Sized Solvent Cast Fluorescent Plasticized Poly(vinyl chloride) Sensing Particles Ioannis tsagkatakis, Shane Peper, and Eric Bakker; Anal Chem. 2001 Jan 15;73(2):315-20. • Spectral Imaging in a Programmable Array Microscope by Hadamard Transform Fluorescence Spectroscopy QUENTIN S. HANLEY, PETER J. VERVEER, and THOMAS M. JOVIN; APPLIED SPECTROSCOPY, Volume 53, Number 1, 1999 • Hyperspectral imaging of pathology samples; Tsurui, H.; Lerner, J.M.; Takahashi, K.; Hirose, S.; Mitsui, K.; Okumura, K.; Shirai, T, (1999). . Proc. SPIE. 3605, pp.273-281 • Spectral topography of histopathological samples; Lerner, J.M.; Lu, T.T.; Vari, S.G, (1998); Proc. SPIE/BiOS’98 International Biomedical Optics Symposium. 3261, pp.224- 231

Email: info(@)lightforminc.com Tel: +1(908) 281-9098 LightForm, Inc.,825C Merrimon Ave., Ste 351Asheville NC 28804 USA Copyright © LightForm, Inc., 2025 | Pioneering Analytical Hyperspectral Microscopy Since 1996 PARISS ® is a registered trademark of LightForm, Inc Mailing address Contact