Reviews and book chapters:

16. Rizevsky, S. and Kurouski, D (2022) Tip-Enhanced Raman Imaging of Photocatalytic Processes at the Nanoscale. J. Phys. Chem. C., 126, 14781–14790.

15. Payne, W. Z. and Kurouski, D. (2021) Raman Spectroscopy enables phenotyping and assessment of nutrition values of plants. A review. Plant Methods, 17, 18.

14. Li, Z. and Kurouski, D. (2021) Plasmon-Driven Chemistry on Mono and Bimetallic Nanostructures. Acc. Chem. Res., 54, 2477–2487.

13. Li, Z. and Kurouski, D. (2021) Nanoscale structural characterization of plasmon-driven reactions. Nanophotonics, 10, 1657–1673.

12. Payne, W. Z. and Kurouski, D. (2021) Raman-based diagnostics of biotic and abiotic stresses in plants. A review. Front. Plant Sci., 11, 616672.

11. Kurouski, D. (2020) A Spectroscopic Revolution in Agricultural World. Spectroscopy, 35, 38-40.

10. Kurouski, D., Dazzi, A., Zenobi, R., Centrone, A. (2020) Infrared and Raman Chemical Imaging and Spectroscopy at the Nanoscale. Chem. Soc. Rev., 49, 3315-3347.

9. Amyloid Diseases (2019); IntechOpen; Ed. Kurouski, D.; DOI: 10.5772/intechopen.73821; ISBN: 978-1-789853827.

8. Farber, C., Mahnke, M., Sanchez, L., Kurouski, D. (2019) Advanced Spectroscopic Techniques for Plant Disease Diagnostics. A Review. Trends Analyt. Chem., 118, 43-49.

7. Kurouski, D. (2018) Tip-Enhanced Raman Spectroscopy: An Emergent Technique for Probing Biology and Electrochemistry at the Nanoscale. Spectroscopy Magazine, 33, 38–46.

6. Kurouski, D. (2017) Advances of Vibrational Circular Dichroism (VCD) in Bioanalytical Chemistry. Anal. Chim. Acta., 990, 54-66.

5. Kurouski, D., Lee, H., Roschangar, F., Senanayake, C. (2017) Surface-Enhanced Raman Spectroscopy: From Concept to Practical Application. Spectroscopy Magazine, 32, 36-44.

4. Kurouski, D. (2017) Advances of tip-enhanced Raman spectroscopy (TERS) in electrochemistry, biochemistry, and surface science. Vibr. Spectrosc., 91, 3-15.

3. Kurouski, D. (2016) Supramolecular Organization of Amyloid Fibrils. In Amyloids, ed: Escamilla, A.M.F., Intech, ISBN 978-953-51-4716-9.

2. Jiang, N., Kurouski, D., Pozzi, E.A., Chiang, M., Hersam, M.C., Van Duyne, R.P. (2016) Tip-enhanced Raman spectroscopy: From concepts to practical applications. Phys. Lett., 659, 16-24.

1. Kurouski, D., Van Duyne, R.P., Lednev, I.K. (2015): Exploring the Structure and Formation Mechanism of Amyloid Fibrils by Raman Spectroscopy: A Review. Analyst, 140, 4967-4980.

Research articles:

132. Matveyenka, M., Zhaliazka, K., Kurouski, D. (2023) Concentration of Phosphatidylserine Influence Rates of Insulin Aggregation and Toxicity of Amyloid Aggregates In Vitro. ACS Chem. Neurosci., accepted.

131. Farber, C., Shires, M., Ueckert, J. A., Ong, K., Kurouski, D. (2023) Detection and Differentiation of Herbicide Stresses in Roses by Raman Spectroscopy. Front. Plant Sci., accepted.

130. Holman, A. and Kurouski, D. (2023) The Role of Race/Ethnicity, Sex, and Age in Surface-Enhanced Raman- and Infrared Spectroscopy-Based Analysis of Artificial Colorants on Hair. ACS Omega, accepted.

129. Matveyenka M., Zhaliazka, K., Kurouski, D. (2023) Unsaturated Fatty Acids Uniquely Alter Aggregation Rate of α-Synuclein and Insulin and Modify Secondary Structure and Toxicity of Amyloid Aggregates Formed in Their Presence. FASEB J., accepted.

128. Higgins, S., Joshi, R., Juarez, I., Bennet, J. S., Aidan, H., Kolomiets, M., Kurouski, D. (2023) Non-Invasive Identification of Combined Salinity Stress and Stalk Rot Disease Caused by Colletotrichum graminicola in Maize Using Raman Spectroscopy. Sci Rep., accepted.

127. Higgins, S. and Kurouski, D. (2023) Surface-Enhanced Raman Spectroscopy is Capable of Precise Differentiation Between Re-Dyed Hair Samples. Sci. Rep., accepted.

126. Patil, S. J., Lomonosov, V., Ringe E., Kurouski, D. (2023) Tip-Enhanced Raman Imaging of Plasmon-Driven Coupling of 4-Nitrobenzenethiol on Au-Decorated Magnesium Nanostructures. J. Phys. Chem. C., accepted.

125. Rodriguez, A. and Kurouski, D. (2023) Raman Spectroscopy Enables Non-Invasive and Quantitative Assessment of Macronutrients in Baked Foods. J. Raman Spectrosc., accepted.

124. Steczkowski, M. and Kurouski, D. (2023) Elucidation of the Effect of Heat Exposure on Hair Colored by Permanent and Semi-Permanent Colorants Using Surface Enhanced Raman Spectroscopy (SERS). J. Forensic Sci., accepted.

123. Zhaliazka, K., Serada, V., Matveyenka, M., Rizevsky, S., Kurouski, D. (2023) Protein-to-Lipid Ratio Uniquely Changes the Rate of Lysozyme Aggregation but Does Not Significantly Alter Toxicity of Mature Protein Aggregates. BBA – Molecular and Cell Biology of Lipids, 1868, 159305.

122. Zhaliazka, K. and Kurouski, D. (2023) Nanoscale Imaging of Individual Amyloid Aggregates Extracted from Brains of Alzheimer- and Parkinson Patients Reveals Presence of Lipids in α-Synuclein but not in Amyloid β1-42 Fibrils. Protein Sci., 32, e4598.

121. Matveyenka, M., Rizevsky, S., Kurouski, D. (2023) Elucidation of the Effect of a Phospholipid Charge on the Rate of In-sulin Aggregation, Structure and Toxicity of Amyloid Fibrils. ACS Omega, accepted

120. Holman, A. and Kurouski, D. (2023) The Effects of Sun Exposure on Colorant Identification of Permanent and Semi-Permanently Dyed Hair. Sci. Rep., 13, 2168

119. Gautam, S., Morey, R., Rau, N., Scheuring, D. C., Kurouski, D., Vales, I. (2023) Raman Spectroscopy Detects Chemical Differences between Potato Tubers Produced under Normal and Heat stress Growing Conditions. Front. Plant Sci., 13, 922254.

118. Zhaliazka, K., Mateyenka, M., Kurouski, D. (2023) Lipids Uniquely Alter the Secondary Structure and Toxicity of Amyloid beta 1-42 Aggregates. FEBS J., accepted.

117. Rodriguez, A., Serada, V., Stover, P., Kurouski, D. (2023) Raman on Ramen: Nutritional Analysis and Brand Identification. J. Raman Spectrosc., accepted.

116. Juarez, J. and Kurouski, D. (2022) Effects of Crime Scene Contaminants on Surface-Enhanced Raman Analysis of Hair. J. Forensic. Sci. 68, 113-118.

115. Matveyenka, M., Rizevsky, S., Pellois, J.-P., Kurouski, D. (2023) Lipids Uniquely Alter Rates of Insulin Aggregation and Lower Toxicity of Amyloid Aggregates. Biochem. Biophys. Acta Mol. Cell. Biol. Lipid., 1868, 159247.

114. Higgins, S., Serada, V., Heron, B., Gadhave, K., Kurouski, D. (2022) Confirmatory Detection and Identification of Biotic and Abiotic Stresses in Wheat Using Raman Spectroscopy. Front. Plant Sci., 13, 1035522.

113. Zhaliazka, K. and Kurouski, D. (2022) Nanoscale Characterization of Parallel and Anti-parallel β-Sheet Amyloid Beta 1-42 Aggregates. ACS Chem. Neurosci., 13, 2813–2820.

112. Li, Z. and Kurouski, D., (2022) Can Light Alter the Yield of Plasmon-Driven Reactions on Gold and Gold-Palladium Nanoplates? Nano Lett., 18, 7484-7491.

111. Zhaliazka, K., Rizevsky, S., Matveyenka, M., Serada, V., Kurouski, D. (2022) Charge of Phospholipids Determines the Rate of Lysozyme Aggregation but Not the Structure and Toxicity of Amyloid Aggregates. J. Phys. Chem. Lett., 13, 8833-8839.

110. Goff, N. K., Dou, T., Higgins, S., Horn, L., Morey, R., McClellan, K., Kurouski, D., Rogovsky, A. (2022) Testing Raman spectroscopy as a diagnostic approach for Lyme disease patients. Front. Cell. Infect. Microbiol., 12, 1006134.

109. Dou, T., Zens, C., Schröder, K., Jiang, Y., Makarov, A. A., Kupfer, S., Kurouski, D. (2022) Solid-to-Liposome Conformational Transition of Phosphatidylcholine and Phosphatidylserine Probed by Atomic Force Microscopy Infrared Spectroscopy and Density Functional Theory Calculations. Anal. Chem., 94, 13243-13249.

108. Matveyenka, M., Zhaliazka, K., Rizevsky, S., Kurouski, D. (2022) Lipids Uniquely Alter Secondary Structure and Toxicity of Lysozyme Aggregates. FASEB J., 36, e22543.

107. Goff, N., Guenther, J. F., Roberts, J. III, Adler, M., Dalle Molle, M., Mathews, G., Kurouski, D. (2022) Non-Invasive and Confirmatory Differentiation of Hermaphrodite from Both Male and Female Cannabis Plants Using a Hand-Held Raman Spectrometer. Molecules, 27, 4978.

106. Matveyenka, M., Rizevsky, S., Kurouski, D. (2022) Length and Unsaturation of Fatty Acids of Phosphatidic Acid Determines Aggregation Rate of Insulin and Modifies Structure and Toxicity of Insulin Aggregates. ACS Chem. Neurosci., 12, 2483–2489. 

105. Dou, T. and Kurouski, D. (2022) Phosphatidylcholine and Phosphatidylserine Uniquely Modify the Secondary Structure of Alpha-Synuclein Oligomers Formed in Their Presence at the Early Stages of Protein Aggregation. ACS Chem. Neurosci., 13, 2380–2385.

104. Rigor, J., Kurouski, D., Large, N. (2022) Plasmonic Heating Effects in Tip-Enhanced Raman Spectroscopy (TERS). J. Phys. Chem. C., 126,  13986–13993.

103. Higgins, S. and Kurouski, D. (2022) Surface-Enhanced Raman Spectroscopy Enables Highly Accurate Identification of Different Brands, Types and Colors of Hair Dyes. Talanta, 251, 123762.

102. Matveyenka, M., Rizevsky, S., Kurouski, D., (2022) Amyloid Aggregates Exert Cell Toxicity Causing Irreversible Damages in Endoplasmic Reticulum. Biochem. Biophys. Acta Mol. Basis Dis., 1868, 166485.

101. Wang, R., He, Z., Kurouski, D. (2022) Near-Field and Photocatalytic Properties of Mono- and Bimetallic Nanostructures Monitored by Nanocavity Surface-Enhanced Raman Scattering. Nano Res., accepted.

100. Rizevsky, S., Zhaliazka, K., Matveyenka, M., Quinn, K., Kurouski, D. (2022) Lipids Reverse Supramolecular Chirality and Reduce Toxicity of Amyloid Fibrils. FEBS J., 289, 7537-7544.

99. Parlamas, S., Goetze, P., Humpal, D., Kurouski, D., Jo, Y.-K. (2022) Raman Spectroscopy Enables Confirmatory Diagnostics of Fusarium Wilt in Asymptomatic Banana. Front. Plant Sci., 13, 922254.

98. Matveyenka, M., Rizevsky, S., Kurouski, D. (2022) Unsaturation in Fatty Acids of Phospholipids Drastically Alters the Structure and Toxicity of Insulin Aggregates Grown in Their Presence. J. Phys. Chem. Lett., 13, 4563-4569.

97. Dhanani, T., Dou, T., Biradar, K., Jifon, J., Kurouski, D., Patil, B. (2022) Raman spectroscopy detects changes in carotenoids on the surface of watermelon fruits during maturation. Front. Plant Sci., 13, 832522.

96. Matveyenka, M., Rizevsky, S., Kurouski, D. (2022) The Degree of Unsaturation of Fatty Acids in Phosphatidylserine Alters the Rate of Insulin Aggregation and the Structure and Toxicity of Amyloid Aggregates. FEBS Lett., 596, 1424-1433..

95. Farber, C., Kurouski, D. (2022) Raman spectroscopy and machine learning for agricultural applications: Chemometric Assessment of Spectroscopic Signatures of Plants as The Essential Step Towards Digital Farming. Front. Plant Sci., 13, 887511.

94. Higgins, S., Biswas, S., Goff, N.K., Endang, S., Kurouski, D. (2022) Raman Spectroscopy Enables Non-Invasive and Confirmatory Diagnostics of Aluminum and Iron Toxicities in Rice. Front. Plant Sci., 13, 754735.

93. Higgins, S., Jessup, R., Kurouski, D. (2022) Raman Spectroscopy Enables Highly Accurate Differentiation Between Young Male and Female Hemp Plants. Planta, 255, 85.

92. Rizevsky, S., Matveyenka, M., Kurouski, D. (2022) Nanoscale Structural Analysis of a Lipid-Driven Aggregation of Insulin. J. Phys. Chem. Lett., 13, 2467-2473.

91. Wang, C.-F., O’Callahan, B., Arey, B., Kurouski, D., El-Khoury, P. (2022) High-Resolution Raman Nano-Imaging with an Imperfect Probe. J. Phys. Chem. C., 126, 4089-4094.

90. Rizevsky, S., Zhaliazka, K., Dou, T., Matveyenka, M., Kurouski, D. (2022) Characterization of Substrates and Surface-Enhancement in Atomic Force Microscopy Infrared (AFM-IR) Analysis of Amyloid Aggregates. J. Phys. Chem. C, 126, 4157-4162.

89. Dou, T., Ermolenkov, A., Hays, S.R., Rich, B.T., Donaldson, T.G., Thomas, T., Teel, P.D., Kurouski, D. (2022) Raman-Based Identification of Tick Species (Ixodidae) by Spectroscopic Analysis of Their Feces. Spectrochim. Acta A., 271, 120966.

88. Ptak, S., Sanchez, L., Frette, X., Kurouski, D. (2021) Complementarity of Raman and Infrared Spectroscopy for Rapid Characterization of Fucoidan Extracts. Plant Methods, 17, 130.

87. Payne, W.Z., Dou, T., Cason, J.M, Simpson, C.E., McCutchen, B., Burow, M.D. Kurouski, D. (2021) Non-Invasive Identification of Peanut Genotypes and Nematode Resistance Using Raman Spectroscopy. Front. Plant Sci., 12, 664243.

86. Li, Z. and Kurouski, D. (2021) Tip-Enhanced Raman Analysis of Plasmonic and Photocatalytic Properties of Copper Nanomaterials. J. Phys. Chem. Lett., 12, 8335−8340.

85. Farber, C., Bennet, J.S., Dou, T., Abugalyon, Y., Humpal, D., Toomey, K., Kolomiets, M.V., Kurouski, D. (2021) Raman-Based Diagnostics of Stalk Rot Disease of Maize Caused by Colletotrichum graminicola. Front. Plant Sci., 12, 722898.

84. Morey, R., Farber, C., McCutchen, B., Burow, M.D., Simpson, C., Kurouski, D., Cason, J. (2021) Raman Spectroscopy-Based Diagnostics of Water Deficit and Salinity Stresses in Two Accessions of Peanuts. Plant Direct, 5, e342.

83. Li, Z., Kurouski, D. (2021) Probing the Redox Selectivity on Au@Pd and Au@Pt Bimetallic Nanoplates by Tip-Enhanced Raman Spectroscopy (TERS). ACS Photonics, 8, 2112-2119.

82. Li, L., Kurouski, D. (2021) Probing the Plasmon-Driven Suzuki-Miyaura Coupling Reactions with Cargo-TERS towards Tailored Catalyzation. Nanoscale, 13, 11793-11799.

81. Dou, T., Sanchez, L., Irigoyen, S., Niraula, P., Mandadi, K., Kurouski, D. (2021) Biochemical Origin of Raman-Based Diagnostics of Huanglongbing in Grapefruit Trees. Front. Plant Sci., 12, 680991.

80. Farber, C., Islam, A.S.M.F., Septiningsih, E.M., Thomson, M.J., Kurouski, D. (2021) Non-Invasive Identification of Nutrient Components in Grain. Molecules, 26, 3124

79. Dou, T., Zhou, L., Kurouski, D. (2021) Unravelling Structural Organization of Individual α-Synuclein Oligomers Grown in the Presence of Phospholipids. J. Phys. Chem. Lett., 12, 4407-4414.

78. Singh, V., Dou, T., Krimmer, M., Singh, S., Humpal, D., Payne, W.Z., Sanchez, L., Voronine, D., Prosvirin, A., Scully, M., Kurouski, D., Bagavathiannan, M. (2021) Raman spectroscopy can distinguish glyphosate-susceptible and -resistant Palmer amaranth (Amaranthus palmeri). Front. Plant Sci., 12, 657963.

77. Farber, C., Sanchez, L., Pant, S., Scheuring, D., Vales, I., Mandadi, K., Kurouski, D. (2021) Potential of Spatially Offset Raman Spectroscopy for Detection of Zebra Chip Disease and Potato Virus Y of Potatoes (Solanum tuberosum). ACS Agricult. Sci. Technol., 1, 211-221.

76. Farber, C., Morey, R., Krimmer, M., Kurouski, D., Rogovsky, A. (2021) Exploring a possibility of using Raman spectroscopy for detection of Lyme disease. Biophoton. J., 14, e202000477.

75. Li, Z., Rigor, J., Large, N., El-Khoury, P., Kurouski D. (2021) Underlying Mechanisms of Hot Carrier-Driven Reactivity on Bimetallic Nanostructures. J. Phys. Chem C., 125, 2492-2501.

74. Li, Z., El-Khoury, P., Kurouski D. (2021) Tip-Enhanced Raman Imaging of Photocatalytic Reactions on Thermally-Reshaped Gold and Gold-Palladium Microplates. Chem. Commun. 57, 891-894.

73. Sanchez, L., Ermolenkov, A., Biswas, S., Septiningsih, E. M., Kurouski, D. (2020) Raman Spectroscopy Enables Non-Invasive and Confirmatory Diagnostics of Salinity Stresses, Nitrogen, Phosphorus, and Potassium Deficiencies in Rice. Front. Plant Sci., 11, 573321

72. Farber, C., Bryan, R., Paetzold, L., Rush, C., Kurouski, D. (2020) Non-invasive Characterization of Single-, Double- and Triple-Viral Diseases of Wheat with a Hand-held Raman Spectrometer. Front. Plant Sci., 11, 01300.

71. Baide, A., Farber, C., Krimmer, M., Wescott, D., Kurouski, D. (2020) Non-Invasive Post-Mortem Interval Diagnostics Using a Hand-Held Raman Spectrometer. Forensic Chem., 20, 1002702. 

70. Lee, K.M., Yarbrough, D., Kozman, M.M., Herrman, T.J., Park, J., Wang, R., Kurouski, D. (2020) A rapid and convenient screening method for detection of restricted monensin, decoquinate, and lasalocid in animal feed by applying SERS and chemometrics. Food Chem. Toxicol.,144, 1116332.

69. Dou, T., Li, Z., Zhang, J., Evilevich, A., Kurouski, D. (2020) Nanoscale Structural Characterization of Individual Viral Particles Using Atomic Force Microscope Infrared (AFM-IR) and Tip-Enhanced Raman Spectroscopy (TERS). Anal. Chem., 92, 11297–11304.

68. Wang, C.-F., O’Callahan, B., Kurouski, D., Krayev, A., El-Khoury, P. (2020) Suppressing Molecular Charging, Nano-Chemistry, and Optical Rectification in the Tip-Enhanced Raman Geometry. J. Phys. Chem. Lett., 11, 5890−5895.

67. Li, Z., Wang, R., Kurouski, D. (2020) Nanoscale Photocatalytic Activity of Gold and Gold-Palladium Nanostructures Revealed by Tip-Enhanced Raman Spectroscopy. J. Phys. Chem. Lett., 11, 5531−5537.

66. Contreras, F., Ermolenkov, A., Kurouski, D. (2020) Infrared Analysis of Hair Dyeing and Bleaching History. Anal. Method., 12, 3741-3747.

65. Sanchez, L., Pant, S., Mandadi, K., Kurouski, D. (2020) Raman Spectroscopy vs Quantitative Polymerase Chain Reaction In Early Stage Huanglongbing Diagnostics. Nature Sci. Rep. 10, 10101.

64. Wang, R., Mangion, I., Makarov, A.A., Kurouski, D. (2020) Use of Raman Spectroscopy and Size-exclusion Chromatography Coupled with HDX-MS Spectroscopy for Studying Conformational Changes of Small Proteins in Solution. J. Pharm. Biomed. Anal., 189, 113399.

63. Farber, C., Sanchez, L., Kurouski, D. (2020) Confirmatory Non-Invasive and Non-Destructive Identification of Poison Ivy Using A Hand-Held Raman Spectrometer. RSC Advances, 10, 21530 – 21534.

62. Li, Z., Kurouski, D. (2020) Elucidation of Photo-Catalytic Properties of Goldplatinum Bimetallic Nanoplates Using Tip-Enhanced Raman Spectroscopy. J. Phys. Chem C., 124, 12850–12854.

61. Sanchez, L., Baltensperger, D. and Kurouski, D. (2020) Raman-Based Differentiation of Hemp, Canabdiol-Rich Hemp and Cannabis. Anal. Chem., 92, 7733–7737.

60. Morey, R., Ermolenkov, A., Payne, W. Z., Scheuring, D.C., Koym, J.W., Vales, M.I., Kurouski, D. (2020) Non-Invasive Identification of Potato Varieties and Prediction of the Origin of Tuber Cultivation Using Spatially Offset Raman Spectroscopy. Anal. Bioanal. Chem., 412, 4585–4594.

59. Zhou, L., Kurouski, D. (2020) Structural Characterization of Individual α-Synuclein Oligomers Formed at Different Stages of Protein Aggregation by Atomic Force Microscope Infrared Spectroscopy. Anal. Chem., 92, 6806–6810.

58. Wang, C.-F., O’Callahan, B., Kurouski, D., Krayev, A., El-Khoury, P. (2020) The Prevalence of Anions at Plasmonic Nanojunctions: A Closer Look at P-Nitrothiophenol. J. Phys. Chem. Lett., 11, 3809−3814.

57. Wang, R., He, Z., Sokolov, A., Kurouski, D. (2020) Gap-Mode Tip-Enhanced Raman Scattering on Au Nanoplates of Varied Thickness. J. Phys. Chem. Lett., 11, 3815−3820 .

56. Farber, C., Sanchez, L., Rizevsky, S., Ermolenkov, A., McCutchen, B., Cason, J., Simpson, C., Burow, M., Kurouski, D. (2020) Raman Spectroscopy Enables Non-Invasive Identification of Peanut Genotypes and Value-Added Traits. Nature Sci. Rep., 10, 7730.

55. Lee, K.-M., Yarbrough, D., Medhat Kozman, M., Herrman, T. J., Park, J., Wang, R., Kurouski, D. (2020) Rapid detection and prediction of chlortetracycline and oxytetracycline in animal feed using surface-enhanced Raman spectroscopy (SERS). Food Contr., 114, 1072439.

54. Sanchez, L., Ermolenkov, A., Tang, X.-T., Tamborindeguy, C., Kurouski, D. (2020) Non-invasive diagnostics of Liberibacter disease on tomatoes using a hand-held Raman spectrometer. Planta, 251, 64.

53. Wang, R., Li, J., Rigor, J., Large, N., El-Khoury, P., Rogachev, A. Yu, Kurouski, D. (2020) Direct Experimental Evidence of Hot-Carrier-Driven Chemical Processes in Tip-Enhanced Raman Spectroscopy (TERS). J. Phys. Chem. C., 124, 2238-2244.

52. Sanchez, L., Filter, C., Baltensperger, D. and Kurouski, D. (2020) Confirmatory Non-Invasive and Non-Destructive Differentiation Between Hemp and Cannabis Using A Hand-Held Raman Spectrometer. RSC Advances, 10, 3212 – 3216.

51. Wang, R. and Kurouski, D. (2019) Thermal Reshaping of Gold Microplates: Three Possible Routes and Their Transformation Mechanisms. ACS Materials & Interfaces, 11, 41813-41820.

50. Krimmer, M., Farber, C., Kurouski, D. (2019) Rapid and Non-Invasive Typing and Assessment of Nutrient Content of Maize Kernels Using A Hand-Held Raman Spectrometer. ACS Omega, 4, 16330-16335.

49. Sanchez, L., Pant, S., Irey, M., Mandadi, K., Kurouski, D. (2019) Detection and Identification of Canker and Blight on Orange Trees Using a Hand-Held Raman Spectrometer. J. Raman Spectrosc., 50, 1875-1880.

48. Rizevsky, S., Kurouski, D. (2019) Nanoscale Structural Organization of Insulin Fibril Polymorphs Revealed By Atomic Force Microscope Infrared Spectroscopy (AFM-IR). ChemBioChem, 20, 1-6.

47. Farber, C., Shires, M., Ong, K., Byrne, D., Kurouski, D. (2019) Raman spectroscopy as an early detection tool for rose rosette infection. Planta, 250, 1247–1254.

46. Esparza, I., Wang, R., Kurouski, D. (2019) Surface-Enhanced Raman Analysis of Underlaying Colorants On Re-Dyed Hair. Anal. Chem., 91, 7313-7318.

45. Sanchez, L., Pant, S., Xing, Z., Mandadi, K., Kurouski, D. (2019) Rapid and Non-invasive Diagnostics of Huanglongbing and Nutrient Deficits on Citrus Trees with a Hand-Held Raman Spectrometer. Anal. Bioanal. Chem., 411, 3125–3133.

44. Farber, C., Li, J., Hager, E., Chemelewski, R., Mullet, J., Rogachev, A., Kurouski, D. (2019) Complementarity of Raman and Infrared Spectroscopy for Structural Characterization of Plant Epicuticular Waxes. ACS Omega, 4, 3700-3707.

43. Farber, C., Wang, R., Chemelewski, R., Mullet, J., Kurouski, D. (2019) Nanoscale Structural Organization of Plant Epicuticular Wax Probed by Atomic Force Microscope Infrared Spectroscopy Anal. Chem., 91, 2472–2479.

42. Sanchez, L., Farber, C., Lei, J., Zhu-Salzman, K., Kurouski, D. (2019) Non-Invasive and Non-Destructive Detection of Cowpea Bruchid Within Cowpea Seeds with a Hand-Held Raman Spectrometer Anal. Chem., 91, 1733–1737.

41. Wang, R., Kurouski, D. (2018) Elucidation of Tip-Broadening Effect in Tip-Enhanced Raman Spectroscopy (TERS): A Cause of Artifacts or Potential for 3D TERS J. Phys. Chem. C, 122, 24334–24340.

40. Egging, V., Nguyen, V., Kurouski, D. (2018) Detection and Identification of Fungal Infections in Intact Wheat and Sorghum Grain Using a Hand-Held Raman Spectrometer Anal. Chem.,  90, 8616-8621.

39. Hager, E., Farber, C., Kurouski, D. (2018) Forensic Identification of Urine on Cotton and Polyester Fabric with a Hand-held Raman Spectrometer Forensic Chem., 9, 44-49.

38. Farber, C. and Kurouski, D. (2018) Detection and Identification of Plant Pathogens on Maize Kernels with a Handheld Raman Spectrometer Anal. Chem., 90, 3009-3012.

---

Prior to Texas A&M

37. Qu, B., Mangunuru, H.P.R., Tcyrulnikov, S., Rivalti, D., Zatolochnaya, O., Kurouski, D., Radomkit, S., Biswas, S., Karyakarte, S., Fandrick, K.R., Sieber, J.D., Rodriguez, S., Desrosiers, N.-J., Haddad, N., Grinberg, N., Yee, N.K., Song, J.J., Kozlowski, M.C., Senanayake, C.H. (2018) Enantioselective Synthesis of α-(Hetero)aryl Piperidines through Asymmetric Hydrogenation of Pyridinium Salts and Its Mechanistic Insights. J. Org. Chem. 20, 1333-1337.

36. Sieber, J.D., Rodriguez, S., Frutos, R., Buono, F., Zhang, Y., Li, N., Qu, B., Premasiri, A., Li, Z., Han, Z., Xu, Y., Bryne, D., Haddad, N., Lorenz, J., Grinberg, N., Kurouski, D., Lee, H., Narayanan, B., Nummy, L., Mulder, J., Brown, J., Granger, A., Krawiec, M., Williams, Z., Pennino, S., Song, J., Hossain, A., Yee, N., Brusacca, C., Roschangar, F., Xin, Y., Mao, Z., Zhang, X., Hong, Y., Senanayake, C.H. (2018) Development of a Scalable, Chromatography-Free Synthesis of t-Bu-SMS-Phos and Application to the Synthesis of an Important Chiral CF3-Alcohol Derivative in High Enantioselectivity Using Rh-Catalyzed Asymmetric Hydrogenation. J. Org. Chem., 83, 1448-1461.

35. Kurouski, D., Large, N., Chiang, N., Henry, A. -I., Seideman, T., Schatz, G.C., Van Duyne, R.P. (2017) Unraveling Near- and Far-Field Relationship of 2D SERS Substrates Using Wavelength-Scanned Surface-Enhanced Raman Excitation Spectroscopy (WS-SERES). J. Phys. Chem. C, 121, 14737–14744.

34. Desrosiers, J.N., Wen, J., Tcyrulnikov, S., Biswas, S., Qu, B., Hie, L., Kurouski, D., Wu, L., Grinberg, N., Haddad, N., Busacca, C.A., Yee, N.K., Song, J.J., Garg, N.K., Zhang, X., Kozlowski, M.C., Senanayake, C.H. (2017) Enantioselective Nickel-Catalyzed Mizoroki-Heck Cyclizations To Generate Quaternary Stereocenters. Org. Lett., 19, 3338-3341.

33. Li, S.-G., Han, Z.S., Viereck, P., Kurouski, D., Senanayake, C.H., Tsantrizos, Y.S. (2017) Metal-Free Cycloetherification by in Situ Generated P-Stereogenic α-Diazanium Intermediates: A Convergent Synthesis of Enantiomerically Pure Dihydrobenzooxaphospholes. Org. Lett., 19, 894-897.

32. Qu, B., Mangunuru, H.P.R., Wei, H., Fandrick, K.R., Desrosiers, N.-J., Sieber, J.D., Kurouski, D., Haddad, N., Samankumara, L.P., Lee, H., Savoie, J., Ma, S., Grinberg, N., Sarvestani, M., Yee, N.K., Song, J.J., Senanayake, C.H. (2016) Synthesis of Enantioenriched 2-Alkyl Piperidine Derivatives through Asymmetric Reduction of Pyridinium Salts. Org. Lett., 18, 4920-4923.

31. Haddad, N., Mangunuru, H.P.R., Fandrick, K.R., Qu, B., Sieber, J.D., Rodriguez, S., Desrosiers, N.-J., Patel, N. D., Lee, H., Kurouski, D., Grinberg, N., Yee, N.K., Song, J.J., Senanayake, C.H. (2016) Reengineered BI-DIME Ligand Core Based on Computer Modeling to Increase Selectivity in Asymmetric Suzuki–Miyaura Coupling for the Challenging Axially Chiral HIV Integrase Inhibitor. Synth. Catal., 358, 3522-3527.

30. Sieber, J.D., Angeles-Dunham, V.V.,  Chennamadhavuni, D.,  Fandrick, D.R.,  Haddad, N.,  Grinberg, N.,  Kurouski, D.,  Lee, H.,  Song, J.J.,  Yee, N.K.,  Mattson, A.E.,  Senanayake, C.H. (2016) Rhodium-Catalyzed Asymmetric Allenylation of Sulfonylimines and Application to the Stereospecific Allylic Allenylation. Synth. Catal., 358, 3062-3068.

29. Deckert-Gaudig, T., Kurouski, D., Hedegaard, M., Singh, P., Lednev, I.K., Deckert, V. (2016): Spatially resolved spectroscopic differentiation of hydrophilic and hydrophobic domains on individual insulin amyloid fibrils. Sci. Rep., 6, 33575.

28. Breydo, L., Kurouski, D., Rasool, S., Milton, S., Wu, J.W., Uversky, V.N., Lednev, I.K., Glabe, C.G. (2016) Structural differences between amyloid beta oligomers. Biophys. Res. Commun., 477, 700-705.

27. Henry, A.-I., Sharma, B., Cardinal, M.F., Kurouski, D., Van Duyne, R.P. (2016) Surface-enhanced Raman spectroscopy biosensing: In vivo diagnostics and multimodal imaging. Anal. Chem., 88, 6638–6647.

26. Kurouski, D., Chiang, N. Large, N. Greeneltch, K. T. Carron, T. Seideman, G. C. Schatz, Van Duyne, R.P. (2016): Unraveling Near-Field and Far-Field Relationships for 3D SERS Substrates – A Combined Experimental and Theoretical Analysis. Analyst, 141, 1779 – 1788.

25. Kurouski, D., Mattei, M., Van Duyne, R.P. (2015): Probing Redox Reactions at the Nanoscale with Electrochemical Tip-Enhanced Raman Spectroscopy. Nano Lett., 15, 7956-7962.

24. Shanmugasundaram, M., Kurouski, D., Wan, W., Stubbs, G., Dukor, R.K., Nafie, L.A., Lednev, I.K. (2015): Rapid filament supramolecular chirality reversal of HET-s (218-289) prion fibrils driven by pH elevation. J. Phys. Chem. B, 119, 8521–8525.

23. Kurouski, D., Van Duyne, R.P. (2015): In situ detection and identification of hair dyes using surface-enhanced Raman spectroscopy (SERS). Anal. Chem., 87, 2901-2906 (highlighted by Science, ACS News, Phys.Org, The Analytical Scientist and USA Today).

22. Rosario-Alomar, M.F., Quiñones-Ruiz, T., Kurouski, D., Sereda, V., Ferreira, E.B., Jesús-Kim, L.D., Hernández-Rivera, S., Zagorevski, D.V., López-Garriga, J., Lednev, I.K. (2015): Hydrogen sulfide inhibits amyloid formation. J. Phys. Chem. B, 119, 1265-1274.

21. Kurouski, D., Handen, J.D., Dukor, R.K., Nafie, L.A., Lednev, I.K. (2015): Supramolecular chirality in peptide microcrystals. Chem.Commun., 51, 89-92.

20. Kurouski, D., Zaleski, S., Casadio, F., Van Duyne, R.P., Shah, N.C. (2014): Tip-enhanced Raman spectroscopy (TERS) for in situ identification of indigo and iron gall ink on paper. Am. Chem. Soc., 136, 8677-8684 (made C&EN news article).

19. Kurouski, D., Lu, X., Popova, L., Wan, W., Shanmugasundaram, M., Stubbs, G., Dukor, R.K., Lednev, I.K., Nafie, L.A. (2014): Is supramolecular filament chirality the underlying cause of major morphology differences in amyloid fibrils? J. Am. Chem. Soc., 136, 2302-2312.

18. Kurouski, D., Deckert-Gaudig, T., Deckert, V., Lednev, I.K. (2014): Surface characterization of insulin protofilaments and fibril polymorphs using tip-enhanced Raman spectroscopy (TERS). Biophys.J., 106, 263-271 (made a journal cover).

17. Kurouski, D., Sorci, M., Postiglione, T., Belfort, G., Lednev, I.K. (2014): Detection and structural characterization of insulin prefibrilar oligomers using surface enhanced Raman spectroscopy. Biotechnol.Prog., 30, 488-495.

16. Kurouski, D., Luo, H., Sereda, V., Robb, F.T., Lednev, I.K. (2013): Deconstruction of stable cross-beta fibrillar structures into toxic and nontoxic products using a mutated archaeal chaperonin. ACS Chem. Biol., 8, 2095-2101.

15. Bhat, V., Olenick, M.B., Schuchardt, B.J., Mikles, D.C., Deegan, B.J., McDonald, C.B., Seldeen, K.L., Kurouski, D., Faridi, M.H., Shareef, M.M., Gupta, V., Lednev, I.K., Farooq, A. (2013): Heat-induced fibrillation of BclXL apoptotic repressor. Biophys. Chem., 179, 12-25.

14. Kurouski, D., Kar, K., Wetzel, R., Dukor, R.K., Lednev, I.K., Nafie, L.A. (2013): Levels of supramolecular chirality of polyglutamine aggregates revealed by vibrational circular dichroism. FEBS Lett., 587, 1638-1643.

13. McDonald, C.B., Bhat, V., Kurouski, D., Mikles, D.C., Deegan, B.J., Seldeen, K.L., Lednev, I.K., Farooq, A. (2013): Structural landscape of the proline-rich domain of Sos1 nucleotide exchange factor. Biophys.Chem., 175-176, 54-62.

12. Kurouski, D., Postiglione, T., Deckert-Gaudig, T., Deckert, V., Lednev, I.K. (2013): Amide I vibrational mode suppression in surface (SERS) and tip (TERS) enhanced Raman spectra of protein specimens. Analyst, 138, 1665-1673 (made a journal cover).

11. Srinivasan, S., Patke, S., Wang ,Y., Ye, Z., Litt, J., Srivastava, S.K., Lopez, M.M., Kurouski, D., Lednev, I.K., Kane, R.S., Colón, W. (2013): Pathogenic serum amyloid A1 shows a long oligomer-rich fibrillation lag phase contrary to the highly amyloidogenic non-pathogenic SAA2.2. J. Biol. Chem., 288, 2744-2755.

10. Bhat, V., Kurouski, D., Olenick, M.B., McDonald, C.B., Mikles, D.C., Deegan, B.J., Seldeen, K.L., Lednev, I.K., Farooq, A. (2012): Acidic pH promotes oligomerization and membrane insertion of the BclXL apoptotic repressor. Biochem. Biophys., 528, 32-44.

9. Kurouski, D., Dukor, R.K., Lu, X., Nafie, L.A., Lednev, I.K. (2012): Normal and reversed supramolecular chirality of insulin fibrils probed by vibrational circular dichroism at the protofilament level of fibril structure. Biophys.J., 103, 522-531.

8. Kurouski, D., Deckert-Gaudig, T., Deckert, V., Lednev, I.K. (2012): Structure and composition of insulin fibril surfaces probed by TERS. J. Am. Chem. Soc., 134, 13323-13329.

7. Kurouski, D., Washington, J., Ozbil, M., Prabhakar, R., Shekhtman, A., Lednev, I.K. (2012): Disulfide bridges remain intact while native insulin converts into amyloid fibrils. PLoS One, 7, e36989.

6. Kurouski, D., Luo, H., Sereda, V., Robb, F.T., Lednev, I.K. (2012): Rapid degradation kinetics of amyloid fibrils under mild conditions by an archaeal chaperonin. Biochem. Biophys. Res. Commun., 422, 97-102.

5. Kurouski, D., Dukor, R.K., Lu, X., Nafie, L.A., Lednev, I.K. (2012): Spontaneous inter-conversion of insulin fibril chirality. Chem. Commun., 48, 2837-2839 (made a journal cover).

4. Heldt, C.L., Kurouski, D, Sorci, M., Grafeld, E., Lednev, I.K., Belfort, G. (2011): Isolating toxic insulin amyloid reactive species that lack β-sheets and have wide pH stability. Biophys. J., 100, 2792-2800.

3. Kurouski, D., Lednev, I.K. (2011): The impact of protein disulfide bonds on the amyloid fibril morphology. Int. J. Biomed. Nanosci. Nanotech., 2, 167-176.

2. Kurouski, D., Lombardi, R.A., Dukor, R.K., Lednev, I.K., Nafie, L.A. (2010) Direct observation and pH control of reversed supramolecular chirality in insulin fibrils by vibrational circular dichroism. Chem.Commun. 46, 7154-7156.

1. Kurouski, D., Lauro, W., Lednev, I.K. (2010): Amyloid fibrils are “alive”: spontaneous refolding from one polymorph to another. Chem. Commun., 46, 4249-4251 (made a journal cover).