Journal Publications (Cited ~ 6000 times; h-index: 38)

2022

  1. “Digital Plasmonic Fluoroimmunoassay for Sub-femtomolar Detection of Protein Biomarkers, with Application to SARS-CoV-2 Variants” Seth, A.; Gupta, R.; Wang, Z.; Mittal, E.; Kolla, S.; King, M.; Rathi, P.; Schmitz, A.; Long, P.; Pappu, R.; Vahey, M.; Ellebedy, A.; Fremont, D.; Parikh, B. A.; Genin, G. M.; Gandra, S.; Storch, G. A.; Philips, J. A.; George, I. A.*; Singamaneni, S.* (Submitted)
  2. “Plasmon-enhanced Quantitative Lateral Flow Assay for Femtomolar Detection of SARS-CoV-2 Antibodies and Antigens” Gupta, R.;, Gupta, P.; Wang, Z.; Seth, A.; Morrissey, J. J.; George, I.; Gandra, S.; Storch, G. A.; Parikh, B. A.; Genin, G. M.; Singamaneni, S.* (Submitted)
  3. “High-Resolution Imaging of Protein Secretion at Single-Cell Level using Plasmon-enhanced Fluoro-dots” Seth, A.; Mittal, E.; Luan, J.; Kolla, S.; Joshi, H.; Gupta, R.; Rathi, P.; Wang, Z.; Morrissey, J.; Ernst, J.D.; Portal-Celhay, C.; Morley, S.C.; Philips, J.A.*; Singamaneni, S.* (Submitted)
  4. “Ionic Surface Propensity Controls pH in Nanopores” Zhu, ;  Derami, H. G.; Gupta, P.; Gupta, R.; Singamaneni, S.*; Jun, Y.-S.* (Submitted)
  5. “Accelerated Digital Biodetection Using Magneto-plasmonic Nanoparticle-Coupled Photonic Resonator Absorption Microscopy” Che, C.; Xue, R.; Li, N.; Gupta, P.; Wang, X.; Zhao, B.; Singamaneni, S.; Nie, S.; Cunningham, B. T.* ACS Nano 2022 (In Press, DOI: 10.1021/acsnano.1c08569)
  6. “L-plastin is required for NLRP3 inflammasome assembly and bleomycin-induced lung fibrosis” Joshi, H.; Almgren-Bell, A.; Anaya, E.; Todd, E. M.; Seth, A.; Van Dyken, S.; Singamaneni, S.; Sutterwala, F.; Morley, S. C.* Cell Rep. 2022 (In Press).
  7. “Plasmonically-enhanced competitive assay for ultrasensitive and multiplexed detection of small molecules” Wang, Z. Zhou, Q.; Seth, A.; Kolla, S.; Luan, J.; Jiang, Q.; Rathi, P.; Gupta, P.; Morrissey, J. J.; Naik, R. R.*; Singamaneni, S.* Biosens. Bioelectron. 2022, 200, 113918.
  8. “In Situ Grown Gold Nanoisland-Based Chemiresistive Electronic Nose for Sniffing Distinct Odor Fingerprints” Gupta, P. Gholami Derami, H.; Mehta,D.; Yilmaz, H.; Chakrabartty, S.; Raman, B.*; Singamaneni, S.* ACS Appl. Mater. Interfaces 2022, 14, 3207-3217
  9. “Plasmonically-enhanced ultrasensitive epitope specific serologic assay for COVID-19” Wang, Z.; Morrissey, J.; Liu, L.; Wang, Y.; Zhou, Q.; Naik, R.; Singamaneni, S.* Anal. Chem. 2022, 94, 2, 909–917.

2021

  1. “MXene aerogel for efficient photothermally-driven membrane distillation with dual-mode antimicrobial capability” Cao, S.; Wu, X.; Zhu, Y.; Gupta, P.; Zhang, Y.; Liu, L.; Jun, Y.-S.*; Singamaneni, S.* J. Mater. Chem. A, 2021,9, 22585-22596
  2. “Plasmonically Enhanced CRISPR/Cas13a-Based Bioassay for Amplification-Free Detection of Cancer-Associated RNA” Liu, L.; Wang, Z.; Wang, Y.; Luan, J.; Morrissey, J. J.; Naik, R. R.; Singamaneni, S. Adv. Healthc. Mater. 2021, 10, 2100956.
  3. “Enhancing the Stability of COVID-19 Serological Assay through Metal-Organic Framework Encapsulation” Wang, Y.; Wang, Z.; Gupta, P.; Morrissey, J.; Naik, R. R.*; Singamaneni, S.* Adv. Healthc. Mater. 2021, 2100410.
  4. “Reversible Photothermal Modulation of Electrical Activity of Excitable Cells using Polydopamine Nanoparticles” Gholami Derami, H.; Gupta, P.; Weng, K.-C.; Seth, A.; Gupta, R.; Silva, J.R.; Raman, B.;* Singamaneni, S.* Adv. Mater., 2021, 2008809.
  5. “Ultrabright Plasmonic-Fluor Nanolabel-Enabled Detection of a Urinary ER Stress Biomarker in Autosomal Dominant Tubulointerstitial Kidney Disease” Kim, Y.; Wang, Z.; Li, C.; Kidd, K.; Wang, Y.; Johnson, B.G.; Kmoch, S.; Morrissey, J.J.; Bleyer, A. J.; Duffield, J.; Singamaneni, S.; Chen, Y. M.* Am J Physiol Renal Physiol. 2021, 321, F236–F244.
  6. “Quantifying and Adjusting Plasmon‐Driven Nano‐Localized Temperature Field around Gold Nanorods for Nucleic Acids Amplification” You, M.; Jia, P.; He, X.; Wang, Z.; Feng, S.; Ren, Y.; Li, Z.; Cao, L.; Gao, B.; Yao, C.; Singamaneni, S.*; Xu, F.* Small Methods 2021, 5, 2001254.
  7. “Gold Nanorod Size-dependent Fluorescence Enhancement for Ultrasensitive Fluoroimmunoassays” Chao, L.; Luan, J.; Wang, Z.; Jiang, Q.; Gupta, R.; Cao, S.; Morrissey, J.; Kharasch, E.; Naik, R.*; Singamaneni, S.* ACS Appl. Mater. Interfaces 2021, 13, 11414-11423.
  8. “A thermally engineered polydopamine and bacterial nanocellulose bilayer membrane for photothermal membrane distillation with bactericidal capability” Wu, X.; Cao, S.; Ghim, D.; Jiang, Q.; Singamaneni, S.*; Jun, Y.-S.* Nano Energy 2021, 79, 105353
  9. “Microneedle Patch for Ultrasensitive and Minimally-invasive Quantification of Protein Biomarkers in Interstitial Fluid” Wang, Z.; Luan, J.; Seth, A.; Liu, L.; You, M.; Gupta, P.; Rathi, P.; Wang, Y.; Cao, S.; Jiang, Q.; Zhang, X.; Gupta, R.; Zhou, Q.; Morrissey, J.; Scheller, E.*; Rudra, J. *; Singamaneni, S. * Nature Biomed. Eng. 2021 5, 64-76.

2020

  1. “Protein-based functional nanocomposites” Wang, Z.; Kang, S.; Cao, S.; Krecker, M.; Tsukruk, V.V.; Singamaneni, S. 2020 MRS Bulletin 45, 1017-1026.

  2. “Explosive sensing with insect-based biorobots” Saha, D.; Mehta, D.; Altan, E.; Chandak, R.; Traner, M.; Lo, R.; Gupta, P.; Singamaneni, S.; Chakrabartty, S.; Raman, B. Biosens. Bioelec. 2020, 6, 100050.

  3. “Enhanced Plasmonic Photocatalysis through Synergistic Plasmonic–Photonic Hybridization” Huang, Q.; Canady, T.D.; Gupta, R.; Li, N.; Singamaneni, S.; Cunningham, B. T. ACS Photonics 2020, 7, 1994-2001.

  4. “Cellulose Nanomaterials in Interfacial Evaporators for Desalination: A “Natural” Choice” Cao, S.; Rathi, P.; Wu, X.; Ghim, D.; Jun, Y.-S.; Singamaneni, S. Adv. Mater., 2020, 2000922.
  5. “Palladium Nanoparticle-Decorated Mesoporous Polydopamine/Bacterial Nanocellulose as a Catalytically Active Universal Dye Removal Ultrafiltration Membrane” Gholami Derami, H; Gupta, P.; Gupta, R.; Rathi, P.; Morrissey, J.J.; Singamaneni, S. ACS Appl. Nanomat., 2020,   3, 5437-5448.
  6. “Polydopamine–Mesoporous Silica Core–Shell Nanoparticles for Combined Photothermal Immunotherapy” Seth, A.; Derami, H.G.; Gupta, P.; Gupta, Wang, Z.; Rathi, P.; Gupta, R.; Cao, T.; Morrissey, J.J.; Singamaneni, S.; ACS Appl. Mater. Interfaces 2020, 12, 38, 42499–42510.
  7. “Ultrabright fluorescent nanoscale labels for the femtomolar detection of analytes with standard bioassays” Luan, J.; Seth, A.; Gupta, R.; Wang, Z.; Rathi, P.; Cao, S.; Derami, H.G.; Tang, R.; Xu, B.; Achilefu, S.; Morrissey, J.J.; Singamaneni, S.; Nature Biomed. Eng. 2020, 4, 518-530.
  8. “Refreshable Nanobiosensor Based on Organosilica Encapsulation of Biorecognition Elements” Gupta, R.; Luan, J.; Chakrabartty, S.; Scheller, E.; Morrissey, J. J.; Singamaneni, S. ACS Appl. Mater. Interfaces 2020, 12, 5420-5428.
  9. “Biopolymeric photonic structures: design, fabrication, and emerging applications” Xiong, R.; Luan, J.; Kang, S.; Ye, C.; Singamaneni, S.; Tsukruk, V. V. Chem. Soc. Rev. 2020, 49, 983-1031.
  10. “Polydopamine/Hydroxyapatite Nanowires-based Bilayered Membrane for Photothermal-driven Membrane Distillation” Cao, S.; Wu, X.; Zhu, Y.; Gupta, R.; Tan, A.; Wang, Z.; Jun, Y.-S.; Singamaneni, S. J. Mater. Chem. A 2020, 8, 5147-5156.

2019

  1. “Gold Nanorod-based Plasmonic Nose for Analysis of Chemical Mixtures” Yilmaz, H.; Bae, S. H.; Cao, S.; Wang, Z.; Raman, B.; Singamaneni, S.ACS Appl. Nanomat., 2019, 6, 3897-3905.
  2. “Plasmonic Paper Microneedle Patch for On-Patch Detection of Molecules in Dermal Interstitial Fluid” Kolluru, C.; Gupta, R.; Jiang, Q.; Williams, M.; Gholami Derami, H.; Cao, S.; Noel, R. K.; Singamaneni, S.; Prausnitz, M. R. ACS Sensors 2019, 6, 1569-1576.
  3. “Identification of proteins for controlled nucleation of metal-organic crystals for nanoenergetics” Reinert, Z. E.; Hung, C.-S.; Poole, A. R.; Slocik, J. M.; Crosby, M. G.; Singamaneni, S.; Naik, R. R.; Dennis, P. B.; Crookes-Goodson, W. J.; Gupta, M. K. MRS Comm. 2019, 9, 456-463.
  4. “Photothermal Membrane Water Treatment for Two Worlds” Jun, Y.-S.; Wu, X.; Ghim, D.; Jiang, Q.; Cao, S.; Singamaneni, S. Acc. Chem. Res. 2019, 52, 1215-1225.
  5. “Shape-dependent Biodistribution of Biocompatible Silk Microcapsules” Cao, S.; Tang, R.; Sudlow, G.; Wang, Z.; Liu, K.-K.; Luan, J.; Tadepalli, S.; Seth, A.; Achilefu, S.; Singamaneni, S. ACS Appl. Mater. Interfaces 2019, 11, 5499-5508.
  6. “A Robust and Scalable Polydopamine/Bacterial Nanocellulose Hybrid Membrane for Efficient Wastewater Treatment” Gholami Derami, H.; Jiang, Q.; Ghim, D.; Cao, S.;. Chandar, Y. J.; Morrissey, J.J.; Jun, Y.-S.; Singamaneni, S. ACS Appl. Nanomat. 2019, 2, 1092-1101.
  7. “Photothermally Active Reduced Graphene Oxide/Bacterial Nanocellulose Composites as Biofouling-Resistant Ultrafiltration Membranes” Jiang, Q.; Ghim, D.; Tadepalli, S.; liu, K.-K.; Kwon, H.; Luan, J.; Min, Y.; Jun, Y.-S.; Singamaneni, S.  Env. Sci. Tech. 2019, 53, 412-421. (Cover story)
  8. “Bioplasmonic paper–based assay for perilipin-2 non-invasively detects renal cancer” Hu, R.; Gupta, R.; Wang, Z.; Wang, C.; Sun, H.; Singamaneni, S.; Kharasch, E. D.; Morrissey, J. J. Kidney Int., 2019, 96, 1417-1421.
  9. “Atomic Force Microscopy of Phase Separation on Ruptured, Giant Unilamellar Vesicles, and a Mechanical Pathway for the Co-Existence of Lipid Gel Phases” Jiang, Y.F.; Pryse, K.M.; Singamaneni, S.; Genin, G.M.; Elson, E. L. J. Biomech. Engg. Trans. ASME 2019, 141, 071003.
  10. “Advances in Solar Evaporator Materials for Freshwater Generation” Cao, S.; Jiang, Q.; Wu, X.; Ghim, D.; Derami, H. G.; Chou, P.; Jun, Y.-H.; Singamaneni, S. Mater. Chem. A 2019, 7, 24092–24123.
  11. “On-Demand Electromagnetic Hotspot Generation in Surface-Enhanced Raman Scattering Substrates via “Add-On” Plasmonic Patch” Gupta, P.; Luan, J.; Wang, Z.; Cao, S.; Bae, S.-H.; Naik, R. R. Singamaneni, S. ACS Appl. Mater. Interfaces 2019, 11, 37939−37946.

2018

  1. “Metal-Organic Framework Encapsulation Preserves the Bioactivity of Protein Therapeutics” Wang, C.; Sudlow, G.; Wang, Z.; Cao, S.; Jiang, Q.; Neiner, A.; Morrissey, J.J.; Kharasch, E.D.; Achilefu, S.; Singamaneni, S. Healthcare Mater. 2018, 1800950.
  2. “Mechanically interlocked 1T/2H phases of MoS2 nanosheets for solar thermal water purification” Ghim, D.; Jiang, Q.; Cao, S.; Singamaneni, S.; Jun, Y.-S.; Nano Energy 2018, 53, 949-957.
  3. “Localized Heating by a Photothermal Polydopamine Coating Facilitates a Novel Membrane Distillation Process” Wu, X.; Jiang, Q.; Ghim, D.; Singamaneni, S.; Jun, Y.-S. Mater. Chem. A 2018, 6, 18799-18807.
  4. “Flexible Solid-State Supercapacitor Based on Tin Oxide/Reduced Graphene Oxide/Bacterial Nanocellulose” Liu, K.-K.; Jiang, Q.; Kasica, C.; Gholami Derami, H.; Biswas, P.; Singamaneni, S., RSC Adv. 2018, 8, 31296-31302.
  5. “Towards an Integrated QR Code Biosensor: Light-Driven Sample Acquisition and Bacterial Cellulose Paper Substrate” Yuan, M.Q.; Jiang, Q.S.; Liu, K. K.; Singamaneni, S.; Chakrabartty, S. IEEE Trans. Biomed. Circ. Sys. 2018, 12, 452-460.
  6. “Environmental Stability of Plasmonic Biosensors Based on Natural versus Artificial Antibody” Luan J.; Xu, T.; Cashin, J.; Morrissey, J.J.; Kharasch, E. D.; Singamaneni, S.Chem., 2018, 90, 7880-7887.
  7. “Multifunctional Surface Modification of Nanodiamonds Based on Dopamine Polymerization” Zeng, Y.; Liu, W.; Wang, Z.; Singamaneni, S.; Wang, R. Langmuir, 2018, 34, 4036–4042
  8. “Add-on Plasmonic Patch as a Universal Fluorescence Enhancer” Luan, J.; Morrissey, J. J.; Wang, Z.; Gholami Derami, H.; Liu, K.-K.; Cao, S.; Jiang, Q.; Wang, C.; Kharasch, E. D.; Naik, R. R.; Singamaneni, S. Light: Sci. Appl. 2018, 7, 29.
  9. “Catalytically-active Bacterial Nanocellulose-based Ultrafiltration Membrane” Xu, T.; Jiang, Q.; Ghim, D.; Liu, K.-K.; Sun, H.; Derami, H. G.; Wang, Z.; Tadepalli, S.; Jun, Y. –S.; Zhang, Q.; Singamaneni, S, Small 2018, 1704006
  10. “Ultra-robust Biochips with Metal-Organic Framework Coatings for Point-of-Care Diagnosis” Wang, C.; Wang, L.; Tadepalli, S.; Morrissey, J.; Kharasch, E.; Naik, R.; Singamaneni, S. 2018 ACS Sensors, 2018, 3, 342-351.
  11. “Metal-Organic Framework Encapsulation for Biospecimen Preservation” Wang, C.; Sun, H.; Luan, J.; Jiang, Q.; Tadepalli, S.; Morrissey, J. J.; Kharasch, E. D.; Singamaneni, S.Mater., 2018, 30, 1291-1300
  12. “Extreme Mechanical Behavior of Nacre-Mimetic Graphene-Oxide and Silk Nanocomposite” Xie, W.; Tadepalli, S.; Park, S.- H.; Kazemi M. A.; Jiang, Q.; Singamaneni, S.; Lee, J.-H.* Lett. 2018, 18, 987-993
  13. “Metal-Organic Framework Encapsulation for the Preservation and Photothermal Enhancement of Enzyme Activity.” Tadepalli, S.; Yim, J.; Cao, S.; Naik, R. R.; Singamaneni, S. Small, 2018, 1702382.

2017

  1. “Water from Wood: Pouring through Pores” Jiang, Q.; Singamaneni, S.* Joule 2017, 1, 429-430. (Invited Preview)
  2. “Condensing Vapor Phase Polymerization (CVPP) of Electrochemically Capacitive and Stable Polypyrrole Microtubes” Santino, L.M.; Hwang, E.; Diao, Y.; Lu, Y.; Wang, H.; Jiang, Q.; Singamaneni, S.; D’Arcy, J. M.* ACS Appl. Mater. Interfaces 2017, 9, 41496–41504.
  3. “Structure-dependent SERS Activity of Plasmonic Nanorattles with Built-in Electromagnetic Hotspots” Liu, K. -K.; Tadepalli, S.; Wang, Z.; Jiang, Q.; Singamaneni, S.* Analyst 2017, 142, 4536-4543.
  4. “Polydopamine-filled Bacterial Nanocellulose as Biodegradable Interfacial Photothermal Evaporator for Highly Efficient Solar Steam Generation” Jiang, Q.; Derami, H.; Ghim, D.; Cao, S-S.; Jun, Y.-S.*, Singamaneni, S.* Mater. Chem. A. 2017, 5, 18397-18402
  5. “Nanoantenna–Microcavity Hybrids with Highly Cooperative Plasmonic–Photonic Coupling” Liu, J.-N.; Huang, Q.; Liu, K. -K.; Singamaneni, S.*; Cunningham, B. T.* Nano Lett. 2017, 17, 7569-7577.
  6. “Effect of Size and Curvature on the Enzyme Activity of Bionanoconjugates.” Tadepalli, S.; Wang, Z.; Slocik, J.; Naik, R.*; Singamaneni, S.*; 2017, 9, 15666-15672.
  7. “Introduction: Biosinspired and Biomimetic Materials” Naik, R. R.*; Singamaneni, S.* Chem. Rev., 2017, 117, 12581–12583.
  8. “Bio-optics and Bioinspired Optical Materials.” Tadepalli, S.; Gupta, M.; Slocik, J.; Naik. R.*; Singamaneni, S.* Chem. Rev., 2017, 117, 12705–12763. (Featured on the cover)
  9. “Gold Nanorod-mediated Photothermal Enhancement of Biocatalytic Activity of Polymer Encapsulated Enzyme” Tadepalli, S.; Yim, J.; Madireddi, K.; Luan, J.; Naik, R.R.*; Singamaneni, S.* Mater. 2017, 29, 6308-6314
  10. “Rapid, point-of-care, paper-based plasmonic biosensor for Zika virus diagnosis” Jiang, Q.; Chandar, Y. J.; Cao, S.; Kharasch, E. D.; Singamaneni, S.*; Morrissey, J. J.* Biosystems 2017 1700096.
  11. “In situ Grown Bacterial Nanocellulose/Graphene Oxide Composite for Flexible Supercapacitor Jiang, Q.; Kacica, C.; Soundappan, T.; Liu, K.-K.; Tadepalli, S.; Biswas, P.*; Singamaneni, S.* Mater. Chem. A 2017, 5, 13976.
  12. “Influence of Surface Charge of the Nanostructures on the Biocatalytic Activity” Tadepalli, S.; Wang, Z.; Liu, K.-K.; Jiang, Q.; Slocik, J. M.; Naik, R. R.*; Singamaneni S.* Langmuir 2017, 33, 6611-6619.
  13. “Amplification of Refractometric Biosensor Response through Biomineralization of Metal-organic Framework Nanocrystals”, Luan, J.; Hu, R.; Morrissey, J.; Kharasch, E.; Singamaneni, S.* Mater. Technologies 2017, 2, 1700023.
  14. “Single Molecule Force Spectroscopy to Compare Natural vs. Artificial Antibody-Antigen Interaction” Wang, C.; Hu, R.; Morrissey, J.; Kharasch, E.; Singamaneni, S.* Small 2017, 13, 1604255.
  15. “Metal-Organic Framework as Protective Coating for Biodiagnostic Chips” Wang, C.; Tadepalli, S.; Luan, J.; Liu, K.-K.; Morrissey, J.; Kharasch, E.; Naik, R.R.*; Singamaneni, S.* Mater. 2017, 29, 1604433.
  16. “Wood-Graphene oxide Composite for Highly Efficient Solar Steam Generation and Desalination” Liu K.-K.; Jiang, Q.; Tadepalli, S.; Raliya, R.; Biswas, P.; Naik, R. R.*; Singamaneni, S.* ACS Appl. Mater. Interfaces 2017, 9, 7675-7681
  17. “Aromatic Functionality of Target Proteins Influences Monomer Selection for Creating Artificial Antibodies on Plasmonic Biosensors” Hu, R.; Luan, J.; Kharasch, E.; Singamaneni, S.;* Morrissey, J.*; ACS Appl. Mater. Interfaces. 2017, 9, 145-151.

2016

  1. “PEGylated Artificial Antibodies: Plasmonic Biosensors with Improved Selectivity” Luan, J.; Liu, K. K.; Tadepalli, S.; Jiang, Q.; Morrissey, J.; Kharasch, E.; Singamaneni, S.* ACS Appl. Mater. Interfaces 2016, 8, 23509-23516
  2. “Self-Powered Forward Error-Correcting Biosensor Based on Integration of Paper-Based Microfluidics and Self-Assembled Quick Response Codes” Yuan, M.; Liu, K.-Ku.; Singamaneni, S.; Chakrabartty, S* IEEE Trans. Biomed. Circuits Syst. 2016, 10, 963-971.
  3. “Silk-Encapsulated Plasmonic Biochips with Enhanced Thermal Stability” Wang, C.; Luan, J.; Tadepalli, S.; Liu, K.-K.; Morrissey, J.; Kharasch, E.; Naik, R.*; Singamaneni, S.* ACS Appl. Mater. Interfaces 2016, 8, 26493-26500.
  4. “Polarization-Dependent Surface Enhanced Raman Scattering Activity of Anisotropic Plasmonic Nanorattles” Liu, K.-K.; Tadepalli, S.; Kumari, G.; Banerjee, P.; Tian, L.; Jain, P. K.*; Singamaneni, S.* Phys. Chem. C 2016, 120, 16899-16906.
  5. “Bilayered Biofoam for Highly Efficient Solar Steam Generation” Jiang, Q.; Tian, L.; Liu, K.-K.; Tadepalli, S.; Raliya, R.; Biswas, P.; Naik, R. R.*; Singamaneni, S.* Mater. 2016, 42, 9400-9407. (Inside cover)
  6. “Adsorption Behavior of Silk Fibroin on Amphiphilic Graphene Oxide” Tadepalli, S.; Hamper, H.; Park, S. H.; Cao, S.; Naik, R.*; Singamaneni, S.* ACS Biomat. Sci. Engg. 2016, 2, 1084-1092.
  7. “Bacterial Nanocellulose-based Flexible Surface Enhanced Raman Scattering Substrate” Tian, L.; Jiang, Q.; Liu, K.-K.; Luan, J.; Naik, R. R.*; Singamaneni, S.* Mater. Interfaces 2016, 3, 1600214.
  8. “Structure-Function Relationships For SERS-Active Plasmonic Paper” Ross, M.; Ashley, M.; Schmucker, A.; Singamaneni, S.; Naik, R.*; Schatz, G.*; Mirkin, C.* Phys. Chem. C 2016, 120, 20789-20797.
  9. “Elastoplastic Deformation of Silk Micro and Nanostructures” Huang, G.; Tian, L.; Liu, K.-K.; Hu, B.; Xu, F.; Lu, T. J.; Naik, R.; Singamaneni, S.* ACS Biomat. Sci. Engg. 2016, 2, 893-899.
  10. “Plasmonic Nanogels for Unclonable Optical Tagging” Tian, L.; Liu, K.-K.; Fei, M.; Tadepalli, S.; Cao, S.; Geldmeier, J.; Tsukruk, V.; Singamaneni, S.* ACS Appl. Mater. Interfaces 2016, 8, 4031-4041
  11. “Monodispersed calcium carbonate nanoparticles modulate local pH and inhibit tumor growth in vivo” Som, A.; Raliya, R.; Tian, L.; Akers, W.; Ippolito, J.; Singamaneni, S.; Biswas, P.; Achilefu, S.* Nanoscale 2016 8, 12639-12647.
  12. “Plasmonic Paper: A Porous and Flexible Substrate Enabling Nanoparticle-Based Combinatorial Chemistry” Schmucker, A.; Tadepalli, S.; Liu, K-.K.; Sullivan, C.; Singamaneni, S.*; Naik, R. R.* RSC Advances 2016, 6, 4136-4144.
  13. “Plasmonic Biofoam: A Versatile Optically-active Material” Tian, L; Luan, J; Liu, K.-K.; Jiang, Q.; Tadepalli, S.; Gupta, M.; Naik, R.*; Singamaneni, S.* Nano Lett. 2016, 16, 609-616.

2015

  1. “Peptide Functionalized Gold Nanorods for the Sensitive Detection of a Cardiac Biomarker Using Plasmonic Paper Devices” Tadepalli, S.; Kuang, Z.; Jiang, Q.; Liu, K.-K.; Fisher, M. A.; Morrissey, J. J.; Kharasch, E. D.; Naik, R.R.*; Singamaneni, S.* Rep. 2015, 5, 16206.
  2. “3D Printed Programmable Release Capsules” Gupta, M.; Meng, F.; Johnson, B.; Kong, Y. L.; Tian, L.; Yeh, Y.-W.; Masters, N.; Singamaneni, S.; McAlpine, M.* Nano Lett. 2015 15, 5321-5329.
  3. “Off-resonant Gold Superstructures as Ultrabright Minimally-Invasive SERS Probes” Tian, L.; Tadepalli, S.; Fei. M.; Morrissey, J.; Kharasch, E.; Singamaneni, S.* Mater. 2015, 27, 5261-5270.
  4. “Size-dependent Surface Enhanced Raman Scattering Activity of Plasmonic Nanorattles” Liu, K.-K.; Tadepalli, S.; Tian, L.; Singamaneni, S.* Mater. 2015, 27, 5678-5684.
  5. “Bio-enabled Gold Superstructures with Built-in and Accessible Hotspots” Tian, L.; Fei, M.; Tadepalli, S.; Morrissey, J.; Kharasch, E.; Singamaneni, S.* Healthc. Mater. 2015, 4, 1502-1509.
  6. “Inherently Stealth and Highly Tumor-Selective Gold Nanoraspberries for Photothermal Cancer Therapy” Gandra, N.; Portz, C.; Nergiz, S. Z.; Singamaneni, S.* Rep. 2015, 5, 10311.
  7. “Selective enhancement of red emission from upconversion nanoparticles via surface plasmon-coupled emission” Feng, A. L.; Lin, M.; Tian, L.; Zhu, H. Y.; Guo, H.; Singamaneni, S.; Duan, Z. F.; Lu, T. J.; Xu, F. RSC Advances 2015, 5, 76825-76835.
  8. “Photothermally Active Reverse Osmosis Membranes for Improved Mineral Scaling, Organic and Bio- Fouling Resistance” Ray, J.; Tadepalli, S.; Nergiz, S.; Liu, K.-K.; You, L.; Tang, Y.; Singamaneni, S.*; Jun, Y.-S.* ACS Appl. Mater. Interface 2015, 7, 11117–11126.
  9. “Distance-Dependent Plasmon-Enhanced Fluorescence of Upconversion Nanoparticles using Polyelectrolyte Multilayers as Tunable Spacers” Feng, A. L.; You M. L.; Tian, L.; Singamaneni, S.; Liu, M.; Duan, Z. F.; Lu, T. J.; b, Xu, F.; Min, L.* Rep. 2015, 5, 7779.

2014

  1. “Plasmonic paper for trace detection of analytes” Tian, L.; Nergiz, S. Z.; Singamaneni, S.*; Farrell, M. E.; Pellegrino, P. M.; Slocik, J. M.; Naik, R. R., SPIE Newsroom (DOI: 10.1117/2.1201405.005468)
  2. “Structures formed by a cell membrane-associated arabinogalactan-protein on graphite or mica alone and with Yariv phenylglycosides” Zhou, L. H.; Weizbauer, R. A.; Singamaneni, S.; Xu, F.; Genin, G. M.; Pickard, B. G.* Bot. 2014, 114, 1387-1395.
  3. “Plasmonic Nanorattles with Instrinsic EM Hotspots for Surface Enhanced Raman Scattering” Jaiswal, A.; Tian, L.; Tadepalli, S.; Liu, K.-K.; Fei, M.; Farrell, M. E.; Pellegrino, P. M.; Singamaneni, S* Small 2014, 10, 4287-4292.
  4. “Multifunctional Nanopatches based on Graphene oxide-Gold nanostar Hybrids for Image-guided Photothermal Therapy” Nergiz, S. Z.; Gandra, N.; Tadepalli, S.; Singamaneni, S.* ACS Appl. Mater. Interfaces 2014, 6, 16395-16402.
  5. “Multiplexed Charge-Selective Surface Enhanced Raman Scattering based on Plasmonic Calligraphy” Tian, L.; Tadepalli, S.; Farrell, M.; Liu, K.-K.; Gandra, N.; Pellegrino, P.; Singamaneni, S.* Mater. Chem. C 2014, 2, 5438-5446.
  6. “Bioplasmonic Calligraphy for Multiplexed Label-free Biodetection” Tian, L.; Tadepalli, S.; Park, S. H.; Liu, K.-K.; Morrissey, J. J.; Kharasch, E. D.; Naik, R.; Singamaneni, S.* Bioelectron., 2014, 59, 208-215.
  7. “Single Nanoparticle Detection Using Photonic Crystal Enhanced Microscopy “Zhuo, Y.; Hu, H.; Chen, W.; Lu, M.; Tian, L.; Yu, H.; Long, K. D.; Chow, E.; King, W. P.; Singamaneni, S.; Cunningham, B. T.* Analyst, 2014, 139, 1007-1015.
  8. “Probing Distance-Dependent Plasmon Enhanced Near-infrared Fluorescence using Polyelectrolyte Multilayers as Dielectric Spacers” Gandra, N.; Portz, C.; Tian, L.; Tang, R.; Baogang, X.; Achilefu, S.*; Singamaneni, S.* Chemie. Int. Ed., 2014, 53, 866-870.
  9. “Multifunctional Plasmonic Nanorattles for Spectrum-guided Locoregional Therapy” Gandra, N.; Portz, C.; Singamaneni, S.* Mater., 2014, 26, 424-429.
  10. “Gold Nanocages with Built-in Artificial Antibodies for Label-free Plasmonic Biosensing” Tian, L.; Liu, K.-K.; Morrissey, J.J.; Gandra, N.; Kharasch, E. D.; Singamaneni, S.* Mater. Chem. B, 2014, 2, 167-170.
  11. “Migration of Plasmonics from Static to Dynamic Surfaces” Gandra. N.; Tian, L.; Nergiz, S. Z.; Singamaneni, S.* Nanosci. Lett., 2014, 4, 23.
  12. “Self-assembled High Aspect Ratio Gold nanostar/Graphene oxide Hybrid Nanorolls” Nergiz, S. Z.; Gandra, N.; Singamaneni, S.* Carbon, 2014, 66, 585-591.

2013

  1. “Plasmonic Metal-to-Semiconductor Switching in Au nanorod-ZnO nanocomposite films” Wu, F.; Tian, L.; Kanjolia, R.; Singamaneni, S.; Banerjee, P.* ACS Appl. Mater. Interfaces 2013, 5, 7693-7697.
  2. “Surface defect sites Facilitate Fibrillation: Insight from Adsorption of Gold-binding peptide on Au(111)” Nergiz, S. Z.; Slocik, J. M.; Naik R. R.; Singamaneni S.* Chem. Chem. Phys. 2013, 15, 11629-11633.
  3. “Biomimetic SERS substrate: Peptide Recognition Elements for Highly Selective Chemical Detection in Chemically Complex Media” Nergiz, S. Z.; Gandra, N.; Farrell, M. E.; Tian, L.; Pellegrino, P. M.; Singamaneni, S.* Mater. Chem. A, 2013, 1, 6543-6549.
  4. “Monitoring Controlled Release of Payload from Gold Nanocages using Surface Enhanced Raman Scattering” Tian, L.; Gandra, N.; Singamaneni S.* ACS Nano 2013, 7, 4252-4260.
  5. “Multifunctional Analytical Platform on a Paper Strip: Separation, Pre-concentration and Sub-Attomolar Detection” Abbas, A.; Brimer, A.; Slocik, J. M.; Tian, L.; Naik, R. R.; Singamaneni, S.* Chem., 2013, 85, 3977-3983. (Featured in Chemical and Engineering News and numerous other web media)
  6. “Trapping proteins within gold nanoparticles assemblies: Dynamically tunable hot-spots for nanobiosensing” Abbas, A.; Fei, M.; Tian, L.; Singamaneni S.* Plasmonics 2013, 8, 537.
  7. “Vesicle-Mediated Growth of Tubular Branches and Centimeter-long Microtubes From a Single Molecule” Abbas, A.; Brimer, A.; Tian, L.; d’Avignon, D. A.; Hameed, A. S.; Vittal, J.; Singamaneni S.* Small 2013, 9, 2611-2618 (Cover story, Featured in Materials Views and numerous other web media)
  8. “Surface enhanced Raman scattering for in vivo imaging: the future looks BRIGHT?” Gandra, N.; Singamaneni S.* Nanomedicine 2013, 8, 317-320. (Invited Editorial)
  9. “Hot-spot Localized Synthetic Receptors for Label-free Plasmonic Biosensing” Abbas, A.; Tian, L.; Morrissey, J.; Kharasch, E. D.; Singamaneni S.* Func. Mater., 2013, 23, 1789-1797. (Featured in Materials Views, Highlighted in Nature Photonics and numerous other web media)
  10. “Bimetallic Janus Nanostructures via programmed shell growth” Gandra, N.; Portz, C.; Singamaneni, S.* Nanoscale, 2013, 5, 1806-1809.
  11. “Bilayered Raman-intense Gold nanostructures with Hidden Tags (BRIGHTs) for High-resolution Bioimaging” Gandra, N.; Singamaneni S.* Mater., 2013, 25, 1022-1027.
  12. “Molecular Linker-Mediated Self-Assembly of Gold Nanoparticles: Understanding and Controlling Dynamics” Abbas, A.; Tian, L.; Kattumenu, R.; Singamaneni S.* Langmuir 2013, 29, 56-64.

2012

  1. “Gold nanorods as plasmonic nanotransducers: Distance-dependent Refractive Index Sensitivity” Tian, L.; Chen, E.; Gandra, N.; Abbas, A.; Singamaneni S.* Langmuir, 2012, 28, 17435-17442.
  2. “Bioplasmonic Paper as a Platform for Detection of Kidney Cancer Biomarkers” Tian, L.; Morrissey, J M.; Kattumenu, R.; Gandra, N.; Kharasch, E. D.; Singamaneni S.* Chem., 2012, 84, 9928-9934.
  3. “Clicked” Plasmonic Core-Satellites: Covalently Assembled Gold Nanoparticles” Gandra, N.; Singamaneni S.* Commun. 2012, 48, 11540-11542.
  4. “Plasmonic Planet-Satellite Analogues: Hierarchical Self-assembly of Gold nanostructures” Gandra, N.; Abbas, A.; Tian, L.; Singamaneni S.* Nano Lett., 2012, 12, 2645-2651.
  5. “Gold nanorods as nanotransducers to monitor the growth and swelling of ultrathin polymer films” Tian, L.; Fei, M.; Kattumenu, R.; Abbas, A.; Singamaneni S.* Nanotechnology, 2012, 23, 255502.
  6. “Phonon-like light scattering in polycrystalline carbon structures” Naumenko, A.P.; Korniyenko, N.E.; Yashchuk, V.M.; Bliznyuk, V.N.; Singamaneni S. J. Phys., 2012, 57, 197-207.
  7. “Peculiarities of Raman spectra of polyurethane/carbon nanotube composite” Naumenko, A.; Yashchuk, V.; Bliznyuk, V.; Singamaneni S. Phys. J. B 2012, 85, 120
  8. “Freezing the Self-assembly of Gold Nanocrystals” Abbas, A.; Tian, L.; Kattumenu, R.; Halim, A.; Singamaneni S.* Comm., 2012, 48, 1677-1679.
  9. “Self-Assembly of Plasmonic Nanostructures” Abbas, A.; Kattumenu, R.; Tian, L.; Nergiz, S. Z.; Singamaneni S.* Nanosci. Lett., 2012, 2, 10. (Invited review)

2011

  1. “Non-spherical Metal Nanostructures and Their Assemblies for Surface Enhanced Raman Spectroscopy” Kattumenu, R.; Lee, C. H.; Singamaneni S.* Nanoengineering and Nanomanufacturing 2011, 1, 113-135. (Invited Review)
  2. “Highly Sensitive SERS Substrates Based on Filter Paper Loaded with Plasmonic Nanostructures” Lee, C. H.; Hankus, M. E.; Tian, L.; Pellegrino, P. M.; Singamaneni S.* Chem., 2011, 83, 8953-8958.
  3. “Magnetic Nanoparticles: Recent advances in synthesis, self-assembly and applications” Singamaneni S.*; Bliznyuk, V. N.; Binek, C.; Tsymbal, E. Y. Mater. Chem., 2011, 21, 16819-16845.
  4. “Nanorod Decorated Nanowires as Highly Efficient SERS-active Hybrids” Kattumenu, R.; Lee, C. H.; Tian, L.; McConney, M. E.; Singamaneni S.* Mater. Chem., 2011, 21, 15218-15223. (Inside cover)
  5. “Directed Assembly of Gold nanorods using Aligned Electrospun Polymer Nanofibers for Highly Efficient SERS Substrates” Lee, C. H.; Tian, L.; Abbas, A.; Kattumenu, R.; Singamaneni S.* Nanotechnology 2011, 22, 275311.
  6. “Diameter-dependent coloration of silver nanowires” Stewart, M. S.; Qiu, C.; Kattumenu, R.; Singamaneni, S.; Jiang, C.* Nanotechnology 2011, 22, 275712.
  7. “Reversible Tuning of Plasmon Coupling in Gold Nanoparticle Chains Using Ultrathin Responsive Polymer film” Nergiz S. Z.; Singamaneni S.* ACS Appl. Mater. Interfaces 2011, 3, 945-951.
  8. “pH Triggered SERS via Modulated Plasmonic Coupling in Individual Bimetallic Nanocobs” Gupta, M. K.; Chang, S.; Singamaneni S.; Drummy, L. F.; Gunawidjaja, R.; Naik, R. R.; Tsukruk, V. V.* Small 2011, 7, 1192-1198.
  9. “Thermally-Induced Transformations of Amorphous Carbon Nanostructures Fabricated by Electron Beam Induced Deposition” Kulkarni, D.; Rykaczewski, K.; Singamaneni S.*; Kim, S.; Fedorov, A. G.; and Tsukruk, V. V. ACS Appl. Mater. Interfaces, 2011, 3, 710-720.
  10. “Label-free Raman mapping of surface distribution of protein A and IgG biomolecules” Combs, Z. A.; Chang, S.; Clark, T.; Singamaneni S.; Anderson K.; Tsukruk, V. V.* Langmuir, 2011, 27, 3198-3205.

2010

  1. “Paper Based SERS Swab for Rapid Trace Detection on Real-world Surfaces” Lee, C. H.; Tian, L.; Singamaneni S.* ACS Appl. Mater. Interfaces 2010, 2, 3429-3435.
  2. “Buckling instabilities in Periodic Porous and Composite Solids” Singamaneni, S.*; Tsukruk, V. V.* Soft Matter 2010, 6, 5681-5692.
  3. “Plasma Amino Acid Coatings for a Conformal Growth of Titania Nanoparticles” Anderson, K. D.; Marczewski, K.; Singamaneni, S.; Slocik, J. M.; Jakubiak, R.; Naik, R. R.; Bunning, T. J.; Tsukruk V. V.* ACS Appl. Mater. Interfaces 2010, 2, 2269-2281.
  4. “Graphene oxide-polyelectrolyte nanomembranes” Kulkarni, D.; Choi, I.; Singamaneni, S.; Tsukruk, V.V.* ACS Nano 2010, 4, 4667-4676.
  5. “Replication of anisotropic dispersed particulates and complex continuous templates” Shchepelina, O.; Kozlovskaya, V.; Singamaneni, S.; Kharlampieva, E.; Tsukruk, V. V.* Mater. Chem. 2010, 20, 6587-6603. (Invited Feature Article)
  6. “Swelling Induced Folding in Confined Nanoscale Responsive Polymer Gels” Singamaneni, S.; McConney, M. E.; Tsukruk, V. V.* ACS Nano 2010, 4, 2327-2337.
  7. “Probing Soft Matter with the Atomic Force Microscopies: Imaging and Force Spectroscopy” McConney, M. E.; Singamaneni, S.; Tsukruk, V. V.*; Polymer reviews 2010, 50, 235-286.
  8. “Spontaneous Regular Folding in Ultrathin Polymer Gels” Singamaneni, S.; McConney, M. E.; Tsukruk, V. V.* Mater. 2010, 22, 1263-1268.
  9. “Metallized Porous Microframes via Biofunctionalization” Singamaneni, S.; Kharlampieva, E.; McConney, M. E.; Jiang, H.; Jang, J. -H.; Thomas, E. L.; Bunning, T. J.; Tsukruk, V. V.* Mater. 2010, 22, 1369-1373. (Cover story)
  10. “Patterned secondary structure in silk fibroin films” Gupta, M. K.; Singamaneni, S.; McConney, M. E.; Drummy, L.; Naik, R. R.; Tsukruk, V. V.* Mater. 2010, 22, 115-119.
  11. “Effect of Electron Beam Induced Deposited (EBID) Carbon Joint Geometry and Material Properties on Electrical Resistance of Multiwalled Carbon Nanotube (MWNT)-to-Metal Contact Interface” Rykaczewski, K.; Henry, M. R.; Kim, S.-K.; Fedorov, A. G.; Kulkarni, D.; Singamaneni, S.; Tsukruk, V. V.* Nanotechnology, 2010, 21, 035202.

2009

  1. “Converse piezoelectric effect induced transverse deflection of a free-standing ZnO microbelt” Hu, Y.; Gao, Y.; Singamaneni, S.; Tsukruk, V. V.; Wang, Z. L.* Nano Lett. 2009, 9, 2661-2665.
  2. “Non-destructive, and in-situ identification of crystal orientation of anisotropic ZnO nanostructures” Singamaneni, S.; Gupta, M. K.; Yang, R.; Tomczak, M.; Naik, R.R.; Wang, Z. L.; Tsukruk, V. V.* ACS Nano 2009, 3, 2593-2600.
  3. “Hybrid Nanoporous Template for Trace Level SERS Detection of Peroxide-based Explosive” Chang, S.; Ko, H.; Singamaneni, S.; Gunawidjaja, R.; Tsukruk, V. V.* Chem. 2009, 81, 5740-5748.
  4. “Responsive Hybrid Nanotubes Composed of Block Copolymer and Gold Nanoparticles” Chang, S.; Singamaneni, S.; Kharlampieva, E.; Chang, S.; Tsukruk, V. V.* Macromolecules 2009, 15, 5781-5785. (Cover story)
  5. “Protein-enabled Synthesis of Monodisperse Titania Nanoparticles on and within Polyelectrolyte Matrices” Kharlampieva, E.; Slocik, J. M.; Singamaneni, S.; Poulsen, N.; Kroger, N.; Naik, R. R.; Tsukruk, V. V.* Func. Mater. 2009, 19, 2303-2311.
  6. “Bifurcated Mechanical Behavior of Deformed Porous Solids” Singamaneni, S.; Bertoldi, K.; Chang, S.; Jang, J. -H.; Young, S.; Thomas, E. L.; Boyce, M.; Tsukruk, V. V.* Func. Mater. 2009, 19, 1426-1436.
  7. “Self-assembly of magnetic Ni nanoparticles into 1D arrays with antiferromagnetic order” Bliznyuk, V.*; Singamaneni, S.; Sahoo, S.; Polisetty, S.; He, X.; Binek, Ch. Nanotechnology 2009, 20, 105606. (Cover story)
  8. “Instabilities and pattern transformation in periodic, microporous, elasto-plastic solids” Singamaneni, S.; Bertoldi, K.; Chang, S.; Jang, J. -H.; Thomas, E. L.; Boyce, M.; Tsukruk, V. V.* ACS Appl. Mater. Interfaces 2009, 1, 42-47.
  9. “Thermal Sensor and Switch Based On Plasma Polymer/ZnO Suspended Nanobelt Bimorph Structure” He, J.-H.; Singamaneni, S.; Ho, C. H.; Lin, Y.-H.; McConney, M. E.; Tsukruk, V. V.* Nanotechnology 2009, 20, 065502.

2008

  1. “Density-Controlled, Solution-Based Growth of ZnO Nanorod Arrays for Enhanced Field Emission” Weintraub, B.; Chang, S.; Singamaneni, S.; Han, W. H.; Choi, Y. J.; Bae, J.; Kirkham, M.; Tsukruk, V. V.; Deng, Y.* Nanotechnology 2008, 19, 435302.
  2. “Nanostructured Surfaces and Assemblies as SERS Media” Ko, H.; Singamaneni, S.; Tsukruk, V. V.* Small 2008, 4, 1576-1599. (Invited review)
  3. “Mechanical properties of 2D Polymer Microstructures via Interference Lithography” Singamaneni, S.; Chang, S.; Jang, J. -H.; Davis, W.; Thomas, E. L.; Tsukruk, V. V.* Chem. Chem. Phys. 2008, 10, 4093-4105.
  4. “Bimaterial microcantilevers as a hybrid sensing platform” Singamaneni, S.; LeMieux, M. C. ; Lang, H. P. ; Gerber, Ch. ; Lam, Y.; Zauscher, S.; Datskos, P. G.; Lavrik, N. V.; Jiang, H.; Naik, R. R.; Bunning, T. J.; Tsukruk, V. V.* Adv. Mater., 2008, 20, 653-680. (Invited Review)

2007

  1. “Atomic force and ultrasonic force microscopy investigation of adsorbed layers formed by two incompatible polymers polystyrene and poly(butyl methacrylate)” Bliznyuk, V. N.*; Lipatov, Y. S.; Ozdemir, N.; Todisijchuk, T. T.; Chornaya, V. N.; Singamaneni, S. Langmuir 2007, 23, 12973.
  2. “Polymer-Silicon flexible structures for fast chemical vapor detection” Singamaneni, S.; McConney, M.E.; LeMieux, M.C.; Jiang, H.; Enlow, J.O.; Bunning, T.J.; Naik, R.R.; Tsukruk, V.V.* Mater. 2007, 19, 4248-4255. (In side cover)
  3. “Negative Thermal Expansion in Ultrathin Plasma Polymer Films” Singamaneni, S.; LeMieux, M.C.; Jiang, H.; Bunning, T. J.; Tsukruk, V.V.* Mater. 2007, 19, 129-131.
  4. “Robust Fluorescence of Multilayered LBL films” Singamaneni, S.; Jiang, C.; Merrick, E.; Kommireddy, D.; Tsukruk, V. V.* Macromol. Sci., Part B: Phys. 2007, 46, 7-19.
  5. “Flexible and robust 2D array of silver nanowires by encapsulation into free standing layer-by-layer films” Gunawidjaja, R.; Jiang, C.; Peleshanko, S.; Ornatska, M.; Singamaneni, S.; Tsukruk, V. V.* Func. Mater. 2006, 16, 2024-2034.
  6. “Complex buckling instability patterns of nanomembranes with encapsulated gold nanoparticle arrays” Jiang, C.; Singamaneni, S.; Merrick, E.; Tsukruk, V. V.* Nano Lett. 2007, 6, 2254-2259.

2006

  1. “Unusual ignition behavior of polyurethane /carbon nanotube composites with a He-Ne laser excitation (632.8 nm) during micro-Raman spectroscopy” Singamaneni, S.; Shevchenko, V.; Bliznyuk V.* Carbon 2006, 44, 2191-2195.
  2. “Thermo-Optical Arrays of Flexible Nanoscale Nanomembranes Freely Suspended over Microfabricated Cavities as IR Microimagers” Jiang, C.; McConney, M. E.; Singamaneni, S.; Merrick, ; Chen, Y.; Zhao, J.; Zhang, L.; Tsukruk, V. V.* Chem. Mater. 2006, 18, 2632-2634.
  3. “Polymeric Nanolayers as Actuators for Ultra-Sensitive Thermal Bimorphs” LeMieux, M. C.; McConney, M.; Lin, Y-H.; Singamaneni, S.; Jiang, H.; Bunning, T. J.; Tsukruk, V. V.* Nano Lett. 2006, 6, 730-734.
  4. “Trilayered ceramic-metal-polymer microcantilevers with dramatically enhanced thermal sensitivity” Lin, Y-H.; McConney, M.E.; LeMieux, M.C.; Peleshanko, S.; Jiang, C.; Singamaneni, S.; Tsukruk, V.V.* Mater. 2006, 18, 1157-1161.
  5. “Matrix Mediated Alignment of Single Wall Carbon Nanotubes in Polymer Composite Films” Bliznyuk, V.*; Singamaneni, S.; Sanford, R.L.; Chiappetta, D.; Crooker, B.; Shibaev, P.V. Polymer 2006, 47, 3915-3921.
  6. “Surface electrical conductivity in ultrathin single-wall carbon nanotube/polymer nanocomposite films” Bliznyuk, V.N.; Singamaneni, S.; Kattumenu, R.; Atashbar, M.Z.* Phys. Lett. 2006, 88, 164101.
  7. “Carbon nanotube network based biomolecule detection” Atashbar, M.Z.*; Bejcek, B.; Singamaneni, S. IEEE Sens. J. 2006, 6, 524-528.

2005

  1. “Fabrication of Ni nanoparticles and their size-selective self-assembly into chains under external magnetic field” Singamaneni, S.; Bliznyuk, V.* A Phys. Lett. 2005, 87, 162511.
  2. “Effects of surface and volume modification of poly(vinylidene fluoride) by polyaniline on the structure and electrical properties of their composites” Bliznyuk, V.N.*; Baig, A.; Singamaneni, S.; Pud, A. A.; Fatyeyeva, K. Y.; Shapoval G.S. Polymer 2005, 46, 11728-11736.
  3. “Room temperature gas sensor based on metalllic nanowires” Atashbar, M.Z.*; Singamaneni, S. Actuators B, 2005, 111-112, 13-21.
  4. “Template-based fabrication of metal nanostructures” Atashbar, M.Z.*; Singamaneni, S. Nanoeng. Nanosys. 2005, 218, 83-89. (Invited paper)
  5. “Room temperature hydrogen sensor based on Palladium nanowires” Atashbar, M.Z.*; Banerji, D.; Singamaneni, S. IEEE Sens. J. 2005, 5, 792-797.
  6. “Micro Orientation and Anisotropy of Conductivity in Liquid Crystalline Polymer Films Filled with Carbon Nanotubes” Bliznyuk, V.*; Singamaneni, S.; Sanford, R. L.; Chiappetta, D.; Crooker, B.; Shibaev, P.V. Nanosci. Nanotech. 2005, 5, 1651-1655.
  7. “Polystyrene Palladium nanocomposite for hydrogen sensing” Atashbar, M.Z.*; Banerji, D.; Singamaneni, S.; Bliznyuk, V. Crys. Liq. Crys. 2005, 427, 529-536.
  8. “Comparative studies of Temperature dependence of G-band in SWNT and HOPG” Atashbar, M.Z.*; Singamaneni, S. Phys. Lett. 2005, 86, 123112.
  9. “QCM biosensor with ultra thin polymer film” Atashbar, M.Z.*; Bejcek, B.; Vijh, A.; Singamaneni, S. Actuators B 2005, 107, 945-951.
  10. “Dispersion and Phase separation of Carbon Nanotubes in Ultra Thin Polymer Films” Foster, J.; Singamaneni, S.; Kattumenu, R.; Bliznyuk, V.* Coll. Interface Sci. 2005, 287, 167-172.

2004

  1. “Deposition and electrical characterization of parallel arrays of palladium nanowires on highly oriented pyrolytic graphite” Atashbar, M.Z.*; Banerji, D.; Singamaneni, S.; Bliznyuk, V. Nanotechnology 2004, 15, 374-378.
  2. “Deposition of parallel arrays of palladium nanowires on highly oriented pyrolytic graphite” Atashbar, M.Z.*; Bliznyuk, V.; Banerji, D.; Singamaneni, S. Alloys Comp. 2004, 372, 107-110.