Nanostructured surfaces and assemblies as SERS media H Ko, S Singamaneni, VV Tsukruk Small 4 (10), 1576-1599, 2008 | 888 | 2008 |
Magnetic nanoparticles: recent advances in synthesis, self-assembly and applications S Singamaneni, VN Bliznyuk, C Binek, EY Tsymbal Journal of Materials Chemistry 21 (42), 16819-16845, 2011 | 615 | 2011 |
Wood–graphene oxide composite for highly efficient solar steam generation and desalination KK Liu, Q Jiang, S Tadepalli, R Raliya, P Biswas, RR Naik, ... ACS applied materials & interfaces 9 (8), 7675-7681, 2017 | 582 | 2017 |
Bilayered Biofoam for Highly Efficient Solar Steam Generation. Q Jiang, L Tian, KK Liu, S Tadepalli, R Raliya, P Biswas, RR Naik, ... Advanced materials (Deerfield Beach, Fla.) 28 (42), 9400-9407, 2016 | 533 | 2016 |
Paper-based SERS swab for rapid trace detection on real-world surfaces CH Lee, L Tian, S Singamaneni ACS applied materials & interfaces 2 (12), 3429-3435, 2010 | 396 | 2010 |
Bio-optics and bio-inspired optical materials S Tadepalli, JM Slocik, MK Gupta, RR Naik, S Singamaneni Chemical reviews 117 (20), 12705-12763, 2017 | 348 | 2017 |
Graphene oxide− polyelectrolyte nanomembranes DD Kulkarni, I Choi, SS Singamaneni, VV Tsukruk ACS nano 4 (8), 4667-4676, 2010 | 331 | 2010 |
Highly sensitive surface enhanced Raman scattering substrates based on filter paper loaded with plasmonic nanostructures CH Lee, ME Hankus, L Tian, PM Pellegrino, S Singamaneni Analytical chemistry 83 (23), 8953-8958, 2011 | 311 | 2011 |
Polydopamine-filled bacterial nanocellulose as a biodegradable interfacial photothermal evaporator for highly efficient solar steam generation Q Jiang, HG Derami, D Ghim, S Cao, YS Jun, S Singamaneni Journal of Materials Chemistry A 5 (35), 18397-18402, 2017 | 298 | 2017 |
Probing soft matter with the atomic force microscopies: imaging and force spectroscopy ME McConney, S Singamaneni, VV Tsukruk Polymer Reviews 50 (3), 235-286, 2010 | 253 | 2010 |
Microneedle patch for the ultrasensitive quantification of protein biomarkers in interstitial fluid Z Wang, J Luan, A Seth, L Liu, M You, P Gupta, P Rathi, Y Wang, S Cao, ... Nature Biomedical Engineering 5 (1), 64-76, 2021 | 248 | 2021 |
Advances in solar evaporator materials for freshwater generation S Cao, Q Jiang, X Wu, D Ghim, HG Derami, PI Chou, YS Jun, ... Journal of Materials Chemistry A 7 (42), 24092-24123, 2019 | 233 | 2019 |
Plasmonic planet–satellite analogues: hierarchical self-assembly of gold nanostructures N Gandra, A Abbas, L Tian, S Singamaneni Nano letters 12 (5), 2645-2651, 2012 | 231 | 2012 |
Bimaterial microcantilevers as a hybrid sensing platform S Singamaneni, MC LeMieux, HP Lang, C Gerber, Y Lam, S Zauscher, ... Advanced Materials 20 (4), 653-680, 2008 | 226 | 2008 |
Distance-dependent plasmon-enhanced fluorescence of upconversion nanoparticles using polyelectrolyte multilayers as tunable spacers AL Feng, ML You, L Tian, S Singamaneni, M Liu, Z Duan, TJ Lu, F Xu, ... Scientific reports 5 (1), 7779, 2015 | 222 | 2015 |
3D printed programmable release capsules MK Gupta, F Meng, BN Johnson, YL Kong, L Tian, YW Yeh, N Masters, ... Nano letters 15 (8), 5321-5329, 2015 | 194 | 2015 |
Cellulose nanomaterials in interfacial evaporators for desalination: a “natural” choice S Cao, P Rathi, X Wu, D Ghim, YS Jun, S Singamaneni Advanced Materials 33 (28), 2000922, 2021 | 188 | 2021 |
Multifunctional analytical platform on a paper strip: separation, preconcentration, and subattomolar detection A Abbas, A Brimer, JM Slocik, L Tian, RR Naik, S Singamaneni Analytical chemistry 85 (8), 3977-3983, 2013 | 185 | 2013 |
Plasmonic biofoam: a versatile optically active material L Tian, J Luan, KK Liu, Q Jiang, S Tadepalli, MK Gupta, RR Naik, ... Nano letters 16 (1), 609-616, 2016 | 183 | 2016 |
Biopolymeric photonic structures: design, fabrication, and emerging applications R Xiong, J Luan, S Kang, C Ye, S Singamaneni, VV Tsukruk Chemical Society Reviews 49 (3), 983-1031, 2020 | 177 | 2020 |