| Use of electrospinning technique for biomedical applications S Agarwal, JH Wendorff, A Greiner Polymer 49 (26), 5603-5621, 2008 | 2286 | 2008 |
| Functional materials by electrospinning of polymers S Agarwal, A Greiner, JH Wendorff Progress in Polymer Science 38 (6), 963-991, 2013 | 1051 | 2013 |
| Polymers with upper critical solution temperature in aqueous solution J Seuring, S Agarwal Macromolecular rapid communications 33 (22), 1898-1920, 2012 | 639 | 2012 |
| Progress in the field of electrospinning for tissue engineering applications S Agarwal, JH Wendorff, A Greiner Advanced Materials 21 (32‐33), 3343-3351, 2009 | 617 | 2009 |
| Electrospun nanofiber reinforced composites: A review S Jiang, Y Chen, G Duan, C Mei, A Greiner, S Agarwal Polymer Chemistry 9 (20), 2685-2720, 2018 | 541 | 2018 |
| Electrospinning: materials, processing, and applications JH Wendorff, S Agarwal, A Greiner John Wiley & Sons, 2012 | 479 | 2012 |
| PDMAEMA based gene delivery materials S Agarwal, Y Zhang, S Maji, A Greiner Materials Today 15 (9), 388-393, 2012 | 357 | 2012 |
| Electrospun and solution blown three-dimensional carbon fiber nonwovens for application as electrodes in microbial fuel cells S Chen, H Hou, F Harnisch, SA Patil, AA Carmona-Martinez, S Agarwal, ... Energy & Environmental Science 4 (4), 1417-1421, 2011 | 349 | 2011 |
| Fate of so‐called biodegradable polymers in seawater and freshwater AR Bagheri, C Laforsch, A Greiner, S Agarwal Global Challenges 1 (4), 1700048, 2017 | 337 | 2017 |
| Bio-based polycarbonate from limonene oxide and CO 2 with high molecular weight, excellent thermal resistance, hardness and transparency O Hauenstein, M Reiter, S Agarwal, B Rieger, A Greiner Green chemistry 18 (3), 760-770, 2016 | 325 | 2016 |
| Biocompatible, thermoresponsive, and biodegradable: simple preparation of “all-in-one” biorelevant polymers JF Lutz, J Andrieu, S Üzgün, C Rudolph, S Agarwal Macromolecules 40 (24), 8540-8543, 2007 | 314 | 2007 |
| First example of a universal and cost-effective approach: Polymers with tunable upper critical solution temperature in water and electrolyte solution J Seuring, S Agarwal Macromolecules 45 (9), 3910-3918, 2012 | 309 | 2012 |
| Electrospinning of manmade and biopolymer nanofibers—progress in techniques, materials, and applications S Agarwal, A Greiner, JH Wendorff Advanced functional materials 19 (18), 2863-2879, 2009 | 300 | 2009 |
| Unusual and Superfast Temperature-Triggered Actuators. S Jiang, F Liu, A Lerch, L Ionov, S Agarwal Advanced Materials (Deerfield Beach, Fla.) 27 (33), 4865-4870, 2015 | 292 | 2015 |
| Bio-based polycarbonate as synthetic toolbox O Hauenstein, S Agarwal, A Greiner Nature communications 7 (1), 11862, 2016 | 290 | 2016 |
| Upper Critical Solution Temperature of Poly(N-acryloyl glycinamide) in Water: A Concealed Property J Seuring, FM Bayer, K Huber, S Agarwal Macromolecules 45 (1), 374-384, 2012 | 271 | 2012 |
| Polymers with upper critical solution temperature in aqueous solution: Unexpected properties from known building blocks J Seuring, S Agarwal ACS Macro Letters 2 (7), 597-600, 2013 | 258 | 2013 |
| Controlled antibody/(bio-) conjugation of inorganic nanoparticles for targeted delivery JM Montenegro, V Grazu, A Sukhanova, S Agarwal, JM de la Fuente, ... Advanced drug delivery reviews 65 (5), 677-688, 2013 | 248 | 2013 |
| On the way to clean and safe electrospinning—green electrospinning: emulsion and suspension electrospinning S Agarwal, A Greiner Polymers for Advanced Technologies 22 (3), 372-378, 2011 | 242 | 2011 |
| Biodegradable polymers: Present opportunities and challenges in providing a microplastic‐free environment S Agarwal Macromolecular Chemistry and Physics 221 (6), 2000017, 2020 | 235 | 2020 |