| MoS2/Graphene Composite Paper for Sodium-Ion Battery Electrodes L David, R Bhandavat, G Singh ACS nano 8 (2), 1759-1770, 2014 | 1310 | 2014 |
| Synthesis of Surface Functionalized WS2 Nanosheets and Performance as Li-ion Battery Anode R Bhandavat, L David, G Singh The Journal of Physical Chemistry Letters, 2012 | 431 | 2012 |
| Silicon oxycarbide glass-graphene composite paper electrode for long-cycle lithium-ion batteries L David, R Bhandavat, U Barrera, G Singh Nature communications 7 (1), 1-10, 2016 | 380 | 2016 |
| Reduced graphene oxide paper electrode: opposing effect of thermal annealing on Li and Na cyclability L David, G Singh The Journal of Physical Chemistry C 118 (49), 28401-28408, 2014 | 194 | 2014 |
| Beyond graphene anode materials for emerging metal ion batteries and supercapacitors S Mukherjee, Z Ren, G Singh Nano-micro letters 10, 1-27, 2018 | 125 | 2018 |
| 3D printed MXene aerogels with truly 3D macrostructure and highly engineered microstructure for enhanced electrical and electrochemical performance H Tetik, J Orangi, G Yang, K Zhao, SB Mujib, G Singh, M Beidaghi, D Lin Advanced Materials 34 (2), 2104980, 2022 | 118 | 2022 |
| Stable and efficient Li-ion battery anodes prepared from polymer-derived silicon oxycarbide–carbon nanotube shell/core composites R Bhandavat, G Singh The Journal of Physical Chemistry C 117 (23), 11899-11905, 2013 | 118 | 2013 |
| Polymer-Derived Ceramic Functionalized MoS2 Composite Paper as a Stable Lithium-Ion Battery Electrode L David, R Bhandavat, U Barrera, G Singh Scientific reports 5 (1), 9792, 2015 | 117 | 2015 |
| Two-dimensional anode materials for non-lithium metal-ion batteries S Mukherjee, G Singh ACS Applied Energy Materials 2 (2), 932-955, 2019 | 116 | 2019 |
| TMDs beyond MoS2 for Electrochemical Energy Storage DM Soares, S Mukherjee, G Singh Chemistry–A European Journal 26 (29), 6320-6341, 2020 | 88 | 2020 |
| Electrode Materials for High-Performance Sodium-Ion Batteries S Mukherjee, SB Mujib, D Soares, G Singh Materials, 2019 | 82 | 2019 |
| High-temperature properties and applications of Si-based polymer-derived ceramics: a review Z Ren, SB Mujib, G Singh Materials 14 (3), 614, 2021 | 80 | 2021 |
| Beaded manganese oxide (Mn 2 O 3) nanofibers: preparation and application for capacitive energy storage MS Kolathodi, SNH Rao, TS Natarajan, G Singh Journal of Materials Chemistry A 4 (20), 7883-7891, 2016 | 73 | 2016 |
| Very high laser-damage threshold of polymer-derived Si (B) CN-carbon nanotube composite coatings R Bhandavat, A Feldman, C Cromer, J Lehman, G Singh ACS Applied Materials & Interfaces 5 (7), 2354-2359, 2013 | 67 | 2013 |
| In vitro and in vivo studies of single-walled carbon nanohorns with encapsulated metallofullerenes and exohedrally functionalized quantum dots J Zhang, J Ge, MD Shultz, E Chung, G Singh, C Shu, PP Fatouros, ... Nano letters 10 (8), 2843-2848, 2010 | 67 | 2010 |
| Improved electrochemical capacity of precursor-derived Si (B) CN-carbon nanotube composite as Li-ion battery anode R Bhandavat, G Singh ACS applied materials & interfaces 4 (10), 5092-5097, 2012 | 66 | 2012 |
| Facile synthesis and high rate capability of silicon carbonitride/boron nitride composite with a sheet-like morphology L David, S Bernard, C Gervais, P Miele, G Singh The Journal of Physical Chemistry C 119 (5), 2783-2791, 2015 | 58 | 2015 |
| Synthesis and electrochemical performance of a polymer-derived silicon oxycarbide/boron nitride nanotube composite MA Abass, AA Syed, C Gervais, G Singh Rsc Advances 7 (35), 21576-21584, 2017 | 55 | 2017 |
| Molecular polymer-derived ceramics for applications in electrochemical energy storage devices S Mukherjee, Z Ren, G Singh Journal of Physics D: Applied Physics 51 (46), 463001, 2018 | 53 | 2018 |
| Synthesis of polymer-derived ceramic Si (B) CN-carbon nanotube composite by microwave-induced interfacial polarization R Bhandavat, W Kuhn, E Mansfield, J Lehman, G Singh ACS applied materials & interfaces 4 (1), 11-16, 2012 | 50 | 2012 |
