This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.
Al-Saadi, M., Olmos, J., Saez-de-Ibarra, A., Mierlo, J. V. and Berecibar, M. 2022. Fast charging impact on the lithium-ion batteries’ lifetime and cost-effective battery sizing in heavy-duty electric vehicles applications. Energies 15 (4): 1278.Al-SaadiM.OlmosJ.Saez-de-IbarraA.MierloJ. V.BerecibarM.2022Fast charging impact on the lithium-ion batteries’ lifetime and cost-effective battery sizing in heavy-duty electric vehicles applications154127810.3390/en15041278Search in Google Scholar
Arribas-Ibar, M., Nylund, P. A. and Brem, A. 2021. The risk of dissolution of sustainable innovation ecosystems in times of crisis: the electric vehicle during the COVID-19 pandemic. Sustainability 13 (3): 1319.Arribas-IbarM.NylundP. A.BremA.2021The risk of dissolution of sustainable innovation ecosystems in times of crisis: the electric vehicle during the COVID-19 pandemic133131910.3390/su13031319Search in Google Scholar
Atkar, D., Pradyumn Chaturvedi, H. M., Suryawanshi, P., Nachankar, D. Y. and Krishna, S. 2020. Solid State Transformer for Electric Vehicle Charging Infrastructure. In: 2020 IEEE International Conference on Power Electronics, Smart Grid and Renewable Energy (PESGRE2020), pp. 1–6, IEEE.AtkarD.Pradyumn ChaturvediH. M.SuryawanshiP.NachankarD. Y.KrishnaS.2020In:2020 IEEE International Conference on Power Electronics, Smart Grid and Renewable Energy (PESGRE2020)16IEEE.10.1109/PESGRE45664.2020.9070447Search in Google Scholar
Bose, P. and Sivraj, P. 2020. Smart Charging Infrastructure for Electric Vehicles in a Charging Station. In 2020 4th International Conference on Intelligent Computing and Control Systems (ICICCS), pp. 186–192. IEEE.BoseP.SivrajP.2020In2020 4th International Conference on Intelligent Computing and Control Systems (ICICCS)186192IEEE.10.1109/ICICCS48265.2020.9121010Search in Google Scholar
Chakraborty, S., Vu, H-N, Hasan, M. M., Tran, D-D, El, B.M. and Hegazy, O. 2019. DC-DC converter topologies for electric vehicles, plug-in hybrid electric vehicles and fast charging stations: state of the art and future trends. Energies 12. Available at: https://doi.org/10.3390/en12081569.ChakrabortyS.VuH-NHasanM. M.TranD-DElB.M.HegazyO.2019DC-DC converter topologies for electric vehicles, plug-in hybrid electric vehicles and fast charging stations: state of the art and future trends12Available at: https://doi.org/10.3390/en12081569.10.3390/en12081569Search in Google Scholar
Chau, K. T. and Chan, C. C. 2007. Emerging energy-efficient technologies for hybrid electric vehicles. Proc IEEE 95:821–835.ChauK. T.ChanC. C.2007Emerging energy-efficient technologies for hybrid electric vehicles9582183510.1109/JPROC.2006.890114Search in Google Scholar
Comparing All Cars Details. 2020. Available at https://www.zigwheels.com/compare-cars. (Accessed December 13, 2020).2020Available at https://www.zigwheels.com/compare-cars. (Accessed December 13, 2020).Search in Google Scholar
Dost, P. K.-H., Spichartz, P. and Sourkounis, C. 2018. Charging behavior of users utilizing battery electric vehicles and extended range electric vehicles within the scope of a field test. IEEE Trans Ind Appl 54:580–590.DostP. K.-H.SpichartzP.SourkounisC.2018Charging behavior of users utilizing battery electric vehicles and extended range electric vehicles within the scope of a field test5458059010.1109/TIA.2017.2758753Search in Google Scholar
Electric Car Details and Specification. 2020. at https://ev-database.org/#sort:path~type~order=.rank~number~desc|range-slider-range:prev~next=0~1200|range-slider-acceleration:prev~next=2~23|range-slider-topspeed:prev~next=110~450|range-slider-battery:prev~next=10~200|range-slider-eff:prev~next=100~300|range-slider-fastcharge:prev~next=0~1500|paging:currentPage=0|paging:number=3.2020at https://ev-database.org/#sort:path~type~order=.rank~number~desc|range-slider-range:prev~next=0~1200|range-slider-acceleration:prev~next=2~23|range-slider-topspeed:prev~next=110~450|range-slider-battery:prev~next=10~200|range-slider-eff:prev~next=100~300|range-slider-fastcharge:prev~next=0~1500|paging:currentPage=0|paging:number=3.Search in Google Scholar
Fontaras, G., Grigoratos, T., Savvidis, D., Anagnostopoulos, K., Luz, R. and Rexeis, M., et al. 2016. An experimental evaluation of the methodology proposed for the monitoring and certification of CO2 emissions from heavy-duty vehicles in Europe. Energy 102:354–364.FontarasG.GrigoratosT.SavvidisD.AnagnostopoulosK.LuzR.RexeisM.2016An experimental evaluation of the methodology proposed for the monitoring and certification of CO2 emissions from heavy-duty vehicles in Europe10235436410.1016/j.energy.2016.02.076Search in Google Scholar
Frieske, B., Kloetzke, M. and Mauser, F. 2013. Trends in Vehicle Concept and Key Technology Development for Hybrid and Battery Electric Vehicles. In 2013 World Electric Vehicle Symposium and Exhibition (EVS27), pp. 1–12. IEEE.FrieskeB.KloetzkeM.MauserF.2013In2013 World Electric Vehicle Symposium and Exhibition (EVS27)112IEEE.10.1109/EVS.2013.6914783Search in Google Scholar
Gnann, T., Funke, S., Jakobsson, N., Plötz, P., Sprei, F. and Bennehag, A. 2018. Fast charging infrastructure for electric vehicles: today's situation and future needs. Transportation Research Part D: Transport and Environment 62:314–329.GnannT.FunkeS.JakobssonN.PlötzP.SpreiF.BennehagA.2018Fast charging infrastructure for electric vehicles: today's situation and future needs6231432910.1016/j.trd.2018.03.004Search in Google Scholar
Hrbac, R., Kolar, V. and Hrdina, L. 2019. Bidirectional Charger With a High Power Density for Smart Grids. In 2019 20th International Scientific Conference on Electric Power Engineering (EPE), pp. 1–6. IEEE.HrbacR.KolarV.HrdinaL.2019In2019 20th International Scientific Conference on Electric Power Engineering (EPE)16IEEE.10.1109/EPE.2019.8778029Search in Google Scholar
OLA Electric. 2020. Available at https://blog.olacabs.com/introducing-ola-electric/. (Accessed December 15, 2020).2020Available at https://blog.olacabs.com/introducing-ola-electric/. (Accessed December 15, 2020).Search in Google Scholar
Islam, T., Mukhopadhyay, S. C. and Suryadevara, N. K. 2017. Smart sensors and internet of things: a postgraduate paper. IEEE Sensors Journal 17 (3): 577–588.IslamT.MukhopadhyayS. C.SuryadevaraN. K.2017Smart sensors and internet of things: a postgraduate paper17357758810.1109/JSEN.2016.2630124Search in Google Scholar
Kumar, L. and Jain, S. 2014. Electric propulsion system for electric vehicular technology: A review. Renew Sustain Energy Rev 29:924–940.KumarL.JainS.2014Electric propulsion system for electric vehicular technology: A review2992494010.1016/j.rser.2013.09.014Search in Google Scholar
Kumar, R. and Padmanaban, S. 2019. Electric vehicles for India: overview and challenges. IEEE India Informatics 14:139.KumarR.PadmanabanS.2019Electric vehicles for India: overview and challenges14139Search in Google Scholar
Maghfiroh, H., Chico H., Ibrahim, M.H. and Nizam, M. 2019. Low Cost Charging Station for Electric Vehicle: Design and Prototyping. In 2019 6th International Conference on Electric Vehicular Technology (ICEVT), pp. 20–24. IEEE.MaghfirohH.ChicoH.IbrahimM.H.NizamM.2019In2019 6th International Conference on Electric Vehicular Technology (ICEVT)2024IEEE.10.1109/ICEVT48285.2019.8994011Search in Google Scholar
Mali, B., Ashish Shrestha, A.C., Rajiv Bishwokarma, P.K. and Gonzalez-Longatt, F. 2022. Challenges in the penetration of electric vehicles in developing countries with a focus on Nepal. Renewable Energy Focus 40: 1–12.MaliB.Ashish ShresthaA.C.Rajiv BishwokarmaP.K.Gonzalez-LongattF.2022Challenges in the penetration of electric vehicles in developing countries with a focus on Nepal4011210.1016/j.ref.2021.11.003Search in Google Scholar
Mathieu, R., Olivier B., Philippe, G. and Vinassa, J.M. 2021. Comparison of the impact of fast charging on the cycle life of three lithium-ion cells under several parameters of charge protocol and temperatures. Applied Energy 283:116344.MathieuR.OlivierB.PhilippeG.VinassaJ.M.2021Comparison of the impact of fast charging on the cycle life of three lithium-ion cells under several parameters of charge protocol and temperatures28311634410.1016/j.apenergy.2020.116344Search in Google Scholar
Moschakis, M. N., Karfopoulos, E. L., Zountouridou, E. I. and Papathanassiou, S. A. 2012. On adaptation of electric vehicle and microgrid issues to emc-power quality standards. JElectr. Electron. Journal of Electrical and Electronic Engineering 2 (5): 249–257.MoschakisM. N.KarfopoulosE. L.ZountouridouE. I.PapathanassiouS. A.2012On adaptation of electric vehicle and microgrid issues to emc-power quality standards25249257Search in Google Scholar
Nair, S., Rao, N., Mishra, S. and Patil, A. 2017. India's Charging Infrastructure—Biggest Single Point Impediment in EV Adaptation in India. In 2017 IEEE transportation electrification conference (ITEC-India), pp. 1–6. IEEE.NairS.RaoN.MishraS.PatilA.2017In2017 IEEE transportation electrification conference (ITEC-India)16IEEE.10.1109/ITEC-India.2017.8333884Search in Google Scholar
Rezek, D. 2011. Gaining traction: Will consumers ride the electric vehicle wave.RezekD.2011Search in Google Scholar
Secretariat, U. 2011. Annual European Union greenhouse gas inventory 1990–2009 and inventory report 2011. 2013:20–21.SecretariatU.201120132021Search in Google Scholar
Shivanand, M. N., Maruthi, Y., Bobba, P.B. and Vuddanti, S. 2019. A case Study on Wired and Wireless Charger Standards in India for Electric Vehicle Application. In E3S Web of Conferences, Vol. 87, p. 01017. EDP Sciences.ShivanandM. N.MaruthiY.BobbaP.B.VuddantiS.2019InE3S Web of Conferences8701017EDP Sciences.10.1051/e3sconf/20198701017Search in Google Scholar
Spencer, T. and Awasthy, A. 2019. Analysing and projecting Indian electricity demand to 2030. The Energy and Resources Institute.SpencerT.AwasthyA.2019The Energy and Resources InstituteSearch in Google Scholar
Sutopo, W., Nizam, M., Rahmawatie, B. and Fahma, F. 2018. A Review of Electric Vehicles Charging Standard Development: Study Case in Indonesia. In 2018 5th International Conference on Electric Vehicular Technology (ICEVT), pp. 152–157. IEEE.SutopoW.NizamM.RahmawatieB.FahmaF.2018In2018 5th International Conference on Electric Vehicular Technology (ICEVT)152157IEEE.10.1109/ICEVT.2018.8628367Search in Google Scholar
Thiel, C., Perujo, A. and Mercier, A 2010. Cost and CO2 aspects of future vehicle options in Europe under new energy policy scenarios. Energy Policy 38: 7142–7151.ThielC.PerujoA.MercierA2010Cost and CO2 aspects of future vehicle options in Europe under new energy policy scenarios387142715110.1016/j.enpol.2010.07.034Search in Google Scholar
Tie, S. F. and Tan, C. W. 2013. A review of energy sources and energy management system in electric vehicles. Renew Sustain Energy Rev 20:82–102.TieS. F.TanC. W.2013A review of energy sources and energy management system in electric vehicles208210210.1016/j.rser.2012.11.077Search in Google Scholar
Wolfram, P. and Lutse, N. 2016. Electric vehicles: Literature review of technology costs and carbon emissions. The International Council on Clean Transportation, Washington, DC, USA, pp. 1–23.WolframP.LutseN.2016The International Council on Clean TransportationWashington, DC, USA123Search in Google Scholar
Zhang, F., Zhang, X., Zhang, M. and Edmondsa, A.S.E. 2016. Literature Review of Electric Vehicle Technology and Its Applications. In 2016 5th International Conference on Computer Science and Network Technology (ICCSNT), pp. 832–837. IEEE.ZhangF.ZhangX.ZhangM.EdmondsaA.S.E.2016In2016 5th International Conference on Computer Science and Network Technology (ICCSNT)832837IEEE.10.1109/ICCSNT.2016.8070276Search in Google Scholar