Journal of the Korean Society of Mineral and Energy Resources Engineers ISSN:2288-0291(Print) 2288-2790(Online) 한국자원공학회지

Aptera, 2025.01.10., https://aptera.us/vehicle/

Baek, J. and Choi, Y., 2022a. An experimental study on performance evaluation of shading matrix to select optimal parking space for solar-powered electric vehicles, Sustainability, 14(22), 14922.

Baek, J. and Choi, Y., 2022b. Comparative study on shading database construction for urban roads using 3D models and fisheye images for efficient operation of solar-powered electric vehicles, Energies, 15(21), 8228.

Baek, J. and Choi, Y., 2023. Optimal installation and operation planning of parking spaces for solar-powered electric vehicles using hemispherical images, Renewable Energy, 219, 119444.

Cabrane, Z., Batool, D., Kim, J., and Yoo, K., 2020. Design and simulation studies of battery-supercapacitor hybrid energy storage system for improved performances of traction system of solar vehicle, Journal of Energy Storage, 32, 101943.

Choi, S.W., Seo, J.W., Park, B., Hwang, S., Kim, Y., Song, P., Shin, M., and Kwon, J.D., 2023. Flexible multi-layered coloring transparent electrode composed of AZO-based materials, Chemical Engineering Journal, 473, 145226.

Choi, Y., Kang, B., Kang, M., Kim, M., Lee, S., Han, S., Ha, W., Lee, S.W., and Ahn, S., 2021. Analysis of optimal location for campus solar-powered electric vehicle parking lots using a fisheye lens camera, Journal of the Korean Society of Mineral and Energy Resources Engineers, 58(4), p.307-318.

Commault, B., Duigou, T., Maneval, V., Gaume, J., Chabuel, F., and Voroshazi, E., 2021. Overview and perspectives for vehicle-integrated photovoltaics. Applied Sciences, 11(24), 11598.

CSEM, 2025.01.10., https://www.csem.ch/en/press/the-first-100-self-powered-campervan-embarks-on-its-swiss-tour-on-june-14/

Hong, J., Baek, J., and Choi, Y., 2023. Development of parking space analysis system for solar electric vehicle using 360 VR camera, Journal of the Korean Solar Energy Society, 43(3), p.11-30.

IEA, 2025.01.10., https://iea.blob.core.windows.net/assets/a9e3544b-0b12-4e15-b407-65f5c8ce1b5f/GlobalEVOutlook2024.pdf

Kim, H., Ku, J., Kim, S.M., and Park, H.D., 2022. A new GIS-based algorithm to estimate photovoltaic potential of solar train: Case study in Gyeongbu line, Korea, Renewable Energy, 190, p.713-729.

Kim, S., Holz, M., Park, S., Yoon, Y., Cho, E. and Yi, J., 2021a. Future options for lightweight photovoltaic modules in electrical passenger cars, Sustainability, 13(5), 2532.

Kim, S., Park, H., Pham, D.P., Kim, Y., Kim, S., Cho, E.C., Cho, Y., and Yi, J., 2021b. Design of front emitter layer for improving efficiency in silicon heterojunction solar cells via numerical calculations, Optik, 242, 16656.

Ku, J. and Park, H.D., 2024. Comparison of urban environment factors for solar-powered vehicles, The International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences, 48, p.283-288.

Ku, J., Kim, S.M., and Park, H.D., 2024. Energy-saving path planning navigation for solar-powered vehicles considering shadows, Renewable Energy, 236, 121424.

Lightyear, 2025.01.10., https://lightyear.one/

Oh, M., Kim, S.M., and Park, H.D., 2020. Estimation of photovoltaic potential of solar bus in an urban area: Case study in Gwanak, Seoul, Korea, Renewable Energy, 160, p.1335-1348.

OpenPR, 2025.01.10., https://www.openpr.com/news/2035028/solar-car-market-growth-to-hit-4-087-6-million-by-2030-solar

Park, C., Park, H., Jeon, H., Choi, K., and Suh, J., 2023. Evaluation and validation of photovoltaic potential based on time and pathway of solar-powered electric vehicle, Applied Sciences, 13(2), 1025.

Pochont, N.R. and Sekhar, Y.R., 2023. Recent trends in photovoltaic technologies for sustainable transportation in passenger vehicles - a review, Renewable and Sustainable Energy Reviews, 181, 113317.

PwC, 2025.01.10., https://www.pwc.com/kr/ko/insights/industry-focus/samilpwc_electric-car-chasm.pdf

Samadi, H., Ala, G., Lo Brano, V., Romano, P., and Viola, F., 2023. Investigation of effective factors on vehicles integrated photovoltaic (VIPV) performance: a review, World Electric Vehicle Journal, 14(6), 154.

Shin, M.J., Lee, A., Park, J.H., Cho, A., Ahn, S.K., Shin, D., Gwak, J., Yun, J.H., You, J., and Cho, J.S., 2022. Ultrathin Cu(In,Ga)Se2 transparent photovoltaics: an alternative to conventional solar energy-harvesting windows, Nano Energy, 92, 106711.

Suh, J., 2024. Estimation of photovoltaic potential of solar-powered electric vehicle: Case study of commuters on Donghae expressway, Korea, Applied Sciences, 14(15), 6574.

Suh, J., 2025. Economic analysis of a solar roof as an optional extra to electric vehicles in Korea: A case study, Renewable Energy, 239, 122098.

Tsakalidis, A., Thiel, C., and Jäger-Waldau, A., 2025. Can solar electric vehicles disrupt mobility? A critical literature review, Renewable and Sustainable Energy Reviews, 211, 115289.

Vu, H., Vu, N.H., and Shin, S., 2022. Static concentrator photovoltaics module for electric vehicle applications based on compound parabolic concentrator, Energies, 15(19), 6951.

Yun, M.J., Sim, Y.H., Lee, D.Y., and Cha, S.I., 2022. Reliable Lego^®-style assembled stretchable photovoltaic module for 3-dimensional curved surface application, Applied Energy, 323, 118110.