[Ali, S., Ying, L., Shah, T., Tariq, A., Ali Chandio, A., & Ali, I. (2019). Analysis of the Nexus of CO2 Emissions, Economic Growth, Land under Cereal Crops and Agriculture Value-Added in Pakistan Using an ARDL Approach. Energies, 12(23), 4590.10.3390/en12234590]Search in Google Scholar
[Barker, T., Ekins, P., & Foxon, T. (2007). The macro-economic rebound effect and the UK economy. Energy Policy, 35(10), 4935-4946.10.1016/j.enpol.2007.04.009]Search in Google Scholar
[Bell, C. J. (2014). Understanding the true benefits of both energy efficiency and job creation. Community Development Investment Review, 10(1), 109-116.]Search in Google Scholar
[Bertoldi, P., & Mosconi, R. (2020). Do energy efficiency policies save energy? A new approach based on energy policy indicators (in the EU Member States). Energy Policy, 139, 111-320.10.1016/j.enpol.2020.111320]Search in Google Scholar
[Chang, M. C., & Shieh, H. S. (2017). The Relations Between Energy Efficiency And GDP In The Baltic Sea Region And Non-Baltic Sea Region. Transformations in Business & Economics, 16(2).]Search in Google Scholar
[Cornillie, J., & Fankhauser, S. (2004). The energy intensity of transition countries. Energy Economics, 26(3), 283-295.10.1016/j.eneco.2004.04.015]Search in Google Scholar
[Deichmann, U., Reuter, A., Vollmer, S., & Zhang, F. (2018). Relationship between energy intensity and economic growth: new evidence from a multi-country multi-sector data set. The World Bank.10.1596/1813-9450-8322]Search in Google Scholar
[deLlano-Paz, F., Fernandez, P. M., & Soares, I. (2016). Addressing 2030 EU policy framework for energy and climate: Cost, risk and energy security issues. Energy, 115, 1347-1360.10.1016/j.energy.2016.01.068]Search in Google Scholar
[Econometrics, C. (2015). Assessing the employment and social impact of energy efficiency. Cambridge Econometrics.]Search in Google Scholar
[EEA –European Environment Agency (2019). Progress on energy efficiency in Europe. Indicator Assessment. European Environment Agency Retrieved from https://www.eea.europa.eu/data-and-maps/indicators/progress-on-energy-efficiency-in-europe-3/assessment]Search in Google Scholar
[European Commission (2020). 2030 climate and energy framework. Energy, Climate change, Environment. Dostupno na https://ec.europa.eu/clima/policies/strategies/2030_en]Search in Google Scholar
[European Commission (EC). (2010). EUROPE 2020: A strategy for smart, sustainable and inclusive growth. Working paper {COM (2010) 2020}.]Search in Google Scholar
[European Parliament (2015). Understanding energy efficiency. Briefing.October 2015]Search in Google Scholar
[Eurostat (2020). Energy consumption in 2018. Eurostat newsrelease. Retrieved from https://ec.europa.eu/eurostat/documents/2995521/10341545/8-04022020-BPEN.pdf/39dcc365-bdaa-e6f6-046d-1b4d241392ad]Search in Google Scholar
[Fawcett, T., & Killip, G. (2019). Re-thinking energy efficiency in European policy: Practitioners’ use of ‘multiple benefits’ arguments. Journal of cleaner production, 210, 1171-1179.10.1016/j.jclepro.2018.11.026]Search in Google Scholar
[Gillingham, K., Rapson, D., & Wagner, G. (2016). The rebound effect and energy efficiency policy. Review of Environmental Economics and Policy, 10(1), 68-88.10.1093/reep/rev017]Search in Google Scholar
[Goldemberg, J. (2020). The evolution of the energy and carbon intensities of developing countries. Energy Policy, 137, 111060.10.1016/j.enpol.2019.111060]Search in Google Scholar
[Gvozdenac-Urošević, B. (2010). Energy efficiency and GDP. Thermal Science, 14(3), 799-808.10.2298/TSCI100505006G]Search in Google Scholar
[Hartwig, J., Kockat, J., Schade, W., & Braungardt, S. (2017). The macroeconomic effects of ambitious energy efficiency policy in Germany – Combining bottom-up energy modeling with a non-equilibrium macroeconomic model. Energy, 124, 510-520.10.1016/j.energy.2017.02.077]Search in Google Scholar
[Herring, H. (2006). Energy efficiency — a critical view. Energy, 31(1), 10-20.10.1016/j.energy.2004.04.055]Search in Google Scholar
[Holmes, I., & Mohanty, R. (2012). The Macroeconomic Benefits of Energy Efficiency. Third Generation Environmentalism Ltd (E3G), London, UK.]Search in Google Scholar
[IEA (2019). Energy efficiency 2019 – The authoritative tracker of global energy efficiency trends. Report. November 2019 Retrieved from https://www.iea.org/reports/energy-efficiency-2019]Search in Google Scholar
[IEA. (2019a). Multiple benefits of Energy Efficiency: from “hidden fuel” to “first fuel”. IEA, Paris, 2019. Retrieved from https://www.iea.org/reports/multiple-benefits-of-energy-efficiency (accessed on 9.5.2020).]Search in Google Scholar
[Janssen, R., & Staniaszek, D. (2012). How Many Jobs? A survey of the employment effects of investment in Energy Efficiency of Buildings. In The Energy Efficiency Industrial Forum.]Search in Google Scholar
[Jednak, S., Kragulj, D., Bulajic, M., & Pittman, R. (2009). Electricity reform in Serbia. Utilities Policy, 17(1), 125-133.10.1016/j.jup.2008.02.002]Search in Google Scholar
[Joelsson, A. (2008). Primary energy efficiency and CO2 mitigation in residential buildings (Doctoral dissertation, Mid Sweden University).]Search in Google Scholar
[Kaufmann, R. K. (2004). The mechanisms for autonomous energy efficiency increases: A cointegration analysis of the US energy/GDP ratio. The Energy Journal, 25(1).10.5547/ISSN0195-6574-EJ-Vol25-No1-4]Search in Google Scholar
[Kerr, N., Gouldson, A., & Barrett, J. (2017). The rationale for energy efficiency policy: Assessing the recognition of the multiple benefits of energy efficiency retrofit policy. Energy Policy, 106, 212-221.10.1016/j.enpol.2017.03.053]Search in Google Scholar
[Knoop, K., & Lechtenböhmer, S. (2017). The potential for energy efficiency in the EU Member States – A comparison of studies. Renewable and Sustainable Energy Reviews, 68, 1097-1105.10.1016/j.rser.2016.05.090]Search in Google Scholar
[Krstić, J., Reljić, M., & Filipović, S. (2018). Factors influencing electricity consumption: a review of research methods. Management: Journal of Sustainable Business and Management Solutions in Emerging Economies, 24(2), 13-22.10.7595/management.fon.2018.0021]Search in Google Scholar
[Liobikienė, G., & Mandravickaitė, J. (2016). The EU Cohesion Policy implications to GHG emissions from production-based perspective. Environmental Science & Policy, 55, 178-185.10.1016/j.envsci.2015.10.007]Search in Google Scholar
[Malinauskaite, J., Jouhara, H., Ahmad, L., Milani, M., Montorsi, L., & Venturelli, M. (2019). Energy efficiency in industry: EU and national policies in Italy and the UK. Energy, 172, 255-269.10.1016/j.energy.2019.01.130]Search in Google Scholar
[Markandya, A., Pedroso-Galinato, S., & Streimikiene, D. (2006). Energy intensity in transition economies: is there convergence towards the EU average?. Energy Economics, 28(1), 121-145.10.1016/j.eneco.2005.10.005]Search in Google Scholar
[Marković, D., Furtula, S., & Jovković, B. (2013). Finansijski podsticaji energetskoj efikasnosti u državama EU i Srbiji. Ekonomske teme, 51(3), 561-578.]Search in Google Scholar
[Nagesha, N., & Subrahmanya, M. B. (2006). Energy efficiency for sustainable development of small industry clusters: what factors influence it?. International Journal of Economic Policy Studies, 1(1), 133-153.10.1007/BF03405694]Search in Google Scholar
[Petrović, P., Filipović, S., & Radovanović, M. (2018). Underlying causal factors of the European Union energy intensity: Econometric evidence. Renewable and Sustainable Energy Reviews, 89, 216-227.10.1016/j.rser.2018.03.061]Search in Google Scholar
[Reddy, B. S., & Ray, B. K. (2010). Decomposition of energy consumption and energy intensity in Indian manufacturing industries. Energy for Sustainable Development, 14(1), 35-47.10.1016/j.esd.2009.12.001]Search in Google Scholar
[Rosenow, J., & Bayer, E. (2017). Costs and benefits of energy efficiency obligations: a review of European programmes. Energy Policy, 107, 53-62.10.1016/j.enpol.2017.04.014]Search in Google Scholar
[Ryan, L., & Campbell, N. (2012). Spreading the net: the multiple benefits of energy efficiency improvements. OECD.]Search in Google Scholar
[Ryan, L., & Campbell, N. (2012). Spreading the net: the multiple benefits of energy efficiency improvements.]Search in Google Scholar
[Saad, W., & Taleb, A. (2018). The causal relationship between renewable energy consumption and economic growth: evidence from Europe. Clean Technologies and Environmental Policy, 20(1), 127-136.10.1007/s10098-017-1463-5]Search in Google Scholar
[Sadorsky, P. (2013). Do urbanization and industrialization affect energy intensity in developing countries?. Energy Economics, 37, 52-59.10.1016/j.eneco.2013.01.009]Search in Google Scholar
[Safarzadeh, S., & Rasti-Barzoki, M. (2019). A game theoretic approach for assessing residential energy-efficiency program considering rebound, consumer behavior, and government policies. Applied energy, 233, 44-61.10.1016/j.apenergy.2018.10.032]Search in Google Scholar
[Sathitbun-anan, S., Fungtammasan, B., Barz, M., Sajjakulnukit, B., & Pathumsawad, S. (2014). Energy efficiency and greenhouse gas emission reduction potentials in sugar production processes in Thailand. Energy for Sustainable Development, 23, 266-274.10.1016/j.esd.2014.09.010]Search in Google Scholar
[Siitonen, S., Tuomaala, M., Suominen, M., & Ahtila, P. (2010). Implications of process energy efficiency improvements for primary energy consumption and CO2 emissions at the national level. Applied Energy, 87(9), 2928-2937.10.1016/j.apenergy.2009.09.024]Search in Google Scholar
[Sorrell, S. (2015). Reducing energy demand: A review of issues, challenges and approaches. Renewable and Sustainable Energy Reviews, 47, 74-82.10.1016/j.rser.2015.03.002]Search in Google Scholar
[Stanišić N. (2018). Makroekonomske koristi od unapređenja energetske efikasnosti u stambenim zgradama u Srbiji. GIZ]Search in Google Scholar
[Stanišić N. (2018). Study on the Macroeconomic Impacts of Energy Efficiency Measures in Schools and Kindergartens in Serbia. GIZ]Search in Google Scholar
[Stošić, I., & Minović, J. (2014). Benchmarking western Balkan economies. Industrija, 42(1), 149-170.10.5937/industrija42-5276]Search in Google Scholar
[Su, B., & Ang, B. W. (2012). Structural decomposition analysis applied to energy and emissions: some methodological developments. Energy Economics, 34(1), 177-188.10.1016/j.eneco.2011.10.009]Search in Google Scholar
[The third Action Plan for Energy Efficiency of the Republic of Serbia for the period until 2018 (2017). Official Gazette of RS”, No. 1/17 of January 6, 2017.]Search in Google Scholar
[Tracking Report (2019). Tracking Industry. IEA https://www.iea.org/reports/tracking-industry-2019]Search in Google Scholar
[Trianni, A., Cagno, E., & Farné, S. (2016). Barriers, drivers and decision-making process for industrial energy efficiency: A broad study among manufacturing small and medium-sized enterprises. Applied Energy, 162, 1537-1551.10.1016/j.apenergy.2015.02.078]Search in Google Scholar
[Wade, J., Wiltshire, V., & Crase, I. (2000). National and local employment impacts of energy efficiency investment programmes. Final report to the European Commission, 1.]Search in Google Scholar
[Wei, M., Patadia, S., & Kammen, D. M. (2010). Putting renewables and energy efficiency to work: How many jobs can the clean energy industry generate in the US?. Energy policy, 38(2), 919-931.10.1016/j.enpol.2009.10.044]Search in Google Scholar
[Zhang, S., Ren, H., Zhou, W., Yu, Y., & Chen, C. (2018). Assessing air pollution abatement co-benefits of energy efficiency improvement in cement industry: A city level analysis. Journal of Cleaner Production, 185, 761-771.10.1016/j.jclepro.2018.02.293]Search in Google Scholar
[Zhao, H., Guo, S., & Zhao, H. (2019). Provincial energy efficiency of China quantified by three-stage data envelopment analysis. Energy, 166, 96-107.10.1016/j.energy.2018.10.063]Search in Google Scholar
[Zweifel, P., Praktiknjo, A., & Erdmann, G. (2017). Energy economics: theory and applications. Springer.10.1007/978-3-662-53022-1]Search in Google Scholar