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1. Data center load modeling through optimal energy consumption characteristics: A path to simultaneously enhance energy efficiency and demand response quality. (2025). Zhou, Yongcheng ; Yu, Daren ; Liu, Jinfu ; Wang, Zhonghao ; Wei, Fanchao.
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2. An introduction to stochastic bin packing-based server consolidation with conflicts. (2022). Dargie, Waltenegus ; Hahnel, Markus ; Martinovic, John ; Scheithauer, Guntram.
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3. How ICT can contribute to realize a sustainable society in the future: a CGE approach. (2022). Tanaka, Yuriko ; Kanamori, Yuko ; Zhang, Xiaoxi ; Masui, Toshihiko ; Shinozuka, Machiko.
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4. ICT, carbon emissions, climate change, and energy demand nexus: the potential benefit of digitalization in Taiwan. (2022). Adha, Rishan ; Agrawal, Somya ; Li, Li-Hua ; Hong, Cheng-Yih.
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5. Review of the Impact of IT on the Environment and Solution with a Detailed Assessment of the Associated Gray Literature. (2022). Benjamin, Duthil ; Vincent, Courboulay ; Guillaume, Bourgeois.
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6. Energy Efficiency of Personal Computers: A Comparative Analysis. (2022). Lampert, Thomas ; Escobar, Juan Jose ; Gomez-Lopez, Juan Carlos ; Prieto, Beatriz ; Diaz, Antonio F.
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7. A Systematic Survey on Energy-Efficient Techniques in Sustainable Cloud Computing. (2022). , Theyazn ; Sharma, Sandeep ; Bharany, Salil ; Khalaf, Osamah Ibrahim ; Maashi, Mashael ; Alkahtani, Hasan ; Abdulsahib, Ghaida Muttashar ; al Humaimeedy, Abeer S.
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8. Can IT Resolve the Climate Crisis? Sketching the Role of an Anthropology of Digital Technology. (2022). Dalsgaard, Steffen.
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9. Household Ability of Expenditures on Electricity and Energy Resources in the Countries That Joined the EU after 2004. (2022). Kasprzak, Piotr ; Gomoka, Krystyna.
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10. Recent Advances in Two-Phase Immersion Cooling with Surface Modifications for Thermal Management. (2022). Lee, Sang-Eui ; Kim, Gildong ; Kang, Dae Hoon ; Yu, Choongho ; Chakraborty, Anirban.
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11. Harnessing Task Usage Prediction and Latency Sensitivity for Scheduling Workloads in Wind-Powered Data Centers. (2022). Sartori, Sabrina ; Osnes, Idun ; Jacobsen, Hans-Arno ; Eliassen, Frank ; Yazidi, Anis.
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12. The energy use implications of 5G: Reviewing whole network operational energy, embodied energy, and indirect effects. (2022). Foxon, Timothy ; Williams, Laurence ; Sovacool, Benjamin K.
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13. The electricity- and CO2-saving potentials offered by regulation of European video-streaming services. (2022). Madlener, Reinhard ; Briglauer, Wolfgang ; Sheykhha, Siamak.
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14. How does information and communication technology affect energy security? International evidence. (2022). Lee, Chien-Chiang ; Yuan, Zihao ; Wang, Qiaoru.
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15. Climate Protection Potentials of Digitalized Production Processes: Microeconometric Evidence. (2021). Niebel, Thomas ; Axenbeck, Janna.
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16. Digitalizing Higher Education in Light of Sustainability and Rebound Effects—Surveys in Times of the COVID-19 Pandemic. (2021). Ulber, Martin ; Arnold, Marlen Gabriele ; Vogel, Alina.
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17. Could Unsustainable Electronics Support Sustainability?. (2021). Pirson, Thibault ; Delhaye, Thibault ; Moreau, Nicolas ; Raskin, Jean-Pierre ; le Brun, Gregoire ; Sandu, Georgiana ; Bol, David ; Paris, Antoine.
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18. Strategies for Improving the Sustainability of Data Centers via Energy Mix, Energy Conservation, and Circular Energy. (2021). Ramakrishna, Seeram ; Manganelli, Matteo ; Martirano, Luigi ; Soldati, Alessandro.
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19. Energy Consumption in Central and Eastern Europe (CEE) Households in the Platform Economics. (2021). Poniatowska-Jaksch, Magorzata.
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20. Differentiation and Changes of Household Electricity Prices in EU Countries. (2021). Gradziuk, Piotr ; Rokicki, Tomasz ; Borawski, Piotr ; Wojtczuk, Kamil ; Kozak, Joanna ; Guzal-Dec, Danuta Jolanta ; Mrowczyska-Kamiska, Aldona.
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21. Numerical and Physical Modeling of a Tension-Leg Platform for Offshore Wind Turbines. (2021). Schunemann, Paul ; Grossmann, Jochen ; Hartmann, Hauke ; Adam, Frank ; Walia, Daniel.
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22. Best practices for analyzing the direct energy use of blockchain technology systems: Review and policy recommendations. (2021). Lei, Nuoa ; Koomey, Jonathan ; Masanet, Eric.
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23. Knowledge, energy sustainability, and vulnerability in the demographics of smart home technology diffusion. (2021). Martiskainen, Mari ; Furszyfer, Dylan D ; Sovacool, Benjamin K.
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24. Impacts of COVID-19 on energy demand and consumption: Challenges, lessons and emerging opportunities. (2021). van Fan, Yee ; Jiang, Peng ; Kleme, Jii Jaromir.
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25. Identification and assessment of opportunities and threats for the Circular Economy arising from E-commerce. (2020). Berlinghof, Thomas ; Bey, Niki ; Aigner, Joachim Felix ; Rodger, Jan-Markus ; Patz, Cordelia ; Romagnoli, Valentina.
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26. Digitalization and the Decoupling Debate: Can ICT Help to Reduce Environmental Impacts While the Economy Keeps Growing?. (2020). Santarius, Tilman ; Lange, Steffen ; Pohl, Johanna.
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27. A Temperature-Risk and Energy-Saving Evaluation Model for Supporting Energy-Saving Measures for Data Center Server Rooms. (2020). Watanabe, Takeshi ; Aoki, Takeshi ; Komatsu, Masayoshi ; Sasakura, Kosuke.
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28. Rack Temperature Prediction Model Using Machine Learning after Stopping Computer Room Air Conditioner in Server Room. (2020). Watanabe, Takeshi ; Aoki, Takeshi ; Komatsu, Masayoshi ; Sasakura, Kosuke.
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29. A Novel Statistical Learning-Based Methodology for Measuring the Goodness of Energy Profiles of Applications Executing on Multicore Computing Platforms. (2020). Manumachu, Ravi Reddy ; Fahad, Muhammad ; Shahid, Arsalan ; Lastovetsky, Alexey.
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30. Cutting the Internets Environmental Footprint: An Analysis of Consumers Self-Attribution of Responsibility. (2020). Bernard, Yohan ; Elgaaied-Gambier, Leila ; Bertrandias, Laurent.
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31. Critically reviewing smart home technology applications and business models in Europe. (2020). Bergman, Noam ; Makuch, Karen E ; Furszyfer, Dylan D ; Sovacool, Benjamin K.
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32. Digitalization and energy consumption. Does ICT reduce energy demand?. (2020). Santarius, Tilman ; Lange, Steffen ; Pohl, Johanna.
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33. Economics for the future – Beyond the superorganism. (2020). Hagens, N J.
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34. Multicore processor computing is not energy proportional: An opportunity for bi-objective optimization for energy and performance. (2020). Khokhriakov, Semyon ; Manumachu, Ravi Reddy ; Lastovetsky, Alexey.
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35. Is the Digital Future Sustainable?. (2019). Seppala, Timo ; Rajala, Risto ; Mattila, Juri.
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36. A Novel ICT Framework for Sustainable Development Goals. (2019). Kostoska, Olivera ; Kocarev, Ljupco.
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37. Capacity Management of Hyperscale Data Centers Using Predictive Modelling. (2019). Andersson, Karl ; Ruci, Xhesika ; Ul, Raihan ; Hossain, Mohammad Shahadat ; Kor, Ah-Lian.
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38. Flexibility-Based Energy and Demand Management in Data Centers: A Case Study for Cloud Computing. (2019). Basmadjian, Robert.
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39. A Comparative Study of Methods for Measurement of Energy of Computing. (2019). Manumachu, Ravi Reddy ; Fahad, Muhammad ; Shahid, Arsalan ; Lastovetsky, Alexey.
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40. Exergy-based analysis combined with LCA for waste heat recovery in coal-fired CHP plants. (2019). Yu, Zaihai ; Wang, Yujie ; Zhang, QI ; Gao, Jintong ; Song, Dayong.
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41. The impacts of information and communication technology, energy consumption, financial development, and economic growth on carbon dioxide emissions in 12 Asian countries. (2018). Lu, Wen-Cheng.
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42. Digitális átalakulás és fenntarthatóság. A technológiaoptimista környezetgazdászok és a pesszimista ökológiai közgazdászok közötti vita újraindítása. (2018). Szalavetz, Andrea.
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45. Evaluating the Energy Consumption of Mobile Data Transfer—From Technology Development to Consumer Behaviour and Life Cycle Thinking. (2018). Apilo, Olli ; Hongisto, Mikko ; Lasanen, Mika ; Pihkola, Hanna.
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46. Life cycle assessment and environmental cost accounting of coal-fired power generation in China. (2018). Zhu, Yucheng ; Wang, Ruogu ; Li, Jiayan.
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47. Precision of a Streamlined Life Cycle Assessment Approach Used in Eco-Rating of Mobile Phones. (2017). Vaija, Mikko Samuli.
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48. Life Cycle Assessment of a Virtual Reality Device. (2017). , Anders.
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49. Internet usage, renewable energy, electricity consumption and economic growth : Evidence from developed countries. (2017). Zaghdoudi, Taha.
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50. Practical Eco-Design and Eco-Innovation of Consumer Electronics—the Case of Mobile Phones. (2016). Tang, Xiaoming ; Xia, Mengjun ; Zhang, Jianli.
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