fix(mise en forme) : ajout des puces pour les références

content/posts/datacenter_et_cuivre - section 3.md

@@ -313,84 +313,84 @@ L'enjeu dépasse la seule optimisation technique pour embrasser une logique de t
 
 ### Références - Section 3
 
-[1] Meta/OCP. (2022). *Open Rack v3 and 380V Distribution Trials*. Open Compute Project Summit 2022.
+* [1] Meta/OCP. (2022). *Open Rack v3 and 380V Distribution Trials*. Open Compute Project Summit 2022.
 
-[2] ABB. (2023). *Low Copper Distribution Architectures*. Technical documentation on compact busbar solutions.
+* [2] ABB. (2023). *Low Copper Distribution Architectures*. Technical documentation on compact busbar solutions.
 
-[3] Materials Research Society. (2023). *Advanced Copper Alloys for High-Performance Electrical Applications*. MRS Bulletin, 48(4), 234-241.
+* [3] Materials Research Society. (2023). *Advanced Copper Alloys for High-Performance Electrical Applications*. MRS Bulletin, 48(4), 234-241.
 
-[4] Intel, Ayar Labs, Lightmatter. (2023). *Photonic Interconnects for Next-Gen Compute Fabrics*. Joint research publication on silicon photonics integration.
+* [4] Intel, Ayar Labs, Lightmatter. (2023). *Photonic Interconnects for Next-Gen Compute Fabrics*. Joint research publication on silicon photonics integration.
 
-[5] IEA. (2022). *Data Centers and Energy Transitions*. Disponible à : [https://www.iea.org/reports/data-centres-and-energy](https://www.iea.org/reports/data-centres-and-energy)
+* [5] IEA. (2022). *Data Centers and Energy Transitions*. Disponible à : [https://www.iea.org/reports/data-centres-and-energy](https://www.iea.org/reports/data-centres-and-energy)
 
-[6] U.S. Department of Energy. (2021). *Superconducting Materials Roadmap*. DOE Office of Science, Basic Energy Sciences.
+* [6] U.S. Department of Energy. (2021). *Superconducting Materials Roadmap*. DOE Office of Science, Basic Energy Sciences.
 
-[7] Schneider Electric. (2023). *EcoStruxure Design for Resource Efficiency*. Technical white paper on copper-aware design tools.
+* [7] Schneider Electric. (2023). *EcoStruxure Design for Resource Efficiency*. Technical white paper on copper-aware design tools.
 
-[8] Siemens. (2023). *Data Center Design Suite – Materials Optimization Module*. Software documentation and case studies.
+* [8] Siemens. (2023). *Data Center Design Suite – Materials Optimization Module*. Software documentation and case studies.
 
-[9] CBRE. (2022). *Data Center Construction Outlook*. Global market analysis and technology adoption trends.
+* [9] CBRE. (2022). *Data Center Construction Outlook*. Global market analysis and technology adoption trends.
 
-[10] Uptime Institute. (2023). *Data Center Survey*. Disponible à : [https://uptimeinstitute.com/research-reports](https://uptimeinstitute.com/research-reports)
+* [10] Uptime Institute. (2023). *Data Center Survey*. Disponible à : [https://uptimeinstitute.com/research-reports](https://uptimeinstitute.com/research-reports)
 
-[11] IEEE. (2022). *Guidelines for DC Distribution in Edge and Core Data Centers*. IEEE Standards Association publication.
+* [11] IEEE. (2022). *Guidelines for DC Distribution in Edge and Core Data Centers*. IEEE Standards Association publication.
 
-[12] Dell Technologies. (2022). *Circular Design and Recovery in Data Centers*. Sustainability report focusing on materials optimization.
+* [12] Dell Technologies. (2022). *Circular Design and Recovery in Data Centers*. Sustainability report focusing on materials optimization.
 
-[28] International Copper Association. (2023). *Copper Recycling: A Pathway to Sustainability*. Disponible à : [https://internationalcopper.org/resource/copper-recycling/](https://internationalcopper.org/resource/copper-recycling/)
+* [28] International Copper Association. (2023). *Copper Recycling: A Pathway to Sustainability*. Disponible à : [https://internationalcopper.org/resource/copper-recycling/](https://internationalcopper.org/resource/copper-recycling/)
 
-[29] World Resources Institute. (2024). *The Pivotal Role of Recycled Copper in the Energy Transition*. Disponible à : [https://www.wri.org/insights/pivotal-role-recycled-copper-energy-transition](https://www.wri.org/insights/pivotal-role-recycled-copper-energy-transition)
+* [29] World Resources Institute. (2024). *The Pivotal Role of Recycled Copper in the Energy Transition*. Disponible à : [https://www.wri.org/insights/pivotal-role-recycled-copper-energy-transition](https://www.wri.org/insights/pivotal-role-recycled-copper-energy-transition)
 
-[30] European Copper Institute. (2023). *European Copper Recycling Statistics*. Disponible à : [https://copperalliance.eu/](https://copperalliance.eu/)
+* [30] European Copper Institute. (2023). *European Copper Recycling Statistics*. Disponible à : [https://copperalliance.eu/](https://copperalliance.eu/)
 
-[31] U.S. Geological Survey. (2023). *Mineral Commodity Summaries - Copper*. Disponible à : [https://pubs.usgs.gov/periodicals/mcs2023/mcs2023-copper.pdf](https://pubs.usgs.gov/periodicals/mcs2023/mcs2023-copper.pdf)
+* [31] U.S. Geological Survey. (2023). *Mineral Commodity Summaries - Copper*. Disponible à : [https://pubs.usgs.gov/periodicals/mcs2023/mcs2023-copper.pdf](https://pubs.usgs.gov/periodicals/mcs2023/mcs2023-copper.pdf)
 
-[32] Glencore. (2024). *Recycling and Circular Economy Strategy*. Disponible à : [https://www.glencore.com/sustainability/environment/circular-economy](https://www.glencore.com/sustainability/environment/circular-economy)
+* [32] Glencore. (2024). *Recycling and Circular Economy Strategy*. Disponible à : [https://www.glencore.com/sustainability/environment/circular-economy](https://www.glencore.com/sustainability/environment/circular-economy)
 
-[33] Cohen & Company. (2024). *Metal Recycling Services*. Disponible à : [https://www.cohenusa.com/](https://www.cohenusa.com/)
+* [33] Cohen & Company. (2024). *Metal Recycling Services*. Disponible à : [https://www.cohenusa.com/](https://www.cohenusa.com/)
 
-[34] Aurubis. (2024). *Kayser Recycling System*. Disponible à : [https://www.aurubis.com/en/products-services/recycling](https://www.aurubis.com/en/products-services/recycling)
+* [34] Aurubis. (2024). *Kayser Recycling System*. Disponible à : [https://www.aurubis.com/en/products-services/recycling](https://www.aurubis.com/en/products-services/recycling)
 
-[35] Sims Metal Management. (2024). *Global Recycling Operations*. Disponible à : [https://www.simsmm.com/](https://www.simsmm.com/)
+* [35] Sims Metal Management. (2024). *Global Recycling Operations*. Disponible à : [https://www.simsmm.com/](https://www.simsmm.com/)
 
-[36] Advanced Materials & Processes. (2023). *Optical Sorting Technologies for Metal Recovery*. Publication technique spécialisée.
+* [36] Advanced Materials & Processes. (2023). *Optical Sorting Technologies for Metal Recovery*. Publication technique spécialisée.
 
-[37] Waste Management World. (2024). *Electronic Waste Processing Technologies*. Disponible à : [https://waste-management-world.com/](https://waste-management-world.com/)
+* [37] Waste Management World. (2024). *Electronic Waste Processing Technologies*. Disponible à : [https://waste-management-world.com/](https://waste-management-world.com/)
 
-[38] Metallurgical and Materials Transactions. (2023). *Copper Purification from Electronic Waste*. Publication académique.
+* [38] Metallurgical and Materials Transactions. (2023). *Copper Purification from Electronic Waste*. Publication académique.
 
-[39] Journal of Cleaner Production. (2024). *Electrochemical Recovery of Copper from Complex Waste Streams*. Publication académique.
+* [39] Journal of Cleaner Production. (2024). *Electrochemical Recovery of Copper from Complex Waste Streams*. Publication académique.
 
-[40] Copper Development Association. (2023). *Upward Casting Technology for High-Quality Copper*. Documentation technique.
+* [40] Copper Development Association. (2023). *Upward Casting Technology for High-Quality Copper*. Documentation technique.
 
-[41] International Copper Association. (2024). *Continuous Casting and Rolling Processes*. Documentation technique.
+* [41] International Copper Association. (2024). *Continuous Casting and Rolling Processes*. Documentation technique.
 
-[42] International Copper Association. (2023). *Global Copper Stock Assessment*. Disponible à : [https://internationalcopper.org/](https://internationalcopper.org/)
+* [42] International Copper Association. (2023). *Global Copper Stock Assessment*. Disponible à : [https://internationalcopper.org/](https://internationalcopper.org/)
 
-[43] World Resources Institute. (2024). *North American Urban Mining Potential*. Disponible à : [https://www.wri.org/](https://www.wri.org/)
+* [43] World Resources Institute. (2024). *North American Urban Mining Potential*. Disponible à : [https://www.wri.org/](https://www.wri.org/)
 
-[44] Environmental Science & Technology. (2023). *Life Cycle Assessment of Copper Recycling vs Primary Production*. Publication académique.
+* [44] Environmental Science & Technology. (2023). *Life Cycle Assessment of Copper Recycling vs Primary Production*. Publication académique.
 
-[45] Energy Policy Journal. (2024). *Energy Requirements for Secondary Copper Production*. Publication académique.
+* [45] Energy Policy Journal. (2024). *Energy Requirements for Secondary Copper Production*. Publication académique.
 
-[46] Journal of Industrial Ecology. (2023). *Carbon Footprint of Recycled Copper*. Publication académique.
+* [46] Journal of Industrial Ecology. (2023). *Carbon Footprint of Recycled Copper*. Publication académique.
 
-[47] Mining Engineering. (2024). *Environmental Impacts of Copper Mining Operations*. Publication spécialisée.
+* [47] Mining Engineering. (2024). *Environmental Impacts of Copper Mining Operations*. Publication spécialisée.
 
-[48] Water Resources Management. (2023). *Water Consumption in Copper Production Processes*. Publication académique.
+* [48] Water Resources Management. (2023). *Water Consumption in Copper Production Processes*. Publication académique.
 
-[49] Resources, Conservation and Recycling. (2024). *Challenges in Electronic Waste Recycling*. Publication académique.
+* [49] Resources, Conservation and Recycling. (2024). *Challenges in Electronic Waste Recycling*. Publication académique.
 
-[50] Scrap Metal Markets. (2024). *US Copper Scrap Export Statistics*. Publication industrielle.
+* [50] Scrap Metal Markets. (2024). *US Copper Scrap Export Statistics*. Publication industrielle.
 
-[51] Materials Recovery and Recycling. (2023). *Recovery Rates in Copper Recycling Processes*. Publication technique.
+* [51] Materials Recovery and Recycling. (2023). *Recovery Rates in Copper Recycling Processes*. Publication technique.
 
-[52] Sensors and Actuators. (2024). *AI-Based Optical Sorting for Metal Recovery*. Publication académique.
+* [52] Sensors and Actuators. (2024). *AI-Based Optical Sorting for Metal Recovery*. Publication académique.
 
-[53] Hydrometallurgy Journal. (2024). *Low-Temperature Processing of Complex Copper Waste*. Publication académique.
+* [53] Hydrometallurgy Journal. (2024). *Low-Temperature Processing of Complex Copper Waste*. Publication académique.
 
-[54] Waste Management & Research. (2024). *On-Site Metal Recovery Technologies*. Publication académique.
+* [54] Waste Management & Research. (2024). *On-Site Metal Recovery Technologies*. Publication académique.
 
-[55] Metal Bulletin. (2024). *US Secondary Copper Capacity Expansion Plans*. Publication industrielle.
+* [55] Metal Bulletin. (2024). *US Secondary Copper Capacity Expansion Plans*. Publication industrielle.
 
-[56] HAL. (2023). *Optimisation multicritère pour une gestion globale des ressources : application au cycle du cuivre en France*. Publication académique. Disponible à : [https://theses.hal.science/tel-04312724/file/bonnin.pdf/](https://theses.hal.science/tel-04312724/file/bonnin.pdf)
+* [56] HAL. (2023). *Optimisation multicritère pour une gestion globale des ressources : application au cycle du cuivre en France*. Publication académique. Disponible à : [https://theses.hal.science/tel-04312724/file/bonnin.pdf/](https://theses.hal.science/tel-04312724/file/bonnin.pdf)