Net zero by 2050 (IEA, 2021).
Doerr, J. & Panchadsaram, R. Speed and Scale: An Action Plan to Solve Our Climate Crisis Now (Portfolio, 2021).
Sarah L et al. Industrial Policy, Trade and Clean Energy Supply Chains (CSIS & BloombergNEF, 2021); https://csis-website-prod.s3.amazonaws.com/s3fs-public/publication/210224_Ladislaw_Industrial_Policy.pdf.
Goldthau, A. & Hughes, L. Securing global supply chains for low-carbon technologies. Nature 58528-30 (2020).
Renewable energy production costs in 2021 (IRENA, 2021); https://www.irena.org/publications/2022/Jul/Renewable-Power-Generation-Costs-in-2021.
Helveston, J. & Nahm, J. China’s Key Role in Scaling Low-Carbon Energy Technologies. Science 366794–796 (2019).
World Energy Outlook 2020 (IEA, 2020).
Cherp, A., Vinichenko, V., Tosun, J., Gordon, JA, and Jewell, J. National wind and solar growth dynamics relative to growth required for global climate goals. Nat. Energy 6742–754 (2021).
Jäger-Waldau, A. Photovoltaics Snapshot—February 2022. EPJ Photovolt. 139 (2022).
Special Report on Global Solar PV Supply Chains (IEA, 2022); https://www.iea.org/reports/solar-pv-global-supply-chains.
Nemet, GF How Solar Power Got Cheap: A Model of Low-Carbon Innovation (Routledge, 2019).
Atkinson, RD Why China must end its economic profiteering. HuffPost https://www.huffpost.com/entry/why-china-needs-to-end-it_b_84028 (2008).
Fact Sheet: President Biden Takes Bold Steps to Boost Domestic Clean Energy Manufacturing (The White House, 2022).
Green, MA How did solar cells get so cheap? Joule 3631–633 (2019).
Tillman, B. Red scare or red herring: how the China Initiative strategy for non-traditional collectors is stifling innovation in the United States. Seattle J. Technol. About. Innov. Right 116 (2020).
Fu, R., Feldman, D. & Margolis, R. U.S. Solar PV System Cost Benchmark: Q1 2018 (NREL, 2018); https://www.nrel.gov/docs/fy19osti/72399.pdf.
Nemet, GF, Lu, J., Rai, V. & Rao, R. Knowledge spillovers between photovoltaic installers can reduce the cost of installing solar photovoltaic. Energy policy 144111600 (2020).
Renewable Energy Statistics 2021 (IRENA, 2021); https://www.irena.org/publications/2021/Aug/Renewable-energy-statistics-2021.
2021 Annual Technology Benchmark (NREL, 2021); https://atb.nrel.gov/electricity/2021/data
Surana, K., Doblinger, C., Anadon, LD & Hultman, N. Effects of technological complexity on the emergence and evolution of wind industry manufacturing sites along global value chains. Nat. Energy 5811–821 (2020).
Feldman, D. & Margolis, R. S2 2020 Solar Industry Update (NREL, 2021); https://www.nrel.gov/docs/fy21osti/79758.pdf.
Chung, D., Horowitz, K. & Kurup, P. On the Road to SunShot: Emerging Opportunities and Challenges in U.S. Solar Manufacturing (NREL, 2016); https://www.nrel.gov/docs/fy16osti/65788.pdf.
Hart, D. The impact of increasing Chinese production on innovation in the global solar PV industry (ITIF, 2020); https://itif.org/publications/2020/10/05/impact-chinas-production-surge-innovation-global-solar-photovoltaics.
Sivaram, V., Dabiri, JO & Hart, DM The need for continuous innovation in solar, wind and energy storage. Joule 21639-1642 (2018).
Fuchs, E. & Kirchain, R. Design for location? The impact of offshore manufacturing on technological competitiveness in the optoelectronics industry. Manage. Science. 562323–2349 (2010).
Abernathy, WJ & Utterback, JM, others. Models of industrial innovation. Technology. Round. 8040–47 (1978).
Gort, M. & Klepper, S. Time trajectories in the diffusion of product innovations. Econ. J 92630–653 (1982).
Utterback, JM & Suárez, FF Innovation, competition and industry structure. Res. Policy 221–21 (1993).
Utterback, JM Mastering the dynamics of innovation: how companies can seize opportunities in the face of technological change (Harvard School of Business, 1994).
Agarwal, R. & Gort, M. The Evolution of Markets and Firm Entry, Exit and Survival. Rev. Econ. Statistical 78489–498 (1996).
Carvalho, M., Dechezleprêtre, A. & Glachant, M. Understand the dynamics of global value chains for solar photovoltaic technologies. Economic Research Working Paper No. 40 (WIPO, 2017).
Building Resilient Supply Chains, Revitalizing American Manufacturing, and Fostering Broad-Based Growth (The White House, 2021); https://www.whitehouse.gov/wp-content/uploads/2021/06/100-day-supply-chain-review-report.pdf.
Myslikova, Z. & Gallagher, KS Mission Innovation is mission critical. Nat. Energy 5732–734 (2020).
Nahm, J. & Steinfeld, ES Scale-up nation: China’s specialization in innovative manufacturing. Dev. 54288–300 (2014).
Solar Supply Chain Traceability Protocol 1.0 (SIEA, 2021); https://www.seia.org/research-resources/solar-supply-chain-traceability-protocol.
McDonald, A. & Schrattenholzer, L. Learning rates for energy technologies. Energy policy 29255-261 (2001).
Nemet, GF Beyond the Learning Curve: Factors Influencing Cost Reductions in Photovoltaics. Energy policy 343218–3232 (2006).
Qiu, Y. & Anadon, LD The Price of Wind Power in China During Its Expansion: Technology Adoption, Learning-by-Doing, Economies of Scale, and Localization of Manufacturing. Energy saving. 34772–785 (2012).
Zheng, C. & Kammen, DM An Innovation Driven Roadmap for a Sustainable Global Photovoltaic Industry. Energy policy 67159-169 (2014).
Rubin, ES, Azevedo, IML, Jaramillo, P. & Yeh, S. A review of learning rates for electricity supply technologies. Energy policy 86198-218 (2015).
Yelle, LE The Learning Curve: Historical Review and Comprehensive Survey. Decide. Science. ten302–328 (1979).
Yu, CF, van Sark, WGJHM & Alsema, EA Unraveling the Learning Curve of Photovoltaic Technology by Incorporating Input Price Changes and Scale Effects. Renew. Sustain. Energy Rev. 15324–337 (2011).
Zhang, C., Xie, L., Qiu, Y., (Lucy), and Wang, S. Learning-by-making and learning-by-operating mechanisms promote energy conservation and reduction of emissions in the coal power industry in China. Resour. Conserv. Recycl. 186106532 (2022).
Lewis, JI & Nemet, GF Learning assessment in low-carbon technologies: towards a more holistic approach. Clim. To change 12e730 (2021).
Meng, J., Way, R., Verdolini, E. & Anadon, LD Comparison between expert elicitation and model-based probabilistic technology cost predictions for the energy transition. proc. Natl Acad. Science. UNITED STATES 118e1917165118 (2021).
Kavlak, G., McNerney, J. & Trancik, JE Evaluation of the causes of photovoltaic module cost reduction. Energy policy 123700–710 (2018).
E. Vartiainen, G. Masson, C. Breyer, D. Moser and E. Román Medina. Program. Photovoltaic. Res. Appl. 28439–453 (2020).
Solar Industry Research Data (ESIA, 2021); https://www.seia.org/solar-industry-research-data
Barbose, GL and Darghouth, NR Chasing the Sun: Pricing and Design Trends for Distributed Photovoltaic Systems in the United States—2019 Edition (LBNL, 2019); https://emp.lbl.gov/publications/tracking-sun-pricing-and-design.
Wang, S. The status and prospects of photovoltaic industry in China. Clean Energy Summit 2019. (2019).
Wang, B. Photovoltaic industry in 2020 and outlook for 2021. China Photovoltaic Industry Association. (2020).
Wirt, H. Recent facts about photovoltaics in Germany (Fraunhofer ISE, 2021); https://www.ise.fraunhofer.de/content/dam/ise/en/documents/publications/studies/recent-facts-about-photovoltaics-in-germany.pdf.