Author(s)

Anjun Jerry Jin^1,2*, He Wang², Sui’an Zhang², Zhirong Xu², Shaoping Chen²

¹College of International Exchange, Taiyuan University of Technology, Taiyuan, China.
²Leto Low Carbon Energy Technology Institute, Macao, China.

This article explores the role of distributed energy resources such as efficient solar cells that drive carbon neutrality within the solar energy. For example, the perovskite solar cells offer high efficiency and potential for low-cost production. A novel theoretical model is discovered in distributed energy resources for power emissions and cost. The smart carbon neutrality approaches are analyzed in both theory and experiments. The advantages, current challenges, and future prospects of the related solutions are discussed methodically. By addressing stability and scalability issues, these approaches can contribute significantly to reducing carbon emissions and promoting sustainable energy solutions.

Solar Energy, Energy Storage, Power Emissions and Cost, Carbon Neutrality, Distributed Energy Resources, Power Utility Matrix

Jin, A. , Wang, H. , Zhang, S. , Xu, Z. and Chen, S. (2024) Decoding the Einstein-Type Formula for Reducing Energy Conversion to Carbon Emissions in Renewables Systems. Journal of Power and Energy Engineering, 12, 89-96. doi: 10.4236/jpee.2024.1211006.