Atomic Batteries: Energy from Radioactivity

TL;DR

This paper reviews various atomic batteries that generate energy from radioactivity, comparing their performance, costs, and potential future improvements using nanomaterials, to explore sustainable energy solutions.

Contribution

It provides a comprehensive comparison of different atomic battery types, discusses their operational principles, and explores future enhancements with nanomaterials.

Findings

Radioisotope thermal generators are suitable for long-term power.

Cost analysis indicates certain batteries are more economically viable.

Nanomaterials could significantly enhance battery performance.

Abstract

With alternate, sustainable, natural sources of energy being sought after, there is new interest in energy from radioactivity, including natural and waste radioactive materials. A study of various atomic batteries is presented with perspectives of development and comparisons of performance parameters and cost. We discuss radioisotope thermal generators, indirect conversion batteries, direct conversion batteries, and direct charge batteries. We qualitatively describe their principles of operation and their applications. We project possible market trends through our comparative cost analysis. We also explore a future direction for certain atomic batteries by using nanomaterials to improve their performance.