Didari-Bader, A.Mengüç, Mustafa Pınar2024-01-242024-01-242023-01-01978-032399901-4,http://hdl.handle.net/10679/9078https://doi.org/10.1016/B978-0-323-99901-4.00017-2The field of biomimetic nanophotonics has the potential to open up unprecedented pathways for the development of sophisticated and unique devices and systems as it brings different disciplines together, including biology, physics, optics, thermal sciences, design, and nanoscale manufacturing. Given the complexity of the field, it is crucial to develop the computational tools necessary to predict the interaction between different phenomena before delving into expensive laboratory studies. In this chapter, we explore biomimetic nanophotonic systems from the standpoint of thermal and computational sciences. Particularly, we focus on near-field radiative transfer for different structures by using finite-difference time domain algorithm for the solution of problems in complex geometries. We provide the results for two case studies, one inspired by the Morpho didius butterfly and the other one from neon tetra Paracheirodon innesi fish, showing that significant spectrally selective bands can be obtained. We expect that these approaches are eventually to be adapted for new manufacturing paradigms which may be useful for the development of next-generation sensors, energy harvesting devices, and radiative cooling mechanisms.enginfo:eu-repo/semantics/restrictedAccessBook chapter48550510.1016/B978-0-323-99901-4.00017-2Biomimetic photonicsComputational electromagneticsFinite-difference time domain methodNear-field radiative heat transfer2-s2.0-85163419740