Recent advances in nanofabrication technologies have spurred many breakthroughs in the field of photonic metamaterials that provide efficient ways of manipulating light–matter interaction at subwavelength scales. As one of the most important applications, photonic metamaterials can be used to implement novel optical absorbers. First the morphology engineering of various photonic metamaterial absorbers is discussed, which is highly associated with impendence matching conditions and resonance modes of the absorbers, thus directly determines their absorption efficiency, operational bandwidth, incident angle, and polarization dependence. Then, the recent achievements of various interdisciplinary applications based on photonic metamaterial absorbers, including structural color generation, ultrasensitive optical sensing, solar steam generation, and highly responsive photodetection, are reviewed. This report is expected to provide an overview and vision for the future development of photonic metamaterial absorbers and their applications in novel nanophotonic systems. Photonic metamaterial absorbers (PMAs) are reviewed, focusing on their morphology engineering and interdisciplinary applications. Feasible methods to tailor the subwavelength‐scale structures of PMAs for optimizing their absorption performances are presented. Incorporated with interdisciplinary techniques, the application of PMAs in coloration, sensing, steam generation, and photodetection is also discussed.