Formalin, ethanol, and RNAlater are the most commonly used fixatives for morphological and molecular studies. Formalin is preferred for preserving tissue morphology, whereas ethanol and RNAlater are used to obtain high-quality nucleic acids for molecular analyses, including emerging -omics techniques. Over the past few years, the study of non-model organisms has gained attention, but the lack of laboratory cultures for many species requires collecting and fixing the animals directly in the field. Often, few specimens are secured, limiting the possibility of using multiple fixatives for parallel analyses. A single fixative that preserves both morphology and molecules while being easy to handle in the field would therefore be highly valuable. KINFix, a non-toxic alcohol-based fixative, was developed to preserve histology, proteins, and nucleic acids simultaneously, enabling both morphological and molecular analyses with the same sample. Here, we evaluate the suitability of KINFix for electron microscopy, bulk RNA sequencing, and single-cell RNA sequencing (scRNA-seq) using three invertebrate species from distinct spiralian phyla. Our results demonstrate that KINFix preserves both morphology and RNA integrity better than other standard fixatives, maintaining RNA quality for over three months. Additionally, we show the potential of KINFix to preserve cellular integrity for scRNA-seq applications. While fixation conditions may require optimization for different species, our findings highlight KINFix as a versatile and valuable fixative that enables a wide range of morphological and molecular studies in non-model invertebrates. KINFix is particularly useful for field-based research where sample availability and preservation logistics are challenging.