The field of human-computer interaction is moving towards creating more immersive and interactive experiences, particularly in the realm of spatial computing and virtual reality. Recent developments have focused on designing innovative input modalities, such as non-invasive muscle activity mapping and electro-haptic feedback, to enhance user engagement and interaction with virtual environments. Researchers are also exploring new approaches to haptic feedback, including ultra-thin and user-customized devices that can deliver finely controlled electrical stimulation, as well as soft and tactile e-textile interfaces that can detect mechanical deformations and environmental conditions. Furthermore, there is a growing interest in developing efficient and easy-to-use text entry methods for augmented reality applications, such as smartphone-analogous typing techniques. Noteworthy papers include: PileUp, which presents a tufted pile e-textile sensing approach that offers unique affordances for tactile expressiveness and richness, STAR, which introduces a smartphone-analogous AR text entry technique that leverages a user's familiarity with smartphone two-thumb typing, QuadStretcher, which features a skin stretch display for bare-hand interaction in AR/VR environments, providing rich haptic expression without the need for a grounding base.