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1. 3D Printed Gerotor Pump Geometries for Soft-Robot Actuation

   https://doi.org/10.1115/FPMC2023-111408  

   Gallentine, James; Barth, Eric J. (October 2023, Proceedings of the ASMEBATH Symposium on Fluid Power and Motion Control)

   Abstract Often, fluidic soft robots are driven by large pneumatic or low-bandwidth hydraulic systems which struggle to meet performance objectives. This research presents the design of two morphologies of compact, positive displacement hydraulic pumps designed to act as power supplies for fluidic soft robots. These hydraulic pumps were designed to leverage additive manufacturing technology, creating cost-effective, yet volumetrically powerful units. The operational bandwidth of these pumps (> 10Hz) was substantially higher than the natural frequency of most elastomer-based soft robots (1–5Hz), allowing high control authority. These designs allow for highly scalable pumps, with performance documented in the paper. Due to the 3D printed nature of the pump components, manufacture cost is greatly reduced when compared to machined components. Each was tested driving various soft robotic actuators, demonstrating high-bandwidth, yet precise operation. With their minimal size, these pumps are candidates for un-tethered mobile soft robots, and their low weight and low noise allows them to be carried on the body for robotic actuators used in mobility rehabilitation. 

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2. Universality of loop corrected soft theorems in 4d

   https://doi.org/10.1007/JHEP11(2023)233  

   Krishna, Hare; Sahoo, Biswajit (November 2023, Journal of High Energy Physics)

   A<sc>bstract</sc> In [1], logarithmic correction to subleading soft photon and soft graviton theorems have been derived in four spacetime dimensions from the ratio of IR-finite S-matrices. This has been achieved after factoring out IR-divergent components from the traditional electromagnetic and gravitational S-matrices using Grammer-Yennie prescription. Although the loop corrected subleading soft theorems are derived from one-loop scattering amplitudes involving scalar particles in a minimally coupled theory with scalar contact interaction, it has been conjectured that the soft factors are universal (theory independent) and one-loop exact (don’t receive corrections from higher loops). This paper extends the analysis conducted in [1] to encompass general spinning particle scattering with non-minimal couplings permitted by gauge invariance and general coordinate invariance. By re-deriving the lnωsoft factors in this generic setup, we establish their universal nature. Furthermore, we summarize the results of loop corrected soft photon and graviton theorems up to sub-subleading order, which follows from the analysis of one and two loop QED and quantum gravity S-matrices. While the classical versions of these soft factors have already been derived in the literature, we put forth conjectures regarding the quantum soft factors and outline potential strategies for their derivation. 

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3. Hydrophilic skin-interfaced microfluidic devices for comprehensive sweat collection and analysis

   https://doi.org/10.1039/D5LC00703H  

   Lu, Fina; Yang, Ji Hyun; Koh, Ahyeon (January 2025, Lab on a Chip)

   Hydrophilic PDMS–PEG soft wearable microfluidics are developedviaone-pot soft lithography, which doubles the sweat collection volume and advances noninvasive, reliable sampling for clinical analysis. 

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4. Soft robots built for extreme environments

   https://doi.org/10.20517/ss.2023.51  

   Kulkarni, Mayura; Edward, Sandra; Golecki, Thomas; Kaehr, Bryan; Golecki, Holly (February 2025, Soft Science)

   Soft material robots are uniquely suited to address engineering challenges in extreme environments in new ways that traditional rigid robot embodiments cannot. Soft robot material flexibility, resistance to brittle fracture, low thermal conductivity, biostability, and self-healing capabilities present new solutions advantageous to specific environmental conditions. In this review, we examine the requirements for building and operating soft robots in various extreme environments, including within the human body, underwater, outer space, search and rescue sites, and confined spaces. We analyze the implementations of soft robotic devices, including actuators and sensors, which meet these requirements. Besides the structure of these devices, we explore ways to expand the use of soft robots in extreme environments with design optimization, control systems, and their future applications in educational and commercial products. We further discuss the current limitations of soft robots recognizing challenges to compliance, strength, and control. With this in mind, we present arguments for the future of robotics in which hybrid (rigid and soft) structures meet complex environmental needs. 

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5. 3D printable adhesive elastomers with dynamic covalent bond rearrangement

   https://doi.org/10.1039/D3SM00394A  

   Wanasinghe, Shiwanka V; Johnson, Brent; Revadelo, Rebekah; Eifert, Grant; Cox, Allyson; Beckett, Joseph; Osborn, Timothy; Thrasher, Carl; Lowe, Robert; Konkolewicz, Dominik (July 2023, Soft Matter)

   Soft 3D-printable adhesive elastomers with self-healing capabilities were formulated. These materials were 3D printed into complex structures and used to modify soft robots for shape-selective lifting. 

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