📢 Excited to share that our paper on liquid-liquid droplet reactors in [Chem Soc Rev (impact factor: 60.615)]! Check it out here: [https://lnkd.in/gBCkCVMF] 🔬 In this work, we provide a comprehensive overview of widely employed liquid-liquid droplet reactors, focusing on their thermodynamic properties and their potential applications in biochemical reactions. The paper explores the interfacial properties of single emulsions, the compartmentalization benefits of multiple emulsions, and the unique features of non-membrane bound all-aqueous emulsions. 🌟 Key Learning Points: 1️⃣ We discuss the thermodynamics of liquid-liquid droplet reactors, highlighting their ability to spatially compartmentalize reactions and reduce reagent consumption. 2️⃣ The paper explores the interfacial properties of single emulsions and how they enable precise control over biochemical reactions within the droplets. 3️⃣ We delve into the selective transport capabilities offered by multiple emulsions, which have the potential to benefit non-equilibrium reactions. 4️⃣ The study also investigates all-aqueous emulsions as chemically open compartments, providing insights into their use for reactions under dynamic conditions. 5️⃣ Lastly, we discuss the challenges that lie ahead in developing artificial droplet reactors that can simulate the functions of natural vesicles or cells. 🔍 I would love to hear your thoughts on the paper and any questions you may have! Feel free to read and share it with your colleagues. If you find it relevant to your research, I would greatly appreciate it if you could cite it. 🤝 Let's connect and continue the discussion. I'm open to collaborations and would love to hear about your work in this exciting field! research #biomedicalengineering #dropletreactors #biochemistry #publication https://lnkd.in/gBCkCVMF