Dissolving a partnership efficiently by Cramton, Peter C., Gibbons, Robert, Klemperer, Paul

Subjects: “…Liquidation…”
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Scalability of mass transfer in liquid-liquid flow by Woitalka, A., Kuhn, S., Jensen, Klavs F.

“…We address liquid–liquid mass transfer between immiscible liquids using the system 1-butanol and water, with succinic acid as the mass transfer component. …”
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Collateral pricing by Benmelech, Efraim, Bergman, Nittai

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Dissolution of a Liquid Microdroplet in a Nonideal Liquid-Liquid Mixture Far from Thermodynamic Equilibrium by Thorsen, Todd A., Beretta, Gian Paolo, Poesio, Pietro

“…A droplet placed in a liquid-liquid solution is expected to grow, or shrink, in time as ∼t[superscript 1/2]. …”
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The effect of liquid characteristics upon the breakup of a liquid jet by Chmura, Richard Anthony.

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The Water Polymorphism and the Liquid–Liquid Transition from Transport Data by Mallamace, Francesco, Mallamace, Domenico, Mensitieri, Giuseppe, Chen, Sow-Hsin, Lanzafame, Paola, Papanikolaou, Georgia

“…NMR spectroscopic literature data are used, in a wide temperature-pressure range (180–350 K and 0.1–400 MPa), to study the water polymorphism and the validity of the liquid–liquid transition (LLT) hypothesis. We have considered the self-diffusion coefficient <inline-formula><math xmlns="http://www.w3.org/1998/Math/MathML" display="inline"><semantics><msub><mi>D</mi><mi>S</mi></msub></semantics></math></inline-formula> and the reorientational correlation time <inline-formula><math xmlns="http://www.w3.org/1998/Math/MathML" display="inline"><semantics><msub><mi>τ</mi><mi>θ</mi></msub></semantics></math></inline-formula> (obtained from spin-lattice <inline-formula><math xmlns="http://www.w3.org/1998/Math/MathML" display="inline"><semantics><msub><mi>T</mi><mn>1</mn></msub></semantics></math></inline-formula> relaxation times), measured, respectively, in bulk and emulsion liquid water from the stable to well inside the metastable supercooled region. …”
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The Water Polymorphism and the Liquid–Liquid Transition from Transport Data by Mallamace, Francesco, Chen, Sow-Hsin

“…NMR spectroscopic literature data are used, in a wide temperature-pressure range (180–350 K and 0.1–400 MPa), to study the water polymorphism and the validity of the liquid–liquid transition (LLT) hypothesis. We have considered the self-diffusion coefficient <inline-formula><math xmlns="http://www.w3.org/1998/Math/MathML" display="inline"><semantics><msub><mi>D</mi><mi>S</mi></msub></semantics></math></inline-formula> and the reorientational correlation time <inline-formula><math xmlns="http://www.w3.org/1998/Math/MathML" display="inline"><semantics><msub><mi>τ</mi><mi>θ</mi></msub></semantics></math></inline-formula> (obtained from spin-lattice <inline-formula><math xmlns="http://www.w3.org/1998/Math/MathML" display="inline"><semantics><msub><mi>T</mi><mn>1</mn></msub></semantics></math></inline-formula> relaxation times), measured, respectively, in bulk and emulsion liquid water from the stable to well inside the metastable supercooled region. …”
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A novel microchemical system for rapid liquid-liquid chemistry by Floyd, Tamara M. (Tamara Michelle), 1974-

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Membrane-Based, Liquid–Liquid Separator with Integrated Pressure Control by Adamo, Andrea, Heider, Patrick L., Weeranoppanant, Nopphon, Jensen, Klavs F.

“…We describe the development and application of an improved, membrane-based, liquid–liquid separator. Membrane-based separation relies on the exploitation of surface forces and the use of a membrane wetted by one of the phases; however, successful separation requires accurate control of pressures, making the operation and implementation cumbersome. …”
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How droplets nucleate and grow on liquids and liquid impregnated surfaces by Anand, Sushant, Rykaczewski, Konrad, Beysens, Daniel, Varanasi, Kripa K., Bengaluru Subramanyam, Srinivas

“…Condensation on liquids has been studied extensively in context of breath figure templating, materials synthesis and enhancing heat transfer using liquid impregnated surfaces. …”
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Liquid-vapor and liquid-liquid interfaces of small molecule esters and ester oligomers : a molecular dynamics simulations study by Patel, Sandeep A., 1969-

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Immiscible liquid-liquid displacement in microfluidic channels : effects of wettability and geometry by Lee, Hyundo

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Polymer Stiffness Regulates Multivalent Binding and Liquid-Liquid Phase Separation by Zumbro, Emiko, Alexander-Katz, Alfredo

“…This scenario could represent a polymeric inhibitor binding to a toxic protein or RNA binding to an RNA-binding protein in the case of liquid-liquid phase separation. We use simulation and theory to show that flexible random-coil polymers bind more strongly than stiff rod-like polymers and that flexible polymers nucleate condensed phases at lower binding energies than their rigid analogs. …”
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The crucial role of elasticity in regulating liquid–liquid phase separation in cells by Kothari, Mrityunjay, Cohen, Tal

“…Liquid-liquid phase separation has emerged as a fundamental mechanism underlying intracellular organization, with evidence for it being reported in numerous different systems. …”
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Liquid-liquid extraction of biopolymers : selective solubilization of proteins in reverse micelles by Göklen, Kent Emir

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Quantum spin liquids by Broholm, C, Cava, RJ, Kivelson, SA, Nocera, DG, Norman, MR, Senthil, T

“…Although there is not yet universally accepted experimental evidence that establishes that any single material has a spin liquid ground state, in the past few years a number of materials have been shown to exhibit distinctive properties that are expected of a quantum spin liquid. …”
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Quantum spin liquids by Broholm, C, Cava, RJ, Kivelson, SA, Nocera, DG, Norman, MR, Senthil, T.

“…Although there is not yet universally accepted experimental evidence that establishes that any single material has a spin liquid ground state, in the past few years a number of materials have been shown to exhibit distinctive properties that are expected of a quantum spin liquid. …”
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Bose-Luttinger liquids by Lake, Ethan, Senthil, T, Vishwanath, Ashvin

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Liquid Metal Printing by Karsan, Zain

“…Nevertheless, metal AM remains a high-cost process with slow process rates and build environments that are challenging to scale up, impeding the application of these manufacturing techniques but for products for which the cost per volume is significant. Liquid Metal Printing (LMP) is a novel approach to AM that is fast, scalable, and low cost, invented by the Self-Assembly Lab at MIT in 2020. …”
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In Defense of Liquid Democracy by Halpern, Daniel, Halpern, Joseph, Jadbabaie, Ali, Mossel, Elchanan, Procaccia, Ariel, Revel, Manon

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