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Leidenfrost effect
Inverted Leidenfrost-Like Effect During Condensation
Behavior of Self-Propelled Acetone Droplets in a Leidenfrost State on Liquid Substrates
The Thermo-Wetting Instability Driving Leidenfrost Film Collapse
Effect of Ambient Pressure on Leidenfrost Temperature
Superconductivity Practical Days at CERN
Prediction of Leidenfrost Temperature in Spray Cooling for Continuous Casting and Heat Treatment Processes
Leidenfrost Drops on a Heated Liquid Pool
Arxiv:Physics/0512262V1
Vitrification and Levitation of a Liquid Droplet on Liquid Nitrogen
Topological Superconductivity: Edging Closer
Arxiv:2104.12899V1 [Cond-Mat.Stat-Mech]
THE COLDEST BOOK in the WORLD COLD & HEAT Water 20 °C 293 K
Leidenfrost Effect at Its Limits
Leidenfrostmaze EJP Jan 2015
BOILING and the LEIDENFROST EFFECT Base of Txt
Leidenfrost Effect
Leidenfrost Droplet Trampolining
UNIVERSITY of CALIFORNIA, IRVINE Spreading and Leidenfrost
Top View
The Mpemba Effect: When Can Hot Water Freeze Faster Than Cold?
Leidenfrost Droplets on Microstructured Surfaces
The Plasma Levitation of Droplets
Spontaneous Dynamics of Two-Dimensional Leidenfrost Wheels
CASE STUDY 2: THERMAL SYSTEMS Overview
A Sublimation Heat Engine
Arxiv:1907.03810V4 [Physics.Flu-Dyn] 23 Dec 2019 and Chemistry for the Specific Application Is Crucial
Giant Drag Reduction on Leidenfrost Spheres Evaluated from Extended Free-Fall Trajectories
An Introduction of Droplet Impact Dynamics to Engineering Students
Influence of Pressure on Leidenfrost Effect
Leidenfrost Heat Engine Sustained Rotation of Levitating Rotors On
The Leidenfrost Effect at the Nanoscale
From Super Liquid-Repellency and the Leidenfrost Effect to Liquid Marbles
Drag Reduction by Gas Layers and Streamlined Air Cavities Attached to Free
Ambient Air Pressure Influence on the Dynamic Leidenfrost Temperature Of
Green Nanofabrication @ Leidenfrost Condition
The Nanoscale Leidenfrost Effect
BOILING and the LEIDENFROST EFFECT Base of Txt
Chapter 4 Striking at the Heat in the Night (Thermal Processes)
The Nanoscale Leidenfrost Effect
Role of Jakob Number in Leidenfrost Phenomena Unveiled by Theoretical Modeling
Explanation of the Phase Anomalies of Water (P1-P12)
Influence of Liquid–Solid Intermolecular Force on Levitation Of
1 Unexpected Suppression of Leidenfrost Phenomenon On
Protons for Breakfast
Leidenfrost Drops Cooling Surfaces: Theory and Interferometric Measurement
Superconductors Are Materials That Have No Electrical Resistance, So You Can Pass an Electric Current Through Them with No Loss of Energy and No Heating
Spontaneous Droplet Trampolining on Rigid Superhydrophobic Surfaces Schutzius, T
Increasing Leidenfrost Point Using Micro-Nano Hierarchical Surface Structures Hyuk-Min Kwon, James C
Vitrification of Oocytes and Embryos in Cattle and Horses: As Clear As a Glass?