Anil Rajak scite author profile

Anil Rajak

2Publications

13Citation Statements Received

119Citation Statements Given

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118

Affiliations

University of Freiburg, Robert Bosch (Germany)

Publications

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High Hysteresis Suspended Wetting State: A Wetting Regime for Controlled Trapping of Drops on Micro‐Trench Covered Surfaces

Rajak

Rühe

2022

Adv Materials Inter

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Wetting of simple liquids on rough surfaces is usually described either by the Cassie–Baxter model where drops are suspended over the roughness features with air trapped below, or by the Wenzel model where the drops are impaled on the roughness features. According to the Wenzel model, drops can be trapped on the surfaces, whereas in the Cassie–Baxter model, the drops can be easily released upon adding a small tilt. Surfaces with very regular surface pattern, such as closely spaced micro‐trenches, can exhibit the so‐called High Hysteresis Suspended State (HySS). In this state the drops assume a spherical shape with air trapped below them, a characteristic feature of the Cassie–Baxter state, but show a very high contact angle hysteresis (up to >70°), typical for the Wenzel regime. The HySS regime is studied as a function of the surface geometry, applied pressure and the mass of the drop. Through roll‐off measurements it is shown that surfaces with controlled trapping conditions can be generated, where drops can be captured, however, upon addition of a small amount of energy (e.g., induced by tilt) can be released. The parameters that can be used to control the “depth” of the trap are elucidated.

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Polyethersulfone Block Copolymers for Membrane Applications

Weber

Rajak

Maletzko

2019

Macro Chemistry & Physics

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Polyarylethersulfones (polysulfone: PSU, polyethersulfone: PESU) belong to the group of established membrane materials and are mainly used for production of ultra‐ and microfiltration membranes. They offer several advantageous properties like hydrolysis and chemical resistance, mechanical strength and bio‐compatibility. A general drawback of these polymers compared to the more polar membrane materials cellulosetriacetate or polyacrylonitrile is the hydrophobic nature of the polyarylethersulfone which can be quantified by the contact angle versus water. An improved synthetic pathway to segmented block copolymers based on polyarylethersulfones and various aliphatic polyethers is presented as well as the characterization of the obtained block copolymers and their use for membrane preparation.

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Anil Rajak

High Hysteresis Suspended Wetting State: A Wetting Regime for Controlled Trapping of Drops on Micro‐Trench Covered Surfaces

Polyethersulfone Block Copolymers for Membrane Applications

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