Petr Stavárek scite author profile

Many graphitic carbon nitride (g‐C3N4)‐based photocatalysts have attracted a significant interest because of the unique arrangement of carbon and nitrogen atoms. Changeable morphologies with tunable bandgap of g‐C3N4 materials were used in many applications including batteries, photovoltaics, photocatalysts, sensors, etc. This review focuses on the recent progress in the solvent assisted supramolecular‐assembled carbon nitride preparation for visible light induced hydrogen evolution from water. The synthesis involves tailoring the supramolecular assembly from different monomers followed by calcination. Different types of non‐covalent interactions between the monomers have been explained. In addition, the crucial role of solvent has been re‐counted in terms of the alteration of the structural morphology of assemblies. The mechanistic pathways of interaction in the formation of supramolecular assemblies have been also documented by molecular dynamics simulation. Finally, visible light triggered hydrogen evolution has been demonstrated along with discussion on challenges and future research direction.

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Microfluidic chip reactor and the stereoselective hydrogenation of methylacetoacetate over (R) -Ru-BINAP in the [N 8222 ][Tf 2 N]/methanol/water mixed phase

Klusoň

Stavárek

Pěnkavová

et al. 2017

Chemical Engineering and Processing: Process Intensification

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Continuous Production of Squalane Using 3D Printed Catalytic Supports

Garcia¹,

Poulston²,

Modeshia³

et al. 2019

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A Method to Identify Best Available Technologies (BAT) for Hydrogenation Reactors in the Pharmaceutical Industry

Doan¹,

Stavárek²,

Bellefon³

2012

J Flow Chem

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A methodology that may be applied to help in the choice of a continuous reactor is proposed. In this methodology, the chemistry is first described through the use of eight simple criteria (rate, thermicity, deactivation, solubility, conversion, selectivity, viscosity, and catalyst). Then, each reactor type is also analyzed from their capability to answer each of these criteria. A final score is presented using "spider diagrams." Lower surfaces indicate the best reactor choice. The methodology is exemplified with a model substrate nitrobenzene and a target pharmaceutical intermediate, N-methyl-4-nitrobenzenemethanesulphonamide, and for three different continuous reactors, i.e., stirred tank, fixed bed, and an advanced microstructured reactor. Comparison with the traditional batch reactor is also provided.

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Petr Stavárek

The behavior of pilot trickle-bed reactor under periodic operation

Solvent‐Assisted Synthesis of Supramolecular‐Assembled Graphitic Carbon Nitride for Visible Light Induced Hydrogen Evolution – A Review

Microfluidic chip reactor and the stereoselective hydrogenation of methylacetoacetate over (R) -Ru-BINAP in the [N 8222 ][Tf 2 N]/methanol/water mixed phase

Continuous Production of Squalane Using 3D Printed Catalytic Supports

A Method to Identify Best Available Technologies (BAT) for Hydrogenation Reactors in the Pharmaceutical Industry

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