Wyniki wyszukiwania - BazTech

Ograniczanie wyników

1 Wiadomości Chemiczne

1 2024

Powiadomienia systemowe

Sesja wygasła!

Znaleziono wyników: 1

Liczba wyników na stronie

Wyniki wyszukiwania

Sortuj według:

Ogranicz wyniki do:

Od mofów „w pigułce” do pigułek w mofie : przewodnik teoretyczno-praktyczny

Pander Marzena, Skałecka Natalia, Prus Julia, Stani Oliwia, Bury Wojciech

Wiadomości Chemiczne

2024

[Z] 78, 11-12

1697--1729

The design, synthesis, and characterization of novel materials with unique properties represent an important field of modern chemistry. Metal-Organic Frameworks (MOFs) [1], a class of porous coordination polymers, exemplify such innovative materials. Despite their initial discovery less than 30 years ago, the field of MOFs has expanded rapidly, and is represented now by over 100 000 different structures [2]. The precise design of organic and inorganic building blocks (metal nodes and organic linkers), which can be regarded as chemical Lego® bricks, enables the realization of an almost limitless array of structural architectures, limited only by the imagination of a chemist. This versatility offers the potential to create advanced materials with tailored properties for specific applications, which include sorption and separation processes [3], heterogenous catalysis [4], drug delivery [5], sensing [6] or energy storage [7]. The aim of this tutorial review is to explore and highlight key aspects of modern porous materials, with a particular focus on MOFs. Basic definitions and classification of this class of materials are provided, alongside an overview of its dynamic development in recent years. The structural composition of these materials is discussed in relation to the principles of reticular chemistry, including nomenclature and topological representations. The increasing complexity within this field and the evolution of MOFs is addressed through the introduction of their generations. The main part of this paper focuses on Zr-based MOFs, a distinctive group known for their unique stability and structural versatility, as well as the ability to endure various post-synthetic modifications. The broad spectrum of their applications, from controlled drug delivery to highly efficient heterogeneous catalysis, is presented to showcase the main achievements in this area. This review aims to highlight how advancements in MOF research are paving the way for new developments in material science, encouraging readers for further in-depth exploration of this compelling area of modern chemistry.