The immobilization of biomolecules has been a subject of interest for scientists for a long time. The organic-inorganic hybrid nanoflowers are a new class of nanostructures that act as a host platform for the immobilization of such biomolecules. It provides better practical applicability to these functional biomolecules while also providing superior activity and reusability when catalysis is involved. These nanostructures have a versatile and straightforward synthesis process and also exhibit enzyme mimicking activity in many cases. However, this facile synthesis involves many intricacies that require in-depth analysis to fully attain its potential as an immobilization technique. A complete account of all the factors involving the synthesis process optimisation is essential to be studied to make it commercially viable. This paper explores all the different aspects of hybrid nanoflowers which sets them apart from the conventional immobilization techniques while also giving an overview of its wide range of applications in industries.

长期以来，生物分子的固定化一直是科学家们感兴趣的课题。有机-无机杂化纳米花是一类新型纳米结构，可作为固定此类生物分子的宿主平台。它为这些功能性生物分子提供了更好的实际适用性，同时在涉及催化时还提供了卓越的活性和可重复使用性。这些纳米结构具有通用且直接的合成过程，并且在许多情况下还表现出酶模拟活性。然而，这种简单的合成涉及许多复杂的问题，需要深入分析才能充分发挥其作为固定技术的潜力。对涉及合成过程优化的所有因素的完整说明对于研究使其具有商业可行性至关重要。