Thenapakiam Sathasivam scite author profile

Lignin is a nontoxic and biocompatible biopolymer with many promising characteristics, including a high tensile strength and antioxidant properties. This natural polymer can be processed through several chemical methods and modified into lignin nanomaterials for potential biomedical applications. This review summarizes the latest developments in nanolignin (NL)-based biomaterials for cancer therapy; various NL applications related to cancer therapy are considered, including drug and gene delivery, biosensing, bioimaging, and tissue engineering. The manuscript also outlines the potential use of these materials to improve the therapeutic potency of chemotherapeutic drugs by decreasing their dose and reducing their adverse effects. Due to its high surface area-to-volume ratio and the easy modification of its chemical components, NL could serve as an appropriate matrix for the binding and controlled release of various pharmaceutical agents. Moreover, the challenges in the utilization of NL-based materials for cancer therapy are discussed, along with the prospects of advances in such nanomaterials for medical research applications.

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Facile Fabrication of Lignin‐Cellulose Green Nanogels

Sathasivam

Sugiarto

et al. 2022

Chemistry An Asian Journal

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There has been increasing exploration of the development and production of biodegradable polymers in response to issues with petrol‐based polymers and their impact on the environment. Here we report a new approach to synthesize a natural nanogel from lignin and nanocellulose. First, lignin nanobeads were synthesized by a solvent‐shifting method, which showed a spherical shape with a diameter of 159.7 nm. Then the lignin nanobeads were incorporated into a nanocellulose network to form the lignin/cellulose nanogels. The nanocellulose fibrils (CNF−C) nanogels reveal a higher storage modulus than the nanocellulose crystal (CNC−C) ones due to the denser network with self‐entanglement of longer cellulose chains. The presence of lignin nanobeads in the nanogels helped to increase the viscoelasticity of the nanogels. This work highlights that the new kinds of green nanogels could be potentially utilized in a variety of biomedical applications such as drug delivery and wound dressing.

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Thenapakiam Sathasivam

Advances in sustainable polymeric materials from lignocellulosic biomass

Nano‐Strategies for Lignin Biomaterials toward Cancer Therapy

Facile Fabrication of Lignin‐Cellulose Green Nanogels

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