Nano-Engineered Biomimetic Materials: Toward Point-Of-Care Diagnosis of Infectious Diseases

Nano-Engineered Biomimetic Materials: Toward Point-Of-Care Diagnosis of Infectious Diseases Publisher Pubmed

Baharlouei Z ; Aminjavaheri S ; Vajhadin F ; Nejatbakhsh MM ; Sarshar FZ ; Vali H ; Karimzadeh F ; Sanati A ; Presley JF

Source: Microchimica Acta Published:2025

Abstract

This review emphasizes the advantages of nano-engineered antibodies (nanobodies), nanozymes, and nano-imprinted polymers (nano-MIPs) in point-of-care (POC) diagnostics for infectious diseases, with a particular emphasis on SARS-CoV-2 detection, compared to conventional receptors. Infectious diseases have led to significant economic and social challenges, prompting the urgent development of reliable and cost-effective diagnostic tools, particularly POC biosensors. Current POC biosensors utilizing enzymes and antibodies have proven useful, although limitations such as low sensitivity, stability, and complex fabrication affect their performance. With advancements in nanomaterials, biomimetic elements such as nanobodies, nanozymes, and nano-MIPs they have shown great potential as alternatives to natural receptors. Recent advances in these biomimetic element materials applied to POC sensing platforms, such as paper-based devices and microfluidics, as the physical platforms are reviewed and discussed. This work also highlights the integration of electrochemical and optical detection systems with novel readout technologies, including smartphone-based devices, and represents an updated overview that encompasses all the advancements in this domain. Emphasis is placed on COVID-19 as a pivotal case study. Key primary sensor performances, such as linear detection range and limit of detection, are evaluated and compared. Advantages and disadvantages of each approach are discussed to illustrate the potential impact of these nano-based materials on future biosensor applications. © The Author(s), under exclusive licence to Springer-Verlag GmbH Austria, part of Springer Nature 2025.

Experts (# of related papers)

View all Related Experts

Mohammad Rafienia (1)

Elham Bidram (1)

Style	Citing Format
MLA	Baharlouei Z, et al.. "Nano-Engineered Biomimetic Materials: Toward Point-Of-Care Diagnosis of Infectious Diseases." Microchimica Acta, vol. 192, no. 12, 2025, pp. -.
APA	Baharlouei Z, Aminjavaheri S, Vajhadin F, Nejatbakhsh MM, Sarshar FZ, Vali H, Karimzadeh F, Sanati A, Presley JF (2025). Nano-Engineered Biomimetic Materials: Toward Point-Of-Care Diagnosis of Infectious Diseases. Microchimica Acta, 192(12), -.
Chicago	Baharlouei Z, Aminjavaheri S, Vajhadin F, Nejatbakhsh MM, Sarshar FZ, Vali H, Karimzadeh F, Sanati A, Presley JF. "Nano-Engineered Biomimetic Materials: Toward Point-Of-Care Diagnosis of Infectious Diseases." Microchimica Acta 192, no. 12 (2025): -.
Harvard	Baharlouei Z et al. (2025) 'Nano-Engineered Biomimetic Materials: Toward Point-Of-Care Diagnosis of Infectious Diseases', Microchimica Acta, 192(12), pp. -.
Vancouver	Baharlouei Z, Aminjavaheri S, Vajhadin F, Nejatbakhsh MM, Sarshar FZ, Vali H, et al.. Nano-Engineered Biomimetic Materials: Toward Point-Of-Care Diagnosis of Infectious Diseases. Microchimica Acta. 2025;192(12):-.
BibTex	@article{ author = {Baharlouei Z and Aminjavaheri S and Vajhadin F and Nejatbakhsh MM and Sarshar FZ and Vali H and Karimzadeh F and Sanati A and Presley JF}, title = {Nano-Engineered Biomimetic Materials: Toward Point-Of-Care Diagnosis of Infectious Diseases}, journal = {Microchimica Acta}, volume = {192}, number = {12}, pages = {-}, year = {2025} }
RIS	TY - JOUR AU - Baharlouei Z AU - Aminjavaheri S AU - Vajhadin F AU - Nejatbakhsh MM AU - Sarshar FZ AU - Vali H AU - Karimzadeh F AU - Sanati A AU - Presley JF TI - Nano-Engineered Biomimetic Materials: Toward Point-Of-Care Diagnosis of Infectious Diseases JO - Microchimica Acta VL - 192 IS - 12 SP - EP - PY - 2025 ER -

Science Communicator Platform

Authors

Abstract