In modern medical diagnostics and life science research, proteins serve as key biomarkers directly linked to disease phenotypes, making their accurate and rapid detection highly important. However, conventional detection technologies face multiple limitations. For example, immunoassays such as ELISA require tedious separation and washing steps...
In modern medical diagnostics and life science research, proteins serve as key biomarkers directly linked to disease phenotypes, making their accurate and rapid detection highly important. However, conventional detection technologies face multiple limitations. For example, immunoassays such as ELISA require tedious separation and washing steps or depend on stringent conditions for antibody pairs, making it difficult to meet the needs of point-of-care testing and high-throughput analysis. Although mass spectrometry is considered the "gold standard" in proteomics research, it relies on large, expensive equipment and involves lengthy analytical procedures.