COPPER OXALATE SYNTHESIS AND CHARACTERIZATION FOR BIOSENSING APPLICATION

INTRODUCION:  Biosensing is a rapidly advancing field that combines biological components with sensing technologies to detect and quantify target analysis in various applications

such as health care, environmental monitoring. One of the critical aspects of biosensing is the development of suitable sensing materials that exhibit high sensitivity and stability. Copper oxalate has emerged as a promising material for biosensing due to its unique properties including its ability to interact with various biomolecules and exhibit redox activity.

AIM: The aim of this research is to synthesize copper oxalate and characterize its properties for application in biosensing. By achieving this aim , the research intends to contribute to the development of naval biosensing platforms that utilize copper oxalate as a sensing material

MATERIALS & METHODS: Two  grams of SDC was added to 2.5grams of copper nitrate . The mixture was added to 100 ml of distilled water. The solution was maintained at 70 degree and allowed for 5 hours of steering until it is fully dissolved .Finally the formed precipitate was collected and dried.

RESULT: The successful synthesis of copper oxalate is a significant achievement. The XRD analysis interprets the purity and crystalline nature of the sample. It depicted JCPDs card number 21- 297. The characterization technique employed FE-SEM, provided the morphology of the copper oxalate as a rectangular shape. The EXD results proved the purity of the mixture, only desired materials O, C , CO were present. CV - dopamine sensors were used , the optimal ph value was between 6to10. DPV - different concentrations of analyte were applied and current response is recorded.

DISCUSSION: A  noteworthy accomplishment is the efficient synthesis of copper oxalate.Future investigations can be carried out by exploring different surface modification strategies, and modifications can also focus on integrating copper oxalate - based biosensors with advanced sensing technologies. Conducting field trials and validation studies of copper oxalate based biosensors in real world forensic scenarios would be more valuable . Copper oxalate biosensing in forensic domains continues to advance , leading to improved analytical tool and methodologies for forensic investigations.

CONCLUSION: Copper oxalate for biosensing application offers promising prospects for the field of biosensors. The advancement of biosensors, selective platforms for the detection and qualification of various analytes, and the development of analytical tools are all made possible by the potential effects of copper oxalate-based biosensors on forensic investigations.