Electrochemical Detection of Aloe Emodin using PlatinumElectrode Based Voltammetry Technique

Authors

  • Milan Dhara Department of Applied Electronics and Instrumentation Engineering, Future Institute of Engineering and Management, Kolkata, India Author
  • Sanjoy Banerjee Department of Computer Science and Engineering (AIML), Future Institute of Technology, Kolkata, India Author
  • Hemanta Naskar SBH Electro Cloud Private Limited, Kolkata, India Author
  • Barnali Ghatak SBH Electro Cloud Private Limited, Kolkata, India Author
  • SK Babar Ali Department of Electronics and Communication Engineering, Aliah University, Kolkata, India Author
  • Nityananda Das Department of Physics, JK College, Purulia, India Author
  • Rajib Bandyopadhyay Department of Instrumentation and Electronics Engineering, Jadavpur University, India Author
  • Bipan Tudu Department of Instrumentation and Electronics Engineering, Jadavpur University, India Author

DOI:

https://doi.org/10.47363/JMSMR/2023(4)146

Keywords:

Aloe Emodin, Platinum Electrode, Cyclic Voltammetry, Differential Pulse Voltammetry, Principal Component Analysis

Abstract

In this work, a noble metal based platinum (Pt) electrode has been explored to detect one of the important phytochemical Aloe Emodin (AE) in Liliaceae family. A sensitive three-electrode system was equipped to assess the electrochemical behavior of AE using Pt electrode as a working electrode along with silver/silver chloride (saturated KCl) and a steel as a reference electrode and a counter electrode, respectively. The redox response of Pt electrode against AE was analyzed using cyclic voltammetry (CV) at a scan rate ranging from 0.01 Vs-1 to 0.4 Vs-1 that showed well-defined reversible peaks in phosphate buffer saline (PBS at pH 6.0). Under optimized experimental condition, DPV peak currents were linear over concentration range 1 μM -150 μM with R2 value of 0.987 In addition, the sensitivity of the electrode was excellent with sensitivity factor of 1.3 A/M and the limit of detection (LOD) was obtained 0.2 μM. Principal component analysis (PCA) was performed on the response data to demonstrate diverse discrimination of different concentration of AE. The developed sensor showed excellent repeatability and can be successfully used to detect AE in Aloe.

Author Biographies

  • Milan Dhara, Department of Applied Electronics and Instrumentation Engineering, Future Institute of Engineering and Management, Kolkata, India

    Department of Applied Electronics and Instrumentation Engineering, Future Institute of Engineering and Management, Kolkata, India

  • Sanjoy Banerjee, Department of Computer Science and Engineering (AIML), Future Institute of Technology, Kolkata, India

    Department of Computer Science and Engineering (AIML), Future Institute of Technology, Kolkata, India

  • Hemanta Naskar, SBH Electro Cloud Private Limited, Kolkata, India

    SBH Electro Cloud Private Limited, Kolkata, India

  • Barnali Ghatak, SBH Electro Cloud Private Limited, Kolkata, India

    SBH Electro Cloud Private Limited, Kolkata, India

  • SK Babar Ali, Department of Electronics and Communication Engineering, Aliah University, Kolkata, India

    Department of Electronics and Communication Engineering, Aliah University, Kolkata, India

  • Nityananda Das, Department of Physics, JK College, Purulia, India

    Department of Physics, JK College, Purulia, India

  • Rajib Bandyopadhyay, Department of Instrumentation and Electronics Engineering, Jadavpur University, India

    Department of Instrumentation and Electronics Engineering, Jadavpur University, India

  • Bipan Tudu, Department of Instrumentation and Electronics Engineering, Jadavpur University, India

    Department of Instrumentation and Electronics Engineering, Jadavpur University, India

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Published

2023-02-10

Issue

Vol. 4 No. 1 (2023): Volume 4, Issue 1

Section

Articles