Activated Carbon Impregnated with Elementary Iodine: Applications against Virus- and Bacteria-Related Issues

Yuri Natori,Norihiro Ikemoto,Yoshiaki Kinase,Hiroki Takakuwa,Kazuyuki Someya,Katsuyoshi Tatenuma,Fabio Spaziani,Tsutomu Kojima,Koichi Otsuki,Hitomi Kakuta,Junko Fujita,Toshiyo Yabuta

doi:10.3390/c7040086

Abstract

An iodine-doped activated carbon (named IodAC) was developed by adsorbing molecular iodine (I2) on commercially available activated carbon (AC). Iodine was selected with the purpose to add its well-known antibacterial and antiviral properties to the AC and in order to produce an innovative material for environmental pathogens control and for healthcare-related applications. The impregnation method achieved the goal of strongly adsorbing iodine on the AC surface, since both volatility and water solubility resulted to be negligible, and therefore it did not affect the stability of the material. An antibacterial test (on Escherichia coli) and an antiviral test (on an avian influenza strain) were conducted, showing the effectiveness of IodAC against the pathogens. In addition, IodAC was also compared to slaked lime (a material widely used for disinfection of outdoor spaces and livestock farming areas). The data proved the performance of IodAC against virus and bacteria and also evidenced a more stable and long-lasting disinfecting power of IodAC compared to slaked lime, the later reacting with carbon dioxide and suffering a gradually decrease of its disinfectant power; such drawback does not affect IodAC. Overall, the presented results show that IodAC can be used for a wide range of applications, including as a granular disinfectant for public spaces, for water disinfection, zoonotic diseases countermeasures (e.g., as an animal feed additive for avian influenza control), post-harvest food storage, and sanitization. Its characteristics also indicate its potential to be used for medical treatments, such as for blood, intestinal (for HIV, sepsis, irritable syndrome, ulcerative colitis therapy), and medical supplies (antibacterial bandages, gauze, cotton, etc.) sterilization.

Highlights

Antiviral and antibacterial substances play a primary role in the prevention of infectious diseases, and their relevance was especially highlighted in the last months due to the SARS-CoV-2 (COVID-19) pandemic [1,2]
Even if only about 20% of the starting adsorption capacity was effectively used to retain iodine, the results presented in this paper show that such an amount is enough to ensure a long-lasting and efficient disinfecting power
In the test conducted on Petri dishes, Escherichia coli densely grew around the activated carbon (AC), while a growth inhibition circle was formed around IodAC, confirming again the antibacterial properties of thetest product

Summary

Introduction

Antiviral and antibacterial substances play a primary role in the prevention of infectious diseases, and their relevance was especially highlighted in the last months due to the SARS-CoV-2 (COVID-19) pandemic [1,2]. Since most infectious diseases in humans originate from animals (zoonoses), disinfection, environmental sanitization, and control measures must be applied in urban zones and in livestock farming areas. Disinfectants are usually divided into three categories [3]: high-level disinfectants, which kill all pathogenic microorganisms, including mycobacteria, but may not effectively. Iodine is one of the halogen elements, and its molecular form (I2 ) has a strong antivirus/antibacterial power [4,5]; it is used for various disinfection purposes, including water treatment and medical/healthcare applications, e.g., as a skin antiseptic, and in the forms of iodine tincture or mouthwash as povidone–iodine [6,7,8]. Its biocidal effectiveness is so well established that iodine is even suitable for the control of biohazards [9,10]

Methods

Results

Conclusion