AWIONS

EFFICIENCY AGAINST PATHOGENS

Ozone free

AWIONS technology is efficient against various pathogens.

SubstanceSubstance NameTesting OrganizationRemovalYear
BacteriaEscherichia ColiEMSL Analytical, USA99%2011
Escherichia Coli ATCCIstanbul University, Turkey91%2011
Staphylococcus aureusEMSL Analytical, USA81%2011
Pseudomonas aeruginosaIstanbul University, Turkey99%2011
Staphylococcus aureus (MRSA)EMSL Analytical, USA99%2013
FungusAspergillus NigerEMSL Analytical, USA97%2011
Candida albicansEMSL Analytical, USA36%2011
Dichobotrys abundansProf. Joe F. Boatman, USA90%2006
PenicilliumProf. Joe F. Boatman, USA95%2006
MoldCladosporium cladosporioidesEMSL Analytical,97%2011
SporesBacillus subtilis var nigerIstanbul University, Turkey89%2011
VirusesInfluenza H1N1Kitasato Research Center, Japan99%2011
Influenza H5N1Kasetsart University, Thailand99%2011
Substanceubstance Nameesting OrganizationRemovalYear
Viruses
SARS Retroscreen Virology, UK--2005
Coxsackie Kitaso Research Center, Gappone99,9% inactivation 20-30 min (depending on ion density) 2002
PolioKitaso Research Center, Gappone
99,6%2002
CoronaKitaso Institute Medical Center Hospital, Gappone
99,7% inactivated within 40 minutes2004

Efficacy of Bipolar-lons in lnhibiting Activity of Various Pathogens Confirmed Through Collaborative Research

Target SubstanceSpeciesTesting & Verification OrganizationDate of Announcement
BacteriaSerratia bacteriaHarvard School of Public Health (Dr.
Melvin W. First, Professor Emeritus), United States		March 2007
Coliform bacteria (E.coli)lshikawaHealth Service Association, JapanSeptember 2000
E. coli, Staphylococcus (aureus),
Candida		Shanghai Municipal Center for Disease Contrai and Prevention, ChinaOctober 2001
Bacillus subtilisKitasato Research Center of Environmental Sciences, JapanSeptember 2002
CT&T (Professor Gerhard Artmann, Aachen University of Applied Sciences), GermanyNovember 2004
MRSA
(methicillin-resistant Staphylococcus aureus)		Kitasato Research Center of Environmental Sciences, JapanSeptember 2002
Kitasato lnstitute Medical Center Hospital, Japa nFebruary 2004
Pseudomnoas, Enterococcus, StaphylococcusUniversity of L0beck, GermanyFebruary 2002
Enterococcus, Staphylococcus, Sarcina,
Micrococcus		CT&T (Professor Gerhard Artmann, Aachen University of Applied Sciences), GermanyNovember 2004
AllergensMite allergens, pollenGraduateSchool of Advanced Sciences of Matter, Hiroshima University, JapanSeptember 2003
Mite allergensOsaka City University Medicai School's Departmetnof Biochemistry & Molecular PathologyJuly 2009
FungiCladosporiumlshikawaHealth Service Association, JapanSeptember 2000
University of Lobeck, Germany (growth-suppressing effect)February 2002
CT&T (Professor Gerhard Artmann, Aachen University of Applied Sciences), GermanyNovember 2004
Penicillium, AspergillusUniversity of Lobeck, Germany
(growth-suppressing effect)		February 2002
Aspergillus, Penicillium (two species), Stachyboryt s, Alternaria,
Mucorales		CT&T (Professor Gerhard Artmann, Aachen University of Applied Sciences), GermanyNovember 2004
VirusesH1N1 human influenza virusKitasato Research Center of Environmental Sciences, JapanSeptember 2002
Seoul University, KoreaSeptember 2003
Shanghai Municipal Center for Disease
Control and Prevention, China		December 2003
Kitasato lnstituteMedicai Center Hospital, JapanFebruary 2004
H5N1 avian influenza virusRetroscreen Virology, Ud., London, UKMay 2005
August 2008
SARS virusRetroscreen Virology, Ud., London, UKOctober 2005
Coxsacike virusKitasato Research Center of Environmental Sciences, JapanSeptember 2002
Polio virusKitasato Research Center of Environmental Sciences, JapanSeptember 2002
Corona virusKitasato lnstitute Medical Center Hospital, JapanJuly 2004
New-type H1N1 influenza virusRetroscreen Virology, Ud., London, UKNovember 2009

Note:  Efficacy  in inhibiting  activity of  the  airborne target  substances noted above was verilied by exposing the substances to an ion concentration of at least 3,000 ions/cm3.