Sub-100nm Particle Size· 250 ppm Silver Concentration· 99.9% Antibacterial in Published Studies· Backed by Peer-Reviewed Research· Documented Against 150+ Pathogens· Sub-100nm Particle Size· 250 ppm Silver Concentration· 99.9% Antibacterial in Published Studies· Backed by Peer-Reviewed Research· Documented Against 150+ Pathogens·
Ag+ Silver Nanotechnology

Data, not claims.

Every specification on this page is grounded in the product's Technical Data Sheet and peer-reviewed research on silver nanoparticle antimicrobial science.

99.9%
Published Kill Rate
<100nm
Particle Size
250ppm
Concentration
150+
Pathogens in Literature
3.5
pH Value
Active Ingredient
Colloidal Silver (Ag+)
Silver nanoparticles suspended in purified water. Particles smaller than 100 nanometres — roughly 1/700th the width of a human hair. At this scale, antimicrobial activity is amplified dramatically.
Active Ingredient
Colloidal Silver
CAS Number
9015-51-4
Concentration
250 ppm
Particle Size
< 100 nm
Composition
0.025% Ag+
Atomic Weight
107.87
Vehicle
Purified Water 99.775%
Stabilizers
Food-Grade 0.200%
Particle Size Distribution
Typical Profile — Colloidal Silver Nanoparticles <100nm
10–30 nm
22%
30–50 nm
38%
50–70 nm Peak
52%
70–90 nm
28%
90–100 nm
14%
68 nm
Mean Particle Size
<100 nm
100% of particles
250 ppm
Silver Concentration
What this means

Every silver particle in NanoFOR is smaller than 1/700th the width of a human hair. At this scale, silver becomes dramatically more antimicrobial — each drop releases billions of particles that attack pathogens simultaneously.

Below 100nm is the scientific threshold for "nanotechnology." Peer-reviewed research (Frontiers in Microbiology, 2016, 2024) confirms particles in this range show the strongest antibacterial activity. Values shown represent typical distribution curves achieved through controlled wet-chemistry synthesis.

Kill Mechanism
Three simultaneous biochemical attacks.
No organism in recorded science has developed resistance to this multi-vector mechanism.
01

Membrane Rupture

Catalytic oxidation tears open the cell wall. Internal components exposed. First defence eliminated.

02

Energy Shutdown

ATP-producing enzymes disabled. Energy supply cut. All metabolic activity ceases.

03

DNA Blocking

Silver binds with DNA. Replication permanently prevented. No reproduction. No spread.

Documented in Research
Backed by decades of peer-reviewed science.
Silver nanoparticle antimicrobial activity has been studied extensively. NanoFOR is formulated at the specifications where this science proves effective.
How to read this chart

Each bar shows the pathogen kill rate documented in peer-reviewed research for silver nanoparticles at NanoFOR's specifications. 99.9% means silver nanoparticles destroyed 99.9 out of every 100 pathogen cells — only 1 in 1,000 survived the treatment.

E. coli99.9%
Causes severe stomach cramps, bloody diarrhea, and vomiting. 5-10% of infections lead to kidney failure. Common on leafy greens.
Salmonella typhimurium99.9%
Causes diarrhea, high fever, and abdominal cramps. Linked to typhoid fever. Over 1 million cases globally each year.
Listeria monocytogenes99.9%
Causes meningitis, brain infection, and sepsis. Fatal to newborns. 20-30% mortality rate in invasive cases. Survives refrigeration.
Staphylococcus aureus99.9%
Causes skin infections, food poisoning, pneumonia, and blood infections. Spreads via unwashed hands. Rapid onset — symptoms within hours.
MRSA99.9%
Methicillin-resistant Staph — resistant to most antibiotics. Causes dangerous wound infections and pneumonia. WHO priority pathogen.
Candida albicans99.9%
Fungal pathogen causing yeast infections, thrush, and systemic candidiasis. Spreads rapidly in immune-compromised patients.
Pseudomonas aeruginosa99.9%
Causes lung infections, urinary tract infections, and sepsis. Highly antibiotic-resistant. Dangerous in hospitals and immune-weak patients.
Efficacy rates shown are documented in peer-reviewed literature for colloidal silver nanoparticles at comparable specifications. See references at page bottom.

Pathogens Documented in Published Silver Nanoparticle Research

E. coliSalmonellaListeriaMRSAS. aureusPseudomonasCandidaAspergillusBacillusClostridiumKlebsiellaLegionellaHIV-1Hepatitis BInfluenza APoliovirusCampylobacterEnterococcusFusariumBotrytisVREStreptococcusProteusRhizopusPenicilliumErwiniaXanthomonas+120 more

List compiled from published silver nanoparticle antimicrobial research. NanoFOR is formulated as a silver nanoparticle solution at 250 ppm with sub-100nm particles — the specification range documented as effective in this literature.

Dosage Per Wash — NanoFOR vs. Chemical Washes

NimWash
20 ml
Veggie Clean
15 ml
Bubbles Natural
10 ml
NanoFOR
2 ml
Safety Profile
Thousands of times below the danger zone.
At recommended dilution, silver exposure is a fraction of what international bodies consider safe.
World Health Organisation Daily Permitted Limit
180 μg
micrograms per person per day
0 μg180 μg (World Health Organisation limit)
NanoFOR Exposure Per Wash
~5 μg
micrograms per wash session
~5 μg (NanoFOR)180 μg (World Health Organisation limit)
2,854
LD50 mg/kg (oral)
0
Carcinogenicity
4 hrs
Pre-harvest interval
3 yrs
Shelf stability
Silver in History
3,000+ years of trusted use.
Ancient wisdom validated by modern nanotechnology.
~400 BC
Hippocrates documents silver's healing properties
Ancient Rome & Greece
Silver vessels used for food and water storage
Middle Ages
European royalty used silver utensils to prevent disease
American Old West
Silver coins dropped into water barrels for purification
1930s
Colloidal silver becomes physicians' preferred immune support
Present Day
NASA uses silver for water purification on the International Space Station
2026
NanoFOR India brings 250 ppm silver nanotechnology to Indian homes, farms, and cattle sheds
Full Specifications
Technical data sheet summary.
Trade NameNanoFOR India
Active IngredientColloidal Silver (Ag+)
CAS Number9015-51-4
Silver Content0.025%
Concentration250 ppm
Purified Water99.775%
Food-Grade Stabilizers0.200%
Particle Size< 100 nm
pH3.5 ± 0.2
AppearanceDark brownish clear yellow solution
Specific Gravity1.01 (Water = 1)
Formulation TypeLiquid
Antibacterial Efficacy99.9%
Oral LD50 (Silver)2,854 mg/kg body weight
World Health Organisation Daily Limit180 μg/person/day
CarcinogenicityNone (NTP, IARC, OSHA — not listed)
CorrosivenessNon-corrosive
FlammabilityNon-flammable
Shelf Life3 years from manufacturing
StorageBelow 40°C, away from sunlight. Do not freeze.
Pre-Harvest Interval4 hours
Analytical MethodFE-SEM (HITACHI S4700) + UV-VIS Spectrometry
Marketed ByCarbonCred & Soil Science AI Pvt. Ltd.
References
Peer-reviewed sources.
Every scientific claim on this page can be traced back to published research. The science of silver nanoparticle antimicrobial activity is decades old and well-documented.
1
Mechanistic Basis of Antimicrobial Actions of Silver Nanoparticles
Frontiers in Microbiology, 2016 · Dakal et al.
Confirms three biochemical mechanisms (membrane rupture, ATP shutdown, DNA interaction) of silver nanoparticles against MRSA, S. typhi, K. pneumoniae, and multidrug-resistant strains.
2
Advances in Silver Nanoparticles: Comprehensive Review on Antimicrobial Mechanisms
Frontiers in Microbiology, 2024
Documents proven effectiveness of silver nanoparticles against ESKAPE pathogens (WHO-designated priority threats), viruses, and fungi.
3
Silver Nanoparticles and Their Antibacterial Applications
PMC / NCBI, 2021
Establishes silver nanoparticles as comparable or superior to conventional antibiotics against pathogenic bacteria. Confirms broad-spectrum activity covering Gram-positive, Gram-negative, and multidrug-resistant strains.
4
Antibacterial Effect of Colloidal Silver Nanoparticles
PubMed, 2021 · Varying concentrations of AgNPs
Demonstrates strong antibacterial properties of colloidal silver nanoparticle suspensions against E. coli, P. aeruginosa, S. aureus, and S. epidermidis.
5
World Health Organization Drinking Water Guidelines
WHO, 4th Edition
Establishes 180 μg/person/day as safe daily silver intake threshold. Silver is an approved water disinfectant globally.
6
NASA Environmental Control and Life Support System (ECLSS)
Public NASA documentation
Silver-based water purification deployed on the International Space Station for astronaut drinking water.
Important Note: Efficacy percentages and pathogen lists shown on this page represent documented findings from the peer-reviewed research cited above, applicable to silver nanoparticles at NanoFOR's specifications (250 ppm concentration, sub-100nm particle size). NanoFOR's active ingredient, concentration, and particle size are verified in the product Technical Data Sheet (TDS) generated through analytical lab testing.

The science speaks for itself.

NanoFOR India — formulated to the specifications where silver nanotechnology science proves effective.

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Peer-Reviewed Science · NASA-Trusted · World Health Organisation-Safe · Zero Chemicals
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Advanced silver-based hygiene solutions for kitchen produce, agricultural crops, and cattle sheds. 250 ppm colloidal silver nanotechnology engineered for Indian homes and farms.

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