India's manufacturing capacity for Solar Photovoltaic (PV) modules will likely reach 100 GW by year 2026. Echoing the favorable policy environment created by the Indian government, PV manufacturing has grown rapidly in the last two to three years. Between 2020 and 2023, the capacity for both cells and modules has increased more than doubled in India. With the implementation of the Atmanirbhar Bharat Abhiyan campaign in year 2020, domestic manufacturing has become one of the key pillars of India's long-term development strategy.

IPEROX PV- Photovoltaic Grade Hydrogen Peroxide for Solar Cell Manufacturing

Only manufacturer of PHOTOVOLTAIC GRADE HYDROGEN PEROXIDE in INDIA

Concept - Photovoltaic Effluent Treatment

PV Hydrogen Peroxide is used to removed organic residuals from the water surface.
Helps in saving costs at every step of supply chain.
PV Grade Hydrogen Peroxide is used on cell surface prior to manufacturing of module production.
PV Hydrogen Peroxide used for effluent treatment and also for energy production.
Allows use for PERC, TOP Con & HJT Technology.

IPEROX PV

Product Type

Clear, colourless liquid.
Lightly stabilized.
Best before 12 months from the date of manufacturing.

Technology & Applications

Based on Advanced technology.
Eco-friendly solution using Solar Cell manufacturing.
To be used without dilution in Solar Cell production line.
Formulated for use in PERC, TOP Con & HJT Machines.

Advantages

High purity PPB strong antimicrobial & oxidising agent.
PV Hydrogen Peroxide to improve shelf life and effeciency of Solar cell.
Sustains elevated temperatures during packaging. Stable concentration during cell production.
Minimal residue on bath grade solutions.
Helps in maintaining regular operation time between cleaning cycles.
Helps in achieving desired microbial reduction, better health, wellness & nutrients in the cell production unit.

Typical Specifications

Parameters	Units	IPL Specifications	Method of Analysis
Assay (H2O2 content - w/w)	%	31.0 ± 1.0	By KMnO4 Titration
Non-Volatile matter	ppm	≤ 15	By Evaporation
Chloride (Cl)	ppm	≤ 0.5	By Hach Spectrometer
Nitrogen (N)	ppm	≤ 2	By Analyser
Phosphate (PO4)	ppm	≤ 2	By Hach Spectrometer
Boron (B)	ppm	≤ 0.02	By ICP
Lithium (Li)	ppm	≤ 0.02	By ICP
Sodium (Na)	ppm	≤ 0.02	By ICP
Magnesium (Mg)	ppm	≤ 0.05	By ICP
Aluminum (Al)	ppm	≤ 0.02	By ICP
Potassium (K)	ppm	≤ 0.2	By ICP
Calcium (Ca)	ppm	≤ 0.2	By ICP
Titanium (Ti)	ppm	≤ 0.02	By ICP
Chromium (Cr)	ppm	≤ 0.02	By ICP
Manganese (Mn)	ppm	≤ 0.01	By ICP
Iron (Fe)	ppm	≤ 0.5	By ICP
Cobalt (Co)	ppm	≤ 0.02	By ICP
Nickel (Ni)	ppm	≤ 0.02	By ICP
Copper (Cu)	ppm	≤ 0.02	By ICP
Zinc (Zn)	ppm	≤ 0.02	By ICP
Gallium (Ga)	ppm	≤ 0.02	By ICP
Arsenic (As)	ppm	≤ 0.02	By ICP
Molybdenum (Mo)	ppm	≤ 0.01	By ICP
Density at 20 ºC	g/ml	Min. 1.13	By Hydrometer

Features

High purity & no heavy metals.
Decomposes to form water and oxygen.
Available in packaging with DIP tube.
Can be easily dosed into any process with a metering pump or through gravity feed.
Compatible with high purity aluminium (99.5%), approved grades of HDPE & PIFE.

Storage

Store in a cool, dry & well-ventilated place.
Avoid elevated temperatures during storage.
Keep IBC in an upright position.
Avoid contamination of any kind â€“ dirt, caustic, reducing agents and metals.
Do not store IBC on wooden pallets or near combustible materials.

Safety

Read and follow the product TDS & MSDS.
Not meant for human consumption.
Handle spills through water dilution.
Use PPE viz. splash goggles, vapor respirator, gloves and boots while handling.
Keep container lid closed when not in use & do not mix used material in original container.

Manufacturing Standards

FSSAI & ISO approved facility.
Total customer satisfaction through operational excellence.
Highest degree of safety practices in manufacturing & transportation.