Intelligent Materials Private Limited

Nanoshel Conductive Nanotubes Composite (CALIB) is a Carbon Nanotubes based Conductive Additive for Lithium Ion Battery and other applications. It is a Nano Composite Material specifically designed for improving Lithium Ion Battery Performance It is composed of Carbon Nanotubes and of grain electrode conductive additives. By adding grain electrode conductive additives to Carbon Nanotubes, the entangled Nanotubes are well separated.

The detection of chemical and biological warf are agents,encapsulated in monomolecular layers of functionalized alkanethiols radiological agents, and other hazardous vapors has significant deposited on interrogated microelectronics reversibly absorb vapors, import for both the military and homeland security efforts. Small, Monolayer swelling or dielectric alteration in the thin film caused lightweight, port able, and high sensitive sensors based on by absorption of the vapor molecules causes a small current. The nanomaterials are currently being developed and evaluated, system appears to have minimal water sensitivity, but can detect harmful vapors down to the parts per billion level or lower. Gold nano particles have been investigated for use in sensors for Selectivity of the sensors can be tailored by changing the both chemical and biological warfare agents. In one example, structure and functionality of the alkanethiol. Microchips for detecting chemical, biological and radiological agents that are based on nano particles are also being developed.

Cement Structures can absorb water over 11 ltrs per sq. m., while concrete blocks can absorb upto 22 ltrs per sq. m. in 6 hours, during 32 km per hour wind driven rain. Rain water enters into structures and causes aesthetic and structural damages. Nano Protective Waterproofing is 100 % Organo Silane, eco friendly, water soluble nanotechnology. It is reactive waterproofing with penetration upto 2 mm into concrete pores / cementitious surfaces offering 360° envelope and creates an impervious monolithic membrane to eliminate seepages. It is inspired by nature’s nanotechnology and mimics the lotus leaf.

Nanoshel Nanoclays are derived from naturally occurring clay mineral especially purified and processed in order to obtain nanoclay suitable for the production of a nanocomposite material. Polymer-clay nanocomposite represents one of the most interesting classes of materials developed in recent years. Nanocomposite provide dramatic improvements if compared with virgin polymers. Moreover the content of nanoclay is often included in the following range: 2-5% weight.

Some of the most important improved properties are the following:

• Flame retardancy and thermal stability

• Mechanical properties: stiffness, melt fracture reduction, tension, compression and bending

• Barrier properties to oxygen, CO2, vapor barrier and solvent resistance

Clay Nano composites are being used to provide an impermeable barrier to gasses such as oxygen or carbon dioxide in lightweight bottles, cartons and packaging films. Storage bins are being produced with silver Nanoshel Nanoparticles embedded in the plastic. The silver Nanoshel Nanoparticles kill bacteria from any material that was previously stored in the bins, minimizing health risks from harmful bacteria.

Nanotechnologies for Thermal Insulation:

Micro- and nanoporous aerogel materials are appropriate for being core materials of vacuum insulation panels but they are sensitive to moisture. As a possible remedy it was produced an ultra-thin wall insulation which uses a hydrophobic nanoporous aerogel structure. Another application of aerogels is silica based products for transparent insulation, which leads to the possibility of super-insulating windows. Micro- or nano electo mechanical systems offer the possibility of monitoring and controlling the internal environment of buildings and this could lead to energy savings.

Hydro-abrasive erosion due to high concentration of hard particles results in high revenue losses due to productivity losses, efficiency reduction and repair work and outage times. The damages can be so high that the mechanical integrity of the turbines is not given anymore, which could lead to severe accidents.

Nanoshel Safety and Handling of Nano Materials need some specialized devices for personal protection and safety. Our product range caters to the applications for following industries such as: Nano R&D Labs, Automobile, Construction, Mines, Power, Engineering, Pharma, Chemicals, Ports & Shipyards, Textiles, Refineries & Others. It's unique design and adhesion technology forms an adhesion seal between the respirator and the face (the face-seal) minimizing the problems of hazardous inward leakage between the respirator and the face common to conventional respirator designs that are held in place by straps or rubber bands.

The nano filtration technique is mainly used for the removal of two valued ions and the larger mono valued ions such as heavy metals. This technique can be seen as a coarse RO (reversed osmosis) membrane. Because nano filtration uses less fine membranes, the feed pressure of the NF system is generally lower compared to RO systems. Also the fouling rate is lower compared to RO systems.

NANOSHEL® utilizes Nano science solutions to meet industrial lubrication challenges and also address the latest developments in corrosion control and fuel enhancement for transportation, marine, industry, and heavy equipment.

NANOSHEL® supplies nano additives for lubricant and grease manufacturers to enhance their products by evolving from toxic and inferior EP/AW additive packages to a more efficient and cost effective nano technology.

NANOSHEL® offers technology made from nano potassium borate, hexagonal boron nitride (hBN), tungsten disulfide (WS2) plus other advanced complex Nano particle solutions.

Products of epoxy resins series are electrically conductive, solvent-free and stably crystallizing epoxy resins. They consist of low-molecular bis phenol A and bis phenol F components, and contain carbon Nano particles. The electrical conductivity of epoxy resins can be optimized for a very wide selection of applications by simply varying the carbon concentration. Aimed at as wide a range of applications as possible, Nano conductive Epoxy Resin is obtainable in two basic types for different viscosity and hardening parameters:

Epoxy Resins can be used wherever very high electrical conductivity is called for, e.g.

• Floors
• Coatings
• Cast parts
• ESD protective components

Thermal interface materials (TIMs) are used in electronics packaging to increase heat conduction across the interface between two relatively at surfaces. A good TIM will have both high conductivity and the ability to conform and contact the surfaces well There are a number of compositions of the TIM, but they typically involve mixtures of a highly conductive and a carrier In some other cases, the TIM may also have the conductive paste on a metallic foil to stabilize the thickness of the material. Performance of a TIM is based on the ability of the paste to now and contact the surfaces in question while at the same time having very good contacts between the particle that lead to the maximization of the conduction paths from surface to surface.