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Cascaded Latent Heat Storage (CLHS) for hightemperature CSP applications material development and characterization to lab-scale setup Subcategory (under Clean Energy): Cross Cutting Technology Readiness Level (TRL): TRL 4 – Early prototype Technology Outline (Process Description) The present research is attributed to the cascaded latent heat storage (CLHS) concept to ensure the maximization of thermal energy […]

Electrospun Nanofibers as Effective Polysulfide Trap for Advanced Lithium-Sulfur Batteries Subcategory (under Clean Energy): Cross Cutting Technology Readiness Level (TRL): TRL 4 – Early prototype Technology Outline (Process Description) In this project, fibrous cathode materials and solid-state electrolytes were developed with the use of low-cost processing techniques to overcome the persistent problem of Lithium Sulfur

Development of Hybrid 3D Architecture Electrodes for High Energy Density Supercapattery Subcategory (under Clean Energy): Storage Technology Readiness Level (TRL): TRL 4 – Early prototype Technology Outline (Process Description) Predominantly supercapacitors (SC) are beneficial energy storage devices because of their exceedingly competent charge storage capability, cyclic stability, power density, and rate capability. But the commercialization

High voltage carbon encapsulated-graded LiMn2O4:LiNi1-x-yCoxAlyO2 cathodes for rechargeable Li-ion pouch cells Subcategory (under Clean Energy): Cross Cutting Technology Readiness Level (TRL): TRL 4 – Early prototype Technology Outline (Process Description) The mileage per charge of an electric vehicle depends on the practical energy density of its lithium-ion battery’s cathode materials. The energy density relies on

Ion-exchange membranes Subcategory (under Clean Energy): Cross Cutting Technology Readiness Level (TRL): TRL 4 – Early prototype Technology Outline (Process Description) Ion exchange membranes are unique to many advanced energy devices. Their uniqueness comes from selectivity, permeability and ionic transport at elevated temperature and extremely oxidative environment. Their chemical and dimensional stability decides the specific

New electrolyte additive and electrospun polymeric nanocomposite membranes in manipulating the dendrite growth in lithium batteries Subcategory (under Clean Energy): Cross Cutting Technology Readiness Level (TRL): TRL 4 – Early prototype Technology Outline (Process Description) Lithium metal anode based batteries such as lithium-sulfur (Li-S; 2600 Wh/Kg) and lithium-air (Li-O2; 3580 Wh/Kg) have received worldwide attention,

Metal Organic Material (MOM) Embedded Electrospun Carbon Nanofiber (CNF) for Symmetric and Asymmetric Supercapacitor Subcategory (under Clean Energy): Cross Cutting Technology Readiness Level (TRL): TRL 4 – Early prototype Technology Outline (Process Description) Structural engineering of two-dimensional (2D) ultrathin metal-organic framework and hierarchical structure of metal- oxide embedded carbon nano fiber are of great significance