The invention presents a panel of protein biomarkers for dengue fever (DF) and its severe form, dengue hemorrhagic fever (DHF). These biomarkers aid in predicting disease progression from DF to DHF and assessing severity.

This invention identifies the molecular features that make high-grade gliomas, a type of brain tumor, more aggressive.

This innovation shows an approach for diagnosing and classifying gliomas, a type of brain tumor, using autoantibody profiling.

This technology developed a new way to measure protein levels in blood samples without the usual hassles of purification and calibration. The method accurately detected specific proteins even in complex samples like serum.

• Terrorist attacks increased manifold in recent times leading to the loss of lives of military personnel and civilians. Blast and Ballistic attacks can cause failure of structural components or structures.

The invention pertains to O3-structured 'layered' Na-transition metal oxide (NaTMO2) cathode active material for Na-ion batteries.

The present invention introduces an air-stable sodium titanate-based anode material for Na-ion batteries, composed of 70-72 vol.% Na2Ti3O7 and 28-30 vol.% Na2Ti6O13, referred to as 8Bi-phase NTO.9 This material can be used to prepare high- perform

The present invention involves the development of a composite of reduced graphene oxide reinforced with antimony (Sb-rGO), featuring a distinct morphology and phase composition.

The invention discloses a scalable ball milling-based method to synthesize Sn-Bi alloy electrodes for sodium-ion batteries.

The present invention focuses on designing the composition of layered sodium transition metal (TM) oxides to develop P2-type layered Na-TM oxides with high Na- content, specifically in the range of 0.83 to 0.85 per formula unit (p.f.u.).