Our research covers a variety of fundamental and applied topics on organic materials and devices for future electronics. Our interest in this topic is motivated by the potential of organic electronics to greatly impact the future semiconductor
industry by low-cost, high diversity and low power consumption. Following are few examples of our research in organic semiconductor materials and devices
Quasi-one-dimensional organic semiconductor triphenyl-methyl-phosphonium teracyanoquinodimethane (TCNQ) crystals were investigated under hydrostatic pressure. Changes in conductivity and thermo power were observed due to the change in energy gap in the samples and phase transformation.

Tensile resistive effect in triphenyl-methyl-phosphonium TCNQ twinned crystals was investigated. A strong dependence of resistance on strain observed is considered due to the influence of defects on conductivity in twinned quasi-one –dimensional crystals.

Photo-thermo-electrochemical effect in n-InP/aqueous solution of orange dye/C cell was observed. It was found that open-circuit voltage and short circuit current increases with increase in intensity of light and accordingly temperature of electrolyte (OD). With increase of concentration of the OD the efficiency of the cell is observed increased.