Transport gap of nanoparticle-passivated silicon substrates
 B. Ghosh, B. C. Das, and A. J. Pal
 Small 6, 52 (2010).

 Near-IR activity of hybrid solar cells: Enhancement of efficiency by dissociating excitons generated in PbS nanoparticles
 A. Guchhait, A. K. Rath, and A. J. Pal
 A ppl. Phys. Lett. In press (2010).

 Hybrid Core-Shell Nanoparticles: Photoinduced Electron-Transfer for Charge Separation and Solar Cell Applications,
 A. Guchhait, A. K. Rath, and A. J. Pal
 Chem. Mater. 21, 5292 (2009).

 Diode Junctions in Single ZnO Nanowires as Half-Wave Rectifiers,
 K. Mohanta and A. J. Pal
 J. Phys. Chem. C 113, 18047 (2009).

 To change transport gap of semiconducting nanoparticles without disturbing the optical one: Core-shell approach,
 B. C. Das and A. J. Pal
 Appl. Phys. Lett. 94, 082106 (2009).

 To induce negative differential resistance in organic devices through a ferroelectric polymer
 A. K. Rath and A. J. Pal
Organic Electronics 10, 1116 (2009).

 Half-wave organic-rectifiers with donor/acceptor assemblies in the molecular scale
K. Mohanta and A. J. Pal
Organic Electronics 10, 960 (2009).

.Core-Shell Hybrid Nanoparticles with Functionalized Quantum Dots and Ionic Dyes: Growth, Monolayer Formation, and Electrical Bistability,
 B. C. Das and A. J. Pal
 ACS Nano 2, 1930 (2008).

.Organization of organic molecules with inorganic nanoparticles: hybrid nanodiodes
 K. Mohanta, S. K. Batabyal, and A. J. Pal
 Advanced Functional Materials 18, 687 (2008).

 Memory applications and electrical bistability of semiconducting nanoparticles: do the phenomena depend on bandgap?
 B. C. Das and A. J. Pal
 Small 4, 542 (2008).

 Multi-functionality of Organic Devices: Light-emission, Photovoltage Generation, and Photodetection,
 S. Sahu and A. J. Pal
 J. Phys. Chem. C 112, 8446 (2008).

 Resistive Switching in Rose Bengal and other Xanthene Molecules is a Molecular Phenomenon,
 A. K. Rath and A. J. Pal
 Organic Electronics 9, 495 (2008).

 Switching between different conformers of a molecule: Multilevel memory elements
 B. C. Das and A. J. Pal
 Organic Electronics 9, 39 (2008).

 A bit per particle: Electrostatic assembly of CdSe quantum dots as memory elements
 B. C. Das, S. K. Batabyal, and A. J. Pal
 Advanced Materials 19, 4172 (2007).

.Electronically interacting composite systems for electrical bistability and memory applications,
 B. Mukherjee, S. K. Batabyal, and A. J. Pal
 Advanced Materials 19, 717 (2007).

 pn-Junction Rectifiers based on p-ZnO and n-ZnO Nanoparticles
 K. Mohanta, S. K. Batabyal, and A. J. Pal
 Chemistry of Materials 19, 3662 (2007).

 Write-Once-Read-Many times (WORM) Memory Applications in a Monolayer of Donor/Acceptor Supramolecule,
 B. Mukherjee and A. J. Pal
Chemistry of Materials 19, 1382 (2007).

.Layer-by-layer assembly of capped CdSe-nanoparticles: electrical bistability and memory phenomenon,
 S. Sahu, S. K. Majee and A. J. Pal
 Applied Physics Letters 91, 143108 (2007).

 Organic photodetectors with electrically bistable electron-acceptors and nanotubes
 S. Sahu, S. K. Batabyal and A. J. Pal
 Applied Physics Letters 90, 142112 (2007)

 (Complete list of publications in PDF and in MS-Word)