@vpcollege.org
Associate Professor & Head
Vinayakrao Patil Mahavidyalaya Vaijapur
Condensed Matter Physics, Atomic and Molecular Physics, and Optics, Materials Science, Physical and Theoretical Chemistry
Scopus Publications
Scholar Citations
Scholar h-index
Scholar i10-index
Prashant Pardeshi and Baliram Lone
AIP Publishing
Shamsan Ali and Baliram Lone
Elsevier BV
Shamsan Ali and Baliram Lone
Elsevier BV
Jawaher Qasem, Prashant Pardeshi, Avinash Ingle, Ravindra Karde, Shamsan Ali, and Baliram Lone
IOP Publishing
Abstract Density functional theory quantum chemical calculations have been performed to investigate the adsorption of thymine on pristine graphene (Gr) and Titanium doped graphene (GrTi) in order to explore the potential of doped graphene as adsorbent for biomolecule DNA nucleobase thymine. The various parameters including adsorption energy, mode of charge transfer, dipole moment, HOMO-LUMO gap and DOS confirms the Ti doped graphene can be good candidate as adsorbent for thymine in terms of biosensor applications.
Jawaher Qasem and Baliram G. Lone
AIP Publishing
Our density functional method calculations reveal the molecular interaction of biomolecule deoxyribonucleic acid (DNA) nucleobase Thymine (T) on Zirconium (Zr) doped graphene to investigate the biomedical applications including dental implants, knee and chronic kidney disease. The complex system depends on molecular structural and electronic properties of the doped Zirconium atom. The different parameters were evaluated including adsorption energies, HOMO, LUMO, dipole moment and density of states (DOS). The complex system studied suggest promising template for DNA related research; particularly in biomedical field.
Shamsan Ali and Baliram Lone
AIP Publishing
The adsorption mechanism of cytosine on platinum-doped graphene was studied by performing density functional calculations to explore its role as a adsorbent for DNA base cytosine. Our theoretical study reveals the structural and electronic properties of the complex system of graphene-cytosine(Gr-Cy) strong depends on Platinum(Pt) atom.The DNA base cytosine molecule is adsorbed on pristine graphene,while there is strong chemisorption phenomenon is observed on Pt-doped graphene. We successfully reported the charge transfer, HOMO-LUMO and partial density of states (PDOS).The said study reveals the adsorbent capability of graphene for cytosine can improve by doping the Platinum dopant.
Baliram Lone, Steve Scheiner, and Tapas Kar
Elsevier BV
Baliram Lone and Vinjanmpaty Madhurima
Springer Science and Business Media LLC
Baliram Lone
American Scientific Publishers
B.G. Lone, S.S. Patil, P.W. Khirade, and S.C. Mehrotra
IEEE
B.G. Lone, P.B. Undre, S.S. Patil, P.W. Khirade, and S.C. Mehrotra
Elsevier BV