Total Publications > 25; Total Citations > 400; H-index – 13; GOOGLE SCHOLAR

             AS PRINCIPAL INVESTIGATOR AT ILLINOIS STATE UNIVERSITY

 28.       Block Co-Polymer Templated Fabrication of TiO2 Nanodot Films using Pulsed Laser Deposition', Krishna Pandey, Kartik Ghosh, Uttam Manna, Mahua Biswas, Journal of Physical Chemistry C, 122, 16325, (2018).

 27.       'Block-copolymerassisted fabrication of anisotropic plasmonic nanostructures', Calbi J Gunder, Pijush Kanti Dhara, Uttam Manna*, Mahua Biswas*, Nanotechnology, 29, 355303, (2018). [*shared corresponding author]  

 

             PRIOR TO JOINING ILLINOIS STATE UNIVERSITY

 26.       'Selective Induction of Optical Magnetism', U. Manna, J. -H. Lee, T. -S. Deng, J. Parker, N. Shepherd, Y. Weizmann, and N. F. Scherer, Nano Letters, 17, 7196 (2017).

 25.       'Enhancing Nanoparticle Electrodynamicswith Gold Nanoplate Mirrors', Z. Yan, Y. Bao*, U. Manna*, R. A. Shah and N. F. Scherer, Nano Letters, 14, 2436 (2014). [*Equal Contribution]

 24.       Hierarchical PhotonicSynthesis of Hybrid Nanoparticle Assemblies, Z. Yan, U. Manna, W. Qin, A. Camire, P. Guyot-Sionnest, and N. F. Scherer, The Journal of Physical Chemistry Letters, 4, 2630 (2013).

 23.       'Vertical correlation and miniband formation in submonolayer Zn(Cd)Te/ZnCdSe type-II quantum dots for intermediate band solar cell application’, S. Dhomkar, U. Manna, I. C. Noyan, M. C. Tamargo, and I. L. Kuskovsky, Applied Physics Letters, 103, 181905 (2013).

 22.       Feasibility of submonolayer ZnTe/ZnCdSe quantum dots as intermediate band solar cell material system S. Dhomkar*, U. Manna*, L. Peng, R. Moug, I. C. Noyan, M. C. Tamargo, and I. L. Kuskovsky, Solar Energy Materials & Solar cells, 117, 604 (2013). [*Equal contribution]

 21.       'Optimization of growth conditions of type-II Zn(Cd)Te/ZnCdSe submonolayer quantum dot superlattices for intermediate band solar cells, S. Dhomkar, I. L. Kuskovsky, U. Manna, I. C. Noyan, and M. C. Tamargo, Journal of Vacuum Science & Technology B, 31, 03C119 (2013).

 20.       'Radiative transitions in stacked type-II ZnMgTe quantum dots embedded in ZnSe’, U. Manna, Q. Zhang, S. Dhomkar, I. F. Salakhutdinov, M. C. Tamargo, I. C. Noyan, G. F. Neumark, and I. L. Kuskovsky, Journal of Applied Physics, 112, 063521 (2012).

19.       Structural properties and spatial ordering in multilayered ZnMgTe/ZnSe type-II quantum dot structures, U. Manna, I. C. Noyan, Q. Zhang, I. F. Salakhutdinov, K. A. Dunn, S. W. Novak, R. Moug, M. C. Tamargo, G. F. Neumark, and I. L. Kuskovsky, Journal of Applied Physics, 111, 033516 (2012).

 18.       X-ray diffraction study of ferroelectric and antiferroelectric liquid crystal mixtures exhibiting de Vries SmA*-SmC* transitions’, U. Manna, R. M. Richardson, A. Fukuda, and J. K. Vij, Physical Review E (Rapid Communication), 81, 050701 (2010).

 17.       Electric field induced biaxiality and the electro-optic effect in a cluster nematic phase of bentcore liquid crystals’, M. Nagaraj, Y. P. Panarin, U. Manna, J.K. Vij, and C. Tschierske, Applied Physics Letters, 96, 011106 (2010).

 16.       Effects of confinement and electric field on the dielectric behavior of smectic-Cα phase, U. Manna, Jang-Kun Song, A. D. L. Chandani, and J. K. Vij, Molecular Crystals & Liquid Crystals, 512, 1867 (2009).

 15.       Realization of Field Sequential Color in Simple Matrix Antiferroelectric Liquid Crystal Displays by Utilizing Fast Pretransitional Response’, Y. Suzuki, G.-P. Chen, U. Manna, J. K. Vij, and A. Fukuda, Applied Physics Express, 2, 071403 (2009).

 14.       Anomalous dependence of response time on electric field in an electroclinic liquid crystals with large induced tilt and polarization’, U. Manna, Jang-Kun Song, J. K. Vij, and J. Naciri, Applied Physics Letters, 94, 012901 (2009).

 13.       Electric Field dependent dielectric response in the de Vries-type smectic-A phase possessing local orientational order with nanoscale correlation length’, U. Manna, J. K. Song, J. K. Vij, J. Naciri, Physical Review E, 78, 041705 (2008).

 12.       Antiferroelectric dielectric relaxation processes and the interlayer interaction in antiferroelectric liquid crystals, J. K. Song, U. Manna, A. Fukuda, and J. K. Vij, Applied Physics Letters, 93, 142903 (2008).

 11.       Effect of the cell surfaces on the stability of the chiral smectic-C phases’, U. Manna, J. K. Song, G. Power, and J. K. Vij, Physical Review E, 78, 021711, (2008).

 10.       Electro-optic and dielectric study of the de Vries-type smecticc-A phase exhibiting transitions to smectic-C*A and smectic-C phases, U. Manna, J. K. Song, Y. P. Panarin, A. Fukuda, J. K. Vij, Physical Review E, 77, 041707, (2008).

 9.         Mechanism of field-induced unwinding of SmC* helix and bias field dependencies of dielectric permittivity and effective polarization, J. K. Song, U. Manna, and J. K. Vij, Europhysics Letters, 82, 26003, (2008).

 8.         Sign reversals in the dielectric anisotropy as functions of temperature and frequency in SmA phase, J. K. Song, U. Manna, A. Fukuda, and J. K. Vij, Applied Physics Letters, 91, 042907, (2007).

 7.         Comment on ‘Optical and Resonant X-Ray Diffraction Studies Confirm a SmC*FI2-SmC* Liquid Crystal Phase Sequence Reversal’, K. L. Sandhya, Y. P. Panarin, U. Manna, J. K. Vij, and S. Kumar, Physical Review Letters, 98, 219801, (2007).

6.         Admittance Spectroscopic Analysis of Polymer Light Emitting Diodes with the LiF Cathode Buffer Layer, H. M. Kim, U. Manna, K. S. Jang, J. Yi, S. Sohn, K. Park, and D. Jung, Molecular Crystal & Liquid Crystals, 459, 11, (2006).

 5.         Characteristics of Polymer Light Emitting Diodes with the LiF Anode Interfacial Layer’, S. Sohn, K. Park, D. Lee, D. Jung, H. M. Kim, U. Manna, J. Yi, J. Boo, H. Chae and H. Kim, Japanese Journal of Applied Physics, 45(4B), 3733, (2006).

 4.         Enhanced carrier injection of organic light emitting devices using self-assembled monolayer in the cathode/organic interface, U. Manna, H. M. Kim, M. Gowtham, J. Yi, S. Sohn and D. Jung, Thin Solid Films, 495, 380, (2006).

 3.         A novel low cost texturization method for large area commercial mono-crystalline silicon solar cells, U. Gangopadhyaya, K. Kim, S. K. Dhungel, U. Manna, P. K. Basu, M. Banerjee, H. Saha, J. Yi,  Solar Energy Materials & Solar Cells, 90, 3557, (2006).

 2.         Novel low cost chemical texturing for very large area industrial multi- crystalline silicon solar cells’, U. Gangopadhyay, S. K. Dhungel, K. Kim, U. Manna, P. K. Basu, H. J. Kim, B. Karunagaran, K. S. Lee, J. S. Yoo, J. Yi, Semiconductor Science & Technology, 20(9), 938, (2005).

 1.         The effect of the thickness of a ZnO: Al back reflector on the performance of pin thin-film solar cells, U. Manna, J. Yoo, S. K. Dhungel, M. Gowtham, U. Gangopadhyay, K. Kim, J. Yi, and H. Saha, Journal of the Korean Physical Society, 46, 1378-1382, (2005).