2007
1. Short Range Scattering Effect of InAs Quantum Dots in the Transport Properties of Two Dimensional Electron Gas, E. S. Kannan, Gil-Ho Kim, Sanjeev Kumar, I. Farrer, D. A. Ritchie, Jun Ho Son, Jeong Min Baik, Jong-Lam Lee, D. H. Youn, and Kwang-Yong Kang, Appl. Phys. Lett. 90, 152110 (2007).
2. Experimental Evidence for Weak Insulator - Quantum Hall Transitions in GaN/AlGaN Two-dimensional Electron Systems, E. S. Kannan, Gil-Ho Kim,_Jyun-Ying Lin, Jing-Han Chen, Kuang Yao Chen, Zhi-Yao Zhang, C.-T. Liang, Li-Hung Lin, D. H. Youn, and Kwang-Yong Kang, and N. C. Chen, J. Korean Phys. Society 50, 1643 (2007).
3. Transport hysteresis in AlGaAs/GaAs double quantum well system with InAs quantum dots, E. S. Kannan, Gil-Ho Kim, I. Farrer, and D. A. Ritchie, J. Phys. Condens. Matter 19, 506207 (2007).
2008
1. Self Assembled InAs quantum Dots to Investigate the Tunneling between Edge States in AlGaAs/GaAs Double Quantum Well System, E. S. Kannan, Gil-Ho Kim, I. Farrer, and D. A. Ritchie, Physica E 40, 1442 (2008).
2. Charge trapping in double quantum well system, E. S. Kannan, Gil-Ho Kim, I. Farrer, and D. A. Ritchie, J. Phys. Condens. Matter 20, 455206 (2008).
2009
1. Transport mechanism in the quantum well embedded with quantum dots, E. S. Kannan, Gil-Ho Kim, I. Farrer, and D. A. Ritchie, Phys. status solidi 6, 813-816 (2009).
2. Memory Characteristics of InAs Quantum Dots Embedded in GaAs Quantum Well,
E. S. Kannan, Gil-Ho Kim, and D. A. Ritchie, Appl. Phys. Lett. 95, 143506 (2009).
3. Capacitance-Voltage and Current-Voltage Characteristics of Graphite Oxide Thin Films Patterned by UV Photolithography In yeal Lee, E. S. Kannan, and Gil-Ho Kim, Appl. Phys. Lett. 95, 263308 (2009) .
2010
1. Crossover from negative to positive magnetoresistance in the double quantum well system with different starting disorder E. S. Kannan, Mohammad Reza Karamad, Gil-Ho Kim, and D. A. Ritchie, J. Phys. Condens. Matter 22, 045802 (2010) .
2. Charge trapping in quantum dot memory devices with different dot densities, E. S. Kannan, Gil-Ho Kim, and D. A. Ritchie, J. Phys. D. Appl. Phys. 43, 225101 (2010).
2011
1. Photovoltage induced by ratchet effect in Si/SiGe heterostructure under microwave irradiation, E. S. Kannan, I. Bisotto, J.-C. Portal, R. Murali and T. J. Beck, Appl. Phys. Lett. 98, 193505 (2011) (Selected for virtual journal of nanoscience and technology)
2. Microwave based nanogenerator using ratchet effect in Si / SiGe heterostructures, I. Bisotto, E. S. Kannan, J.-C. Portal, R. Murali, T. J. Beck and L. Jalabert, Nanotechnology 22, 245401 (2011).
2012
1. Reduced graphene oxide produced by rapid-heating reduction and its use in carbon-based field-effect transistors In-yeal Lee, Jianwei Wang1, Gil-Ho Kim, Jin-Hong Park, E. S. Kannan, Ji-Hoon Jang, Young-Uk Kwon, J. Appl. Phys. 112, 033701 (2012).
2. "Energy Free Microwave Based Signal Communication Using Ratchet Effect" , E. S. Kannan, I. Bisotto, L. Jalabert, T. J. Beck, and J.-C. Portal, Applied Physics Letters 101, 143504 (2012).
2013:
1. "Probing the co-existence of semiclassical transport and localization in a two dimensional electron gas using microwave radiation" Chang-Shun Hsu, E.S.Kannan, J.-C.Portal, C.-T.Liang , C.F.Huang , S.-D.Lin, Solid state Communication 156 45 (2013).
2014:
1
. "Ratchet effect study in Si/SiGe heterostructures in the presence of asymmetrical antidots for different polarizations of microwaves" I. Bisotto,
E.S. Kannan, J.-C. Portal, D. Brown, T.J. Beck, Y. Krupko1, L. Jalabert, H. Fujita, Y. Hoshi, Y. Shiraki and T. Saraya, Sci & Tech. of Adv. Materials
15, 045005 (2014).
2015:
1. "Reduced Graphene Oxide for Room Temperature Hydrogen Storage Application",. Venkatesan, Raj Nanalal Patel, and E. S. Kannan, Advanced Materials Research, 1086, 91 (2015).
2. Non-degenerate n-type doping by hydrazine treatment in metal work function engineered WSe2 field-effect transistor, Inyeal Lee, Servin Rathi, Lijun Li, Dongsuk Lim, Muhammad Atif Khan, E S Kannan and Gil-Ho Kim, Nanotechnology, 26, 455203 (2015).
2016:
1.High performance MoS2-based field-effect transistor enabled by hydrazine doping, Dongsuk Lim, E S Kannan, Inyeal Lee, Servin Rathi, Lijun Li, Yoontae Lee, Muhammad Atif Khan, Moonshik Kang, Jinwoo Park and Gil-Ho Kim, Nanotechnology, 27 225201 (2016).
2. In-situ reduction of graphene oxide on vertically aligned ZnO nanorods for reliable electrical contacts, A. Venkatesan, C. K. Ramesha, and E. S. Kannan, Journal of Physics D- Applid Physics, 49 245301 (2016)
3. Low temperature hydrogen sensing using reduced graphite oxide and tin oxide nanoflowers based hybrid structure, A. Venkatesan, Servin Rathi, In-Yeal Lee, Jinwoo Park, Dongsuk Lim, Gil-Ho Kim and E. S. Kannan, Semiconductor Science and Technology, 31, 125014 (2016)
2017:
1.Highly ordered copper oxide nanopillar arrays using template assisted electrodeposition technique and temperature dependent electrical characteristics, A. Venkatesan and E. S. Kannan, Current Applied Physics 17, 806 (2017).
2. Molybdenum disulfide nanoparticles decorated reduced graphene oxide: highly sensitive and selective hydrogen sensor , A. Venkatesan, Servin Rathi, In-Yeal Lee, Jinwoo Park, Dongsuk Lim, Moonshik Kang, Han-Ik Joh, Gil-Ho Kim and E. S. Kannan, Nanotechnology 28, 365501 (2017).
2019:
1.. Physical effects of passivation and creation of sulphur vacancy in MoS2 nanoparticles, R. Anu Roshini and E. S. Kannan, Mater. Res. Express 6 115045 (2019).
2. Anomalous conductance induced by hydrogen in ZnO and catalyzed ZnO nanoflowers, R. Anu Roshini, K. Nagpal and E. S. Kannan, Euro. Phys. Lett. 127 57005 (2019).
3. “Realization of vertically aligned 1-D Ferrous nanorods using template assisted electrochemical deposition” R. Anu Roshini and E. S. Kannan, IOP Conf. Series: Materials Science and Engineering 577 012037 (2019).
2020:
1. "Single crystal flake parameters of MoS2 and MoSe2 exfoliated using anodic bonding technique and its potential in rapid prototyping" C. Malavika, R. Anu Roshini, R. S. Surya Kanthi and E. S. Kannan, J. Phys. Commun. 4 105015 (2020)
2021:
1. "Thermal bi-stability and hysteresis in heterophase molybdenum di-selenide "C. Malavika, R. Anu Roshini, and E. S. Kannan, Appl. Phys. Lett. 118, 133505 (2021).
2022 :
1."Pinched hysteresis as a regeneration marker for semiconductor photocatalyst" R. Anu Roshini and E. S. Kannan, Material Chemistry and Physics 275, 125247 (2022).
2. Anomalous behavior induced by water insertion in Molybdenum disulfide nanoflowers, R. Anu Roshini, C. Malavika, B. Manoj Kumar and E. S. Kannan, Semiconductor Science and Technology 37, 025012 (2022).
3. Photoinduced exfoliation - A facile synthesis route for atomirstor prototype C. Malavika, B. Manoj Kumar and E. S. Kannan, Appl. Phys. Lett. 120, 143503 (2022).
2024:
1. Structural, magnetic, optical and electronic properties of Gd2NiIrO6, G. Bhavani , T. Durga Rao, Manish K. Niranjan, K. Ramesh Kumar, B. Sattibabu, V. Petkov, E.S. Kannan, B.H. Reddy, Physica B: Condensed Matter 695, 416477 (2024)