Full name Familienname, Vorname
Mallik, R.C.
 

Results 1-13 of 13 (Search time: 0.001 seconds).

PreviewAuthor(s)TitleTypeIssue Date
1Ghosh, S. ; Tippireddy, Sahil ; Shankar, Gyan ; Karatic, Anirudh ; Rogl, Gerda ; Rogl, Peter Franz ; Bauer, Ernst ; Ram, Sai ; Malladi, Krishna ; Murty, Bs ; Suwas, S. ; Mallik, R.C. InSb nanoparticles dispersion in Yb-filled Co4Sb12 improves the thermoelectric performanceArtikel Article 2021
2Rogl, Gerda ; Renk, Oliver ; Ghosh, S. ; Mallik, R.C. ; Grytsiv, Andriy ; Bursik, Jiri ; Schafler, E. ; Tuomisto, Filip ; Bauer, Ernst ; Rogl, Peter Franz Properties of HPT-processed large bulks of p-type skutterudite DD0.7Fe3CoSb12 with high ZT > 1.3Artikel Article 2021
3Ghosh, S. ; Shankar, Gyan ; Karati, Anirudha ; Rogl, Gerda ; Rogl, Peter Franz ; Bauer, Ernst ; Murty, Bs ; Suwas, S. ; Mallik, R.C. Preferential phonon scattering and low energy carrier filtering by interfaces of in situ formed InSb nanoprecipitates and GaSb nanoinclusions for enhanced thermoelectric performance of In0.2Co4Sb12+Artikel Article 2020
4Rogl, Gerda ; Ghosh, S. ; Wang, L. ; Bursik, Jiri ; Grytsiv, Andriy ; Kerber, Michael ; Bauer, Ernst ; Mallik, R.C. ; Chen, Xing-Qiu ; Zehetbauer, Michael ; Rogl, Peter Franz Half-Heusler alloys: Enhancement of ZT after severe plastic deformation (ultra-low thermal conductivity)Artikel Article 2020
5Ghosh, S. ; Shankar, Gyan ; Karati, Anirudha ; Werbach, Katharina ; Rogl, Gerda ; Rogl, Peter Franz ; Bauer, Ernst ; Murty, Bs ; Suwas, S. ; Mallik, R.C. Enhanced Thermoelectric Performance in the Ba₀.₃Co₄Sb₁₂/InSb Nanocomposite Originating from the Minimum Possible Lattice Thermal ConductivityArtikel Article 2020
6Prem Kumar, D. S. ; Chetty, R. ; Rogl, Peter ; Rogl, Gerda ; Bauer, Ernst ; Malar, P. ; Mallik, R.C. Thermoelectric properties of Cd doped tetrahedrite: Cu₁₂₋ₓCdₓSb₄S₁₃Artikel Article Nov-2016
7Rogl, Gerda ; Grytsiv, Andriy ; Yubuta, K. ; Puchegger, S. ; Bauer, E. ; Raju, C. ; Mallik, R.C. ; Rogl, P. In-doped multifilled n-type skutterudites with ZT=1.8Artikel Article 2015
8Chetty, R. ; Kumar D.S., Prem ; Rogl, Gerda ; Rogl, Peter Franz ; Bauer, Ernst ; Michor, Herwig ; Suwas, S. ; Puchegger, Stephan ; Giester, G. ; Mallik, R.C. Thermoelectric properties of a Mn substituted synthetic tetrahedriteArtikel Article 2015
9Rogl, G. ; Grytsiv, A. ; Rogl, P. ; Bauer, E. ; Hochenhofer, M. ; Anbalagan, R. ; Mallik, R.C. ; Schafler, E. Nanostructuring of p- and n-type skutterudites reaching figures of merit of approximately 1.3 and 1.6, respectivelyArtikel Article 2014
10Mallik, R.C. ; Anbalagan, R. ; Rogl, Gerda ; Royanian, E. ; Heinrich, P. ; Bauer, E. ; Rogl, Peter ; Suwas, S. Thermoelectric properties of Fe(0.2)Co(3.8)Sbi(12-x)Te(x) skutteruditesArtikel Article Oct-2013
11Anbalagan, R. ; Rogl, Gerda ; Rogl, P. ; Sharma, A. ; Suwas, S. ; Mallik, R.C. ; Zehetbauer, Michael Effect of High Pressure Torsion in Texture, Microstructure and Raman Spectroscopy Study of the Fe and Te Substituted Co4Sb12Präsentation Presentation2013
12Chetty, R. ; Falmbigl, M. ; Rogl, P. ; Heinrich, Patrik ; Royanian, Esmaeil ; Bauer, Ernst ; Suwas, S. ; Mallik, R.C. The effect of multisubstitution on the thermoelectric properties of chalcogenide-based Cu2.1Zn0.9Sn1-xInxSe4 (0 x 0.1)Artikel Article 2013
13Ramakrishnam, A. ; Royanian, Esmaeil ; Bauer, Ernst ; Rogl, Gerda ; Rogl, P. ; Mallik, R.C. Thermoelectric Properties of Fe0.2Co3.8Sb12-xTex SkutteruditesPräsentation Presentation2011