Publications

Nirma Kumari, Titas Dasgupta "Developing contacting solutions for n-type Mg3Sb1.5Bi0.5 based thermoelectric materials", Journal of Alloys and Compounds 944(2023):169220.

Biswas, Rajan, et al."Enhanced Thermoelectric Performance in Zn1–xCdxSb (x = 0–0.375) Solid Solutions by Dynamic Optimization of Charge Carrier Concentration" ACS Appl. Energy Mater. 5, 10 (2022): 12752–12759.

Biswas, Rajan, et al."Vacancy induced anomalies in the electrical transport properties of Ag-doped Zn1−xCdxSb (x = 0.375) solid solutions" Appl. Phys. Lett. 120 (2022): 032102.

Biswas, Rajan, et al. "Influence of zinc content and grain size on enhanced thermoelectric performance of optimally doped ZnSb" Materials Research Bulletin 149 (2022): 111702.

Goyal, Gagan K., and Titas Dasgupta. "Generic Approach for Contacting Thermoelectric Solid Solutions: Case Study in n-and p-Type Mg2Si0. 3Sn0. 7" ACS Applied Materials & Interfaces 13.17 (2021): 20754-20762. 

Goyal, Gagan K., and T. Dasgupta. "Fabrication and testing of Mg2Si1-xSnx based thermoelectric generator module" Materials Science and Engineering: B 272 (2021): 115338. 

Jayachandran, B., et al. "Thermally stable, low resistance Mg2Si0. 4Sn0. 6/Cu thermoelectric contacts using SS 304 interlayer by one step sintering" Materials Research Bulletin 136 (2021): 111147. 

Khan, M. I., et al. "The defining role of interface crystallography in corrosion of a two-phase pearlitic steel" Philosophical Magazine 100.11 (2020): 1439-1453. 

Tippireddy, Sahil, et al. "Thermoelectric properties of Al substituted tetrahedrite" Journal of Applied Physics 127.3 (2020): 035105. 

Naithani, Harshita, and Titas Dasgupta. "Critical analysis of single band modeling of thermoelectric materials" ACS Applied Energy Materials 3.3 (2019): 2200-2213. 

Kamila, Hasbuna, et al. "Systematic analysis of the interplay between synthesis route, microstructure, and thermoelectric performance in p-type Mg2Si0. 2Sn0. 8" Materials Today Physics 9 (2019): 100133. 

Biswas, Rajan, et al. "Ultralow thermal conductivity and low charge carrier scattering potential in Zn1-xCdxSb solid solutions for thermoelectric application-" Materials Today Energy 12 (2019): 107-113. 

Mitra, Kunal, S. Mahapatra, and T. Dasgupta. "Fabrication of Nickel Contacts for Mg 2 Si Based Thermoelectric Generators via an Induction Assisted Rapid Monoblock Sintering Technique" Journal of Electronic Materials 48.3 (2019): 1754-1757. 

Goyal, Gagan K., et al. "High thermoelectric performance in Mg2 (Si0. 3Sn0. 7) by enhanced phonon scattering" ACS Applied Energy Materials 2.3 (2019): 2129-2137. 

Jayachandran, B., et al. "Elevated Temperature Behavior of CuPb 18 SbTe 20/Nano-Ag/Cu Joints for Thermoelectric Devices" Journal of Electronic Materials 48.2 (2019): 1276-1285. 

Kamila, Hasbuna, et al. "Analyzing transport properties of p-type Mg 2 Si–Mg 2 Sn solid solutions: optimization of thermoelectric performance and insight into the electronic band structure" Journal of Materials Chemistry A 7.3 (2019): 1045-1054. 

Mitra, Kunal, et al. "Enhanced Thermoelectric Performance in Mg2Si by Functionalized Co‐Doping" physica status solidi (a) 215.21 (2018): 1700829. 

Goyal, Gagan, and T. Dasgupta. "Effect of Magnesium Content and Processing Conditions on Phase Formation and Stability in Mg2+dSi0.3Sn0.7 " Journal of Electronic Materials 47.3 (2018). 

H. Kolb, R. Sottong, T. Dasgupta, E. Mueller and J. de Boor, “Evaluation of Detachable Ga-Based Solder Contacts for Thermoelectric Materials”, Journal of Electronic Materials 46 (8), 5057-5063 (2017).

J. de Boor, T. Dasgupta, U. Saparamadu, E. Mueller and Z.F. Ren, “Recent progress in p-type thermoelectric magnesium silicide based solid solutions”, Materials Today Energy, 4, 105-121 (2017).

J. de Boor, T. Dasgupta, E. Mueller, “Thermoelectric properties of Magnesium Silicide based solid solutions and Higher Manganese Silicides”, Materials Aspect of Thermoelectricity (CRC Press), 159-218 (2016).

A. Sesselmann, B. Klobes, T. Dasgupta, O. Gourdon, R. Hermann and E. Mueller, “Neutron diffraction and thermoelectric properties of indium filled InxCo4Sb12 (x = 0.05, 0.2) and indium cerium filled Ce0.05In0.1Co4Sb12 skutterudites”, Physica Status Solidi (a) 213 (3), 766-773 (2016).

H. Kolb, T. Dasgupta, K. Zabrocki, E. Mueller and J. de Boor, “Simultaneous measurement of all thermoelectric properties of bulk materials in the temperature range 300–600 K”, Rev. Sci. Instrum. 86, 073901 (2015).

J. de Boor, S. Gupta, H. Kolb, T. Dasgupta and E. Mueller, “Thermoelectric transport and microstructure of optimized Mg2Si0.8Sn0.2”, J. Mater. Chem. C 3, 10467-10475 (2015).