Kanishka Biswas
Jawaharlal Nehru Centre for Advanced Scientific Research
H-index: 64
Asia-India
Top articles of Kanishka Biswas
Title | Journal | Author(s) | Publication Date |
---|---|---|---|
High Thermoelectric Performance in Phonon‐Glass Electron‐Crystal Like AgSbTe2 | Advanced Materials | Vaishali Taneja Subarna Das Kapildeb Dolui Tanmoy Ghosh Animesh Bhui | 2024/2 |
COF‐Topological Quantum Material Nano‐heterostructure for CO2 to Syngas Production under Visible Light | Angewandte Chemie | Anupam Dey Jayita Pradhan Sandip Biswas Faruk Ahamed Rahimi Kanishka Biswas | 2024/4/15 |
Chemically Transformed Ag2Te Nanowires on Polyvinylidene Fluoride Membrane For Flexible Thermoelectric Applications | Angewandte Chemie | Ankit Kashyap Divya Rawat Debattam Sarkar Niraj Kumar Singh Kanishka Biswas | 2024/1/22 |
Non-monotonic Thermal Conductivity of FAxMA1–xPbI3 Achieving Ultralow Values: The Role of Anharmonic Low Energy Rotation of Organic Moieties | ACS Energy Letters | Debasmita Pariari Paribesh Acharyya Arijit Sinha Ashutosh Mohanty Shaili Sett | 2024/4/12 |
Ultralow Lattice Thermal Conductivity in Complex Structure Cu26V2Sn6Se32 due to Interaction of Low-Frequency Acoustic-Optical Phonons | Physical Review B | and Ajay Soni Kewal Singh Rana Debattam Sarkar Nidhi Aditya Singh Chandan Bera | 2024/3/13 |
Enhanced Topological Surface State Mediated Transport Elevates Thermoelectric Performance in SnSb2Te4 Quantum Material | Chemistry of Materials | Subarna Das Debattam Sarkar Kanishka Biswas | 2024/3/27 |
Mild chemistry synthesis of ultrathin Bi2O2S nanosheets exhibiting 2D-ferroelectricity at room temperature | Chemical Science | Riddhimoy Pathak Prabir Dutta Kapildeb Dolui Aastha Vasdev Adrija Ghosh | 2024 |
Curious Case of CsPb2Br5: Extremely Soft Structure-Induced Broadband Emission | Chemistry of Materials | Jayita Pradhan Anustoop Das Arpita Panda Kanishka Biswas | 2024/3/26 |
Mobile ion confinement for better thermoelectrics | Nature Materials | Animesh Bhui Kanishka Biswas | 2024/3/7 |
High Performance Thermoelectric Materials | Subarna Das Animesh Bhui Kanishka Biswas | 2023 | |
Strong Antibonding I (p)–Cu (d) States Lead to Intrinsically Low Thermal Conductivity in CuBiI4 | Journal of the American Chemical Society | Anustoop Das Koushik Pal Paribesh Acharyya Subarna Das Krishnendu Maji | 2023/1/3 |
Thermoelectric properties of Topological Weyl Semimetal CuZnGeTe | arXiv preprint arXiv:2306.11656 | Bhawna Sahni Riddhimoy Pathak PC Sreeparvathy Tanusri Saha-Dasgupta Kanishka Biswas | 2023/6/20 |
Hg Doping Induced Reduction in Structural Disorder Enhances the Thermoelectric Performance in AgSbTe2 | Journal of the American Chemical Society | Animesh Bhui Subarna Das Raagya Arora Usha Bhat Prabir Dutta | 2023/11/9 |
Metal chalcogenide materials: synthesis, structure and properties | Paribesh Acharyya Debattam Sarkar Prabir Dutta Kanishka Biswas | 2023/1/1 | |
High Thermoelectric Performance in Phonon-Glass Electron-Crystal Like AgSbTe2 | Koushik Pal Kanishka Biswas Vaishali Taneja Usha Bhat Subarna Das | 2023 | |
Pressure-induced topological crystalline insulating phase in : Experiments and theory | Physical Review B | V Rajaji Raagya Arora B Joseph Subhajit Roychowdhury Umesh V Waghmare | 2023/5/22 |
Chemical Bonding Tuned Lattice Anharmonicity Leads to a High Thermoelectric Performance in Cubic AgSnSbTe3 | Angewandte Chemie | Debattam Sarkar Kapildeb Dolui Vaishali Taneja Abdul Ahad Moinak Dutta | 2023/10/2 |
High thermoelectric performance in entropy-driven Ge 1− 2x− y Pb x Sn x Sb y Te | Journal of Materials Chemistry A | Animesh Das Paribesh Acharyya Subarna Das Kanishka Biswas | 2023 |
Enhancement of thermoelectric properties of CuFeS 2 through formation of spinel-type microprecipitates | Journal of Materials Chemistry A | Sahil Tippireddy Feridoon Azough Animesh Bhui Iuliia Mikulska Robert Freer | 2023 |
Metavalent Bonding-Mediated Dual 6s2 Lone Pair Expression Leads to Intrinsic Lattice Shearing in n-Type TlBiSe2 | Journal of the American Chemical Society | Ivy Maria Raagya Arora Moinak Dutta Subhajit Roychowdhury Umesh V Waghmare | 2023/4/12 |