top of page
combined picture.jpg
combined picture.jpg

Conference Proceedings

17th International conference on materials chemistry (MC17), Edinburgh, United Kingdom, 2025

  1. Electrospun Polyacrylonitrile (PAN) Derived One Dimensional Carbon Nanofibers for Na-Ion Batteries, S. Anshu, L. Bharti, S. Shegokar, S. Priya, A. Chandra.

  2. Ab initio insights into vanadium-based MXenes as anode material for post-lithium batteries, R. Rahul, S. Anshu, L. Bharti, A. Chandra.

  3. Unveiling Aluminium Storage Capabilities of De-Sodiated Transition Metal Phosphates for Realizing Aqueous Al-Ion Pouch Cells, L. Bharti, A. Chandra.

  4. ​Carbon Decorated ZIF-67 nanostructures with Redox Additive Modified Electrolyte for Achieving Competitive Al-ion Based Battery Supercapacitor Hybrid, S. Shegokar, A. Chandra. 

 

1st National Meeting on Sodium(-ion) Batteries, IIT Bombay, India, 2024

  1. Electrospun Polyacrylonitrile (PAN) Derived One Dimensional Carbon Nanofibers for Na-Ion Batteries, S. Anshu, S. Priya, A. Chandra.

​

245th ECS Meeting, San Francisco, CA, USA, 2024

  1. Electrospun Polyacrylonitrile (PAN) Derived One Dimensional Carbon Nanofibers for Their Use in Na-Ion Batteries, S. Anshu, A. Chandra. 

  2. Kinetics of Temperature-Modulated Water Splitting: Enhancing Efficiency for Hydrogen Generation Using Cu-Doped NiCo-Layered Double Hydroxides, S. Kansal, A. Chandra.

​​

European Materials Research Society (Spring meeting), Strasbourg, France, 2024

  1. Carbon Decorated ZIF-67 Composite for Next Generation Energy Storage Devices, S. Shegokar, A. Chandra.

  2. Efficient Intercalation of Al Ions in Elecctrochemically Activated Mn3O4 for Rechargeable Aqueous Aluminium Ion Batteries, L. Bharti, P. De, J. Halder, S. Priya, A. Chandra.

 

8th International conference on Electroactive Polymers (ICEP), KIIT Bhubaneswar, India, 2024

  1. Electrospun Polyacrylonitrile (Pan) Derived One Dimensional Carbon Nanofibers for Their Use in Na-Ion Batteries, S. Anshu, S. Priya, A. Chandra.

​

15th National Conference on Solid State Ionics (NCSSI), BHU Varanasi, India, 2023

  1. Highly Crystalline and Ordered Microporous Metal-organic Framework for Aqueous Aluminum Ion Batteries, P. De, A. Chandra.

  2. Vanadium Carbide MXene as Electrode Material for High-Performing Supercapacitor, R. R, S. Kansal, J. Halder, A. Chandra.

  3. Novel Bowl like or Capped Carbon with a Low Carbon Footprint as Electrode Material in EDLCs, S. Anshu, A. Chandra.

  4. Electrochemically Activated Mn3O4 for Achieving Efficient Rechargeable Aqueous Al-Ion Batteries, L. Bharti, P. De, J. Halder, S. Priya, A. Chandra.

  5. Hierarchical Nanostructure of Carbon Decorated MOF for Low Cost Aqueous Al-ion Supercapacitor : Effect of Redox Additive in Charge Storage, S. Shegokar, A. Chandra.

 

243rd ECS Meeting, Boston, MA, USA, 2023

  1. 2 Dimensional V2O5 Nanosheets as an Advanced Cathode Material for Realizing Low-Cost Aqueous Aluminum Ion Battery, P. De, A. Chandra.

 

European Materials Research Society Spring Meeting, Strasbourg, France, 2023​

  1. "Time Dependent Exfoliation of Bulk MoS2 for Electrochemical Studies-Ranging from Supercapacitor to Li and Na ion Batteries", S. Priya, D. Mandal, T. Singh, A. Chandra.

  2. "Structural and Electrochemical Investigation of Co-doped NiFe2O4 for Use in High Performing Supercapacitors", J. Halder, P. De, D. Mandal, A. Chandra.

  3. "CuxNiCo Layered Double Hydroxide Heterostructure Nanosheets as an Efficient and Cost-Effective Electrocatalyst for Overall Water Splitting", S. Kansal, S. Anshu, S. Priya, D. Mandal, T. Singh, A. Chandra.

  4. "Novel Bowl Like or Capped Carbon with a Low Carbon Footprint as Electrode Material in EDLCs", S. Anshu, R. R, S. Priya, A. Chandra.

  5. "Highly Crystalline Ordered Macroporous Metal Organic Framework for Aqueous Aluminum Ion Battery: Effect of Redox Additives in Charge Storage", A. Chandra.​

 

SUPERCAPS & BATTERIES, IIT Kharagpur, India, 2022​

  1. "Use of Modified Fick’s law in Finding the Role of Modified Diffusion Behaviour of the Electrolyte Ions Behind the Improvement of Supercapacitor Electrode Performance", J. Halder, A. Chandra.

  2. Time Dependent Exfoliation of MoS2 as Cathode Material for Next Generation Hybrid Supercapacitor, S. Priya, A. Chandra.

  3. "Electrochemical Study of Unique Leaf-like Morphology of Ni-Co LDH as High- Performance Positive Electrode Material for Asymmetric Supercapacitor", S. Kansal, A. Chandra.

  4. "High Performing Au Decorated Metal Oxide Nanoparticles for Supercapacitor’s Application", S. Anshu, A. Chandra.

  5. Pseudo 2-dimensional Nanostructures of Metal Oxides for High-Performance Supercapacitors, D. Mandal, A. Chandra.

  6. Hydrothermally Synthesized V2O5 as an Advanced Cathode Material for Low-Cost Aqueous Aluminium Ion Battery, P. De, A. Chandra.

​​
 

14th National Conference on Solid State Ionics (NCSSI-14), Delhi University, India, 2021

  1. "Investigation of Pseudocapacitive Performance of NiCo2O4 Electrode in Different Electrolytes for Advanced Supercapacitors", P. De, S. Dutta, A. Chandra.

  2. "Tuning the Morphologies of Nanosized WO3 for High Performance Supercapacitors", S. Priya, T. Singh, A. Chandra.

  3. "Modulation of Na-ion Supercapacitors Under External Vibrations", S. Biswas, A. Chandra.

  4. "Vanadium Based Oxides as Electrode Materials for High Performance Supercapacitor", S. Shegokar, A. Chowdhury, A. Chandra.

  5. "High Performing Au Decorated SnO2 Nanoparticles for Supercapacitor’s Electrode Material", S. Anshu, T. Singh, A. Chandra.

  6. "Novel Ni-Co LDH Based Ssymmetric Supercapacitor with g-C3N4 as Anode Material for Achieving High Energy Density", S. Kansal, T. Singh, A. Chandra.

  7. "Molecular Dynamics Simulations for Electric Double-layer Capacitance of Graphene Electrodes in Different Aqueous Electrolytes", R. R, A. Chandra.

  8. "High Performance Sodium Ion Hybrid Supercapacitors Based on Ordered and Mesoporous Na2Ti3O7/Carbon Composites", P. De, A. Chandra.

  9. "A Comparative Study of Electrochemical Performance of α-Co(OH)2 with Co3O4 in Different Aqueous Electrolytes", S. Kansal, L. Bharti, A. Chandra.

  10. "Synergistic Combination of Metal Oxides for Improving the Charge Storage Capability of Magnetic Supercapacitors", J. Halder, A. Chandra.

  11. "DNA Supported Graphene Quantum Dots for Supercapacitor Application", D. Mandal, A. Chandra.

  12. "Flexible Nanogenerators Based on Flexoelectricity-boosted Triboelectricity in Few- layered Hausmannite", C. C. Gowda, C. S. Tiwary, A. Chandra.

  13. "Conductive Additive Supported NaMnPO4 for High Performance Na-ion Non-aqueous Supercapacitors with 2.7 V Potential Window", A. Chowdhury, A. Chandra.

​

International Conference on Energy and Advanced Materials, JIIT Noida, India (ICEAM), 2021

  1. “Maricite-NaMnPO4 based non-aqueous Na-ion supercapacitors with 2.3 V potential window”, Ananya Chowdhury, Sudipta Biswas, Swagata Dutta and Amreesh Chandra.

  2. “NaFePO4 as an efficient material for Na-ion supercapacitors- Role of hierarchical morphologies”, Sudipta Biswas, Ananya Chowdhury, Shyamal Shegokar and Amreesh Chandra.

  3. “Graphene decorated LiMn2O4 Electrode Material for hybrid type Energy storage devices”, Debabrata Mandal, Lalit Bharti, Sudipta Biswas and Amreesh Chandra.

  4. “Role of porosity and diffusion coefficient in porous electrode used in supercapacitors- Correlating theoretical and experimental studies”, Puja De, Joyanti Halder, Ananya Chowdhury, Debabrata Mandal, Sudipta Biswas, and Amreesh Chandra.

  5. “Particle morphology dependent tuning of magnetic supercapacitors: Correlating with change in the diffusion behaviour of electrolyte ions”, Joyanti Halder, Mayukh Chakravarty, Sudipta Biswas, Ananya Chowdhury and Amreesh Chandra.

  6. “Cage-frame type SnO2 nanostructures for electrochemical devices”, Surbhi Priya, Debabrata Mandal, Ananya Chowdhury, Trilok Singh, Amreesh Chandra.

  7. “Exciting flexo-triboelectric properties of two-dimensional manganese oxide”, Chinmayee Chowde Gowda, Chandra Sekhar Tiwary and Amreesh Chandra.

  8. “Superior-catalytic performance of Ni-Co Layered double hydroxide nanosheets for the reduction of p-nitrophenol”, Sakshi Kansal, Paulomi Singh, Sudipta Biswas, Ananya Chowdhury, Debabrata Mandal, Trilok Singh, Amreesh Chandra.

  9. “Morphology tuning of Au decorated SnO2 nanoparticles for supercapacitor electrode”, Satvik Anshu, Surbhi Priya, Debabrata Mandal and Amreesh Chandra.

​

DAE Solid State Physics Symposium, Mumbai India (DAE-SSPS), 2021

  1. “High-performing asymmetric supercapacitor device using nanostructured Co3O4 and Fe2O3 based electrodes”, Ananya Chowdhury, Sudipta Biswas, Swagata Dutta and Amreesh Chandra.

  2. “High performance Na-ion supercapacitor: Beyond carbon structure”, Sudipta Biswas, Ananya Chowdhury, Shyamal Shegokar and Amreesh Chandra.

  3. “Tea leaf derive carbon dots for high performance Supercapacitor”, Debabrata Mandal, Lalit Bharti and Amreesh Chandra.

  4. “Crystalline characteristics dependent pseudocapacitance property of Na2Ti3O7 as a negative electrode for sodium ion supercapacitors”, Puja De, Debabrata Mandal, Abhishek Kumar, Sudipta Biswas and Amreesh Chandra.

  5. “Explaining the improvement in specific capacitance of α-Fe2O3 hollow sphere under external magnetic field”, Joyanti Halder, Sudipta Biswas, Ananya Chowdhury, and Amreesh Chandra.

  6. “Morphology driven SnO2 as electrode materials for applications ranging from supercapacitors to sensors”, Surbhi Priya, Debabrata Mandal, Ananya Chowdhury, Trilok Singh and Amreesh Chandra.

  7. “Influence of cactus-like morphology on supercapacitive performance of Cr2O3”, Sakshi Kansal, Paulomi Singh, Debabrata Mandal, Vikas Sharma, Trilok Singh and Amreesh Chandra.

  8. “Moving from solid to porous nanostructures for enhancing the magnetic field dependent electrochemical performance of Mn3O4 nanoparticles”, Chinmayee Chowde Gowda, Sudipta Biswas and Amreesh Chandra.

  9. “Morphology tuning of SnO2 based electrode materials for supercapacitors”, Satvik Anshu, Surbhi Priya, Debabrata Mandal and Amreesh Chandra.

  10. “Computational modelling of morphology evolution in multifunctional tin-oxide”, Mahak Chhabra, Sakshi Kansal, Rahul Ravindranc, Surbhi Priya, Debabrata Mandal and Amreesh Chandra.

​

​

Indian Science Congress, GKVK Campus, Bangalore, India, 2020

  1. “Incorporation of redox additive to improve the electrochemical performance of NaMnPO4 for supercapacitor application”, Ananya Chowdhury.

  2. “Enhancing the specific capacitance of hollow NaFePO4 based Na-ion supercapacitor with sodium-based redox additive”, Sudipta Biswas.

  3. “Graphene quantum dots based luminescent nanosensor for metal ions, p- nitrophenol and sulphur detection in water samples”, Debabrata Mandal.

​

​

13th National Conference on Solid State Ionics, IIT Roorkee, India (NCSSI-13), 2019

  1. “Changing non-magnetic electrolyte can also lead to changes in electrochemical performance of Fe2O3 based supercapacitors operated under magnetic field”, Ananya Chowdhury, Sudipta Biswas and Amreesh Chandra.

  2.   “Combining hollow nanostructures of NaFePO4 with redox additive modified electrolyte to achieve high performance Na-ion supercapacitor”, Sudipta Biswas, Debabrata Mandal and Amreesh Chandra.

  3. “Tuning morphologies of Na2Ti3O7 nanoparticles for making it useful as supercapacitor electrode material”, Puja De and Amreesh Chandra.

  4. “Morphology dependent magnetic field induced capacitance variation in Fe2O3 based materials”, Joyanti Halder, Mayukh Chakravarty, Sudipta Biswas and Amreesh Chandra.

  5. “Tuned morphologies of nanosized SnO2 for applications ranging from gas sensing to supercapacitors”, Surbhi Priya, Debabrata Mandal, Ananya Chowdhury and Amreesh Chandra.

  6. “Moving from solid to porous nanostructures for enhancing the magnetic field dependent electrochemical performance of Mn3O4 nanoparticles”, Chinmayee Chowde Gowda, Sudipta Biswas, and Amreesh Chandra.

  7. “Flower like SnS2-pani composite as electrode for high performance supercapacitor”, Satvik Anshu, Debabrata Mandal and Amreesh Chandra.

​

​

European Materials Research Society Spring Meeting, Nice France (EMRS), 2019

  1. “Porous and hollow NaFePO4 microspheres as efficient electrode material for Na-ion storage devices”, Sudipta Biswas and Amreesh Chandra.

  2. “Cu doped hollow CeO2 nanostructured electrode materials for supercapacitor applications”, Debabrata Mandal, Ananya Chowdhury and Amreesh Chandra.

​

​

International Conference on Electroactive Polymers, Udaipur, India (ICEP), 2019

  1. “Morphology tuning along with conducting polymer insertion in metal oxides- an effective strategy to induce epochal enhancement in electrochemical performance”, Vikas Sharma and Amreesh Chandra.

  2. “Effect of electrolyte and conducting additive on the electrochemical performance of NaMnPO4 for Na-ion supercapacitor”, Ananya Chowdhury and Amreesh Chandra.

  3. “FeVO4/PANi composite as anode material to achieve high performance supercapacitors”, Sudipta Biswas and Amreesh Chandra.

  4. “Flower like SnS2-pani composite electrode for high performance supercapacitor”, Debabrata Mandal and Amreesh Chandra.

  5. Magnetic field dependent morphology linked specific capacity tuning in Fe2O3 based nanostructures and composite, Mayukh Chakravarty, Vikas Sharma, Sudipta Biswas and Amreesh Chandra.

  6. “Morphology driven changes in electrochemical behavior of Na2Ti3O7 based nanostructures and composites”, Abhishek Kumar, Sudipta Biswas and Amreesh Chandra.

​

​

International Conference on Nanoscience and Nanotechnology, SRM IST, India (ICONN), 2019

  1. “Porous nanospheres of Cu2O supported by redox additive modified electrolytes to achieve high performance supercapacitors in the temperature window 25 to 65 oC”, Vikas Sharma and Amreesh Chandra.

  2. “Synergistic combination of carbon microspheres and graphene quantum dots with nanostructured NaFePO4 to deliver high performance Na-ion supercapacitors”, Sudipta Biswas, Debabrata Mandal and Amreesh Chandra.

  3. “Electrochemical behaviour of nanostructured NaMnPO4 under non-ambient (magnetic field and temperature) conditions- Importance for application in supercapacitor”, Ananya Chowdhury and Amreesh Chandra.

  4. “DNA supported Graphene Quantum Dots for detection of suspended Ag-ion”, Debabrata Mandal and Amreesh Chandra.

  5. “Morphology linked specific capacity tuning in Fe2O3 nanostructures: Effect of magnetic field”, Mayukh Chakravarty, Vikas Sharma, Sudipta Biswas and Amreesh Chandra.

  6. “Morphology driven changes in electrochemical behavior of Na2Ti3O7 based nanostructures”, Abhishek Kumar, Sudipta Biswas, Ananya Chowdhury and Amreesh Chandra.

  7. “Morphology driven gas sensing response of SnO2 for detecting volatile organic compound”, Surbhi Priya, Debabrata Mandal, Ananya Chowdhury and Amreesh Chandra.

​

​

Indian Science Congress, Phagwara, Jalandhar, India-2019

  1. “Hollow nanostructures of metal oxides- Indispensable component for next generation Supercapacitors”, Vikas Sharma.

  2. “Hollow nanostructure of cathodic NaFePO4 leading high performance supercapacitor near ambient and non-ambient temperature  or magnetic field environment”, Sudipta Biswas.

​

​

International Meeting on Energy Storage Devices, IIT Roorkee, India (IMESD), 2018

  1. “Improving the charge storage kinetics at electrode-electrolyte interface by tuning electrode and electrolyte leading to high performance supercapacitors”, Vikas Sharma and Amreesh Chandra.

  2. “Effect of magnetic field and temperature on the electrochemical performance of NaMnPO4 based Na-ion supercapacitors”, Ananya Chowdhury and Amreesh Chandra.

  3. “Performance of NaFePO4 nanoparticles under non-ambient conditions – It’s importance in making Na-ion based supercapacitors industrially viable”, Sudipta Biswas and Amreesh Chandra.

  4. “Application of Graphene Quantum Dots in Supercapacitors – From eletrode to electrolyte”, Debabrata Mandal and Amreesh Chandra.

​

​

European Materials Research Society Spring Meeting, Strasbourg, France (EMRS), 2018

  1. “Combining redox additives with hollow nanostructures of metal oxides- a novel strategy for high performance supercapacitors”, Vikas Sharma and Amreesh Chandra.

  2.  “Porous and Hollow NaFePO4 microspheres as efficient electrode material for Na-ion storage devices”, Sudipta Biswas and Amreesh Chandra.

  3.  “Improving the electrochemical performance of NaMnPO4 by optimizing coating of polyaniline (PANi) for Na-ion supercapacitor”, Ananya Chowdhury and Amreesh Chandra.

​

​

International Symposium on Functional Materials, Chandigarh, India (ISFM), 2018

  1. “Facile low temperature synthesis of Cu2O hollow nanospheres for application as anode material in supercapacitors”, Vikas Sharma and Amreesh Chandra

  2.  “FeVO4/PANi composite as anode material to achieve high performance supercapacitors”, Sudipta Biswas and Amreesh Chandra.

​​

​​

European Materials Research Society Spring Meeting, France (EMRS), 2017

  1. “Synergistic Effect of Coating Mn3O4-polypyrrole Composite with Graphene to Bring Improvement in Supercapacitor Performance”, Prasenjit Haldar and Amreesh Chandra.

​​

​​

International Conference on Nanotechnology: Ideas, Innovations and Initiatives (ICN:3I), IIT Roorkee, India, 2017

  1. “Synthesis of ZrO2-Polyaniline-Graphene composites with enhanced electrochemical characteristics”, Prasenjit Haldar and Amreesh Chandra.

  2.  “Hierarchical-Porous V2O5 based strictures for use in high performance symmetric supercapacitors”, Vikas Sharma and Amreesh Chandra.

  3.  “FeVO4/PANi composite as anode material to achieve high performance supercapacitors”, Sudipta Biswas and Amreesh Chandra.

  4.  “Conducting polymer (PANi) directed enhancement in electrochemical performance of NaMnPO4 for Na-ion supercapacitor”, Ananya Chowdhury and Amreesh Chandra.

  5.  “Optical and electrochemical studies of Nitrogen doped graphene quantum dot”, Debabrata Mandal and Amreesh Chandra.

  6.  “Morphology driven changes in electrochemical behavior of MnO2 based nanostructures for supercapacitor applications”, Sushanta Lenka, Vikas Sharma, Sudipta Biswas and Amreesh Chandra.

​​

​​

12th National Conference on Solid State Ionics, BITS Pilani, India NCSSI-12, 2017

  1. “Mn3O4-Polyaniline-Graphene as excellent composites for achieving high performance supercapacitors”, Prasenjit Haldar and Amreesh Chandra.

  2.  “Facile low temperature synthesis of Cu2O hollow nanospheres for application as anode material in supercapacitors”, Vikas Sharma and Amreesh Chandra.

  3.  “Porous and Hollow NaFePO4 microspheres as high-performance cathode material for sodium- ion supercapacitors”, Sudipta Biswas and Amreesh Chandra.

  4.  “NaMnPO4 as electrode material for Na-ion supercapacitor”, Ananya Chowdhury and Amreesh Chandra.

  5.  “Graphene coated LiMn2O4 electrode material for Li-ion supercapacitor”, Debabrata Mandal and Amreesh Chandra.

​

​

International Conference on Functional Electroceramics and Polymers, IIT Kharagpur, India (ICEP), 2017

  1. “VOC sensing properties of Ce3+ doped CuO hollow nanostructures – Significance for industrial applications”, Inderjeet Singh, Sayan Dey, Sumita Santra and Amreesh Chandra.

  2. “Synergistic Effect of Coating Mn3O4-polypyrrole Composite with Graphene to Bring Significant Improvement in Supercapacitor Performance”, Prasenjit Haldar and Amreesh Chandra.

  3.  “Facile low temperature synthesis of Cu2O hollow nanospheres with potential application as negative supercapacitor electrode”, Vikas Sharma and Amreesh Chandra.

  4. “Optical Study of DNA Doped Graphene Quantum Dot for Ag+ Ion Detection Application” Debabrata Mandal and Amreesh Chandra.

  5.  “Surfactant and thiourea assisted synthesis of bud like microspheres of SnS and its application as supercapacitor”, Sudipta Biswas and Amreesh Chandra.

  6. “NaMnPO4 as electrode material for Na-ion Supercapacitor”, Ananya Chowdhury, Charu Lakshmi and Amreesh Chandra.

​

​

Electrochemical Storage Systems: Synergy of Material Design and Modelling, IIT Kharagpur, India (ESS), 2016

  1. “Copper (II) oxide hollow nanostructures by droplet templated crystallization with superior catalytic and magnetic response”, Inderjeet Singh and Amreesh Chandra.

  2. “High catalytic activity of CuO nanoflakes for energy applications”, Vikas Sharma, Inderjeet Singh and Amreesh Chandra.

  3.  “Highly luminecent graphene quantum dot for energy application” Debabrata Mandal and Amreesh Chandra.

  4.  “Methylammonium lead iodide perovskite microrods for application in solar cell”, Ajit Suryawanshi, Sudipta Biswas, Ananya Chowdhury, Amreesh Chandra.

​

​

MRS Fall meeting, Boston-USA, 2016

  1. “CuO Nanoflakes with catalytic activity even higher than corresponding hollow or solid particles”, Vikas Sharma, Inderjeet Singh and Amreesh Chandra

  2.  “Tuning stable NiO nanoparticles without the use of capping agents: Understanding their higher catalytic, luminescence and capacitive responses”, Vikas Sharma and Amreesh Chandra.

 

15th Asian Conference on Solid State Ionics, IIT Patna, India (ACSSI), 2016

  1. “Room temperature synthesis of Mn3O4 nanoparticles by simple precipitation method and their use in supercapacitor”, Prasenjit Haldar and Amreesh Chandra.

​

​

MRS Spring Meeting and Exhibit, San Francisco, USA, 2015

  1. “Multifunctional Metal Oxide Hollow Nanostructures in Inverse Miniemulsions by Controlling Reactions at the Droplet Interface”, Inderjeet Singh, Katharina Landfester, Rafael Muñoz-Espí and Amreesh Chandra.

​

​

Indian Science Congress, Mumbai, India, 2015

  1. “Colossal catalytic activity in hollow CuO nanoparticles obtained under droplet confinement”, Inderjeet Singh and Amreesh Chandra.

​

​

10th National Conference on Solid State Ionics, IIT Kharagpur, India (NCSSI-10), 2013

  1. “Optimized MnO2 activated carbon cathode catalysts for high performance microbial fuel cells”, Inderjeet Singh and Amreesh Chandra.

​

​

6th India Singapore Joint Physics Symposium, IIT Kharagpur, 2013

  1. Ceria nanoparticles for application in alternative energy systems”, Inderjeet Singh, Rafael Muñoz-Espí, Katharina Landfester and Amreesh Chandra.

​

​

Indian Science Congress, Kolkata, India, 2013

  1. “Application of activated carbon supported MnO2 nanorods as a cathode material for achieving high power densities in microbial fuel cells”, Inderjeet Singh and Amreesh Chandra.

​

​

International Conference on Electroactive Polymers, Varanasi, India (ICEP), 2012

  1. “Application of PVDF as Conductive Electroactive Polymer Membranes in Microbial Fuel Cells”, Inderjeet Singh, Rafael Muñoz-Espí and Amreesh Chandra.

​

​

E-MRS Fall Meeting, Warsaw, Poland, 2012

  1. “Shape and size-controlled synthesis of ceria and its application in energy systems”, Inderjeet Singh, Rafael Muñoz-Espí, Katharina Landfester and Amreesh Chandra.

​​​

International Conference on Theoretical and Applied Physics, IIT Kharagpur, 2011

  1. “Application of Ceria Nanoparticles in Alternative Energy Systems”, Inderjeet Singh and Amreesh Chandra.

For any queries contact us

Thanks for submitting!

© 2024 by Energy Material and Devices Laboratory

Department of Physics, IIT Kharagpur, Kharagpur, India - 721302

memlenergygroup@gmail.com

+91-3222-283820

bottom of page