Ā Dr. Amol Bhairuba Ikhe | Energy | Young Scientist Award
Professional Profile š
š¬ With a rich nine-year background in advanced energy storage materials, I specialize in pioneering electrode materials and systems for cutting-edge batteries beyond lithium-ion. My expertise spans the synthesis and modification of electrode materials using diverse chemical and solid-state approaches. Proficient in assessing electrochemical performance through various techniques, I excel in characterizing materials using in-situ and ex-situ spectroscopic methods. Currently immersed in anode-free all-solid-state lithium battery systems, cathode materials, anode materials, and superionic conductors, I am poised to bring my valuable knowledge and skills to elevate any project or position within your esteemed organization. ā”š #EnergyStorage #MaterialsScience #BatteryInnovation #Electrochemistry.
Professional Profiles
Current Position
Research Professor (Apr. 2022 ā Present)
Sunchon National University, Suncheon, South Korea. Ā Developing anode materials and artificial interface layers for all-solid-state lithium and sodium-ion batteries. Working on anode-free all-solid-state lithium battery systems (full cells), cathode materials, anode materials, and superionic conductors. Investigating vacancy-controlled superionic conductors for all-solid-state sodium and lithium-ion batteries.Ā Developing coated high-voltage cathode materials for all-solid-state lithium and sodium-ion batteries.
Previous Positions
Postdoctoral Researcher (Sep. 2020 ā Mar. 2022)
Sunchon National University, Suncheon, South Korea. Developed an anode-free Li-metal battery and 4V class organic cathode materials for dual-ion battery application. Explored alloying type anode and 3V class cathode materials for calcium-ion batteries. Conducted surface modification of lithium/zinc metal for lithium/zinc metal batteries.
Doctoral Researcher (Mar. 2015 ā Aug. 2020)
š Sunchon National University, Suncheon, South Korea.Ā Ph.D. in Chemistry (Secondary Ion Battery).Ā Developed superfast chargeable organic materials for dual-ion battery applications.Ā Investigated organic and inorganic electrode materials for magnesium, calcium, and potassium-ion battery applications.Ā Designed and implemented new electrolytes for 4V class magnesium metal batteries.Designed and implemented hydrophobic organic materials for corrosion protection of magnesium.
Researcher (Aug. 2014 ā Jan. 2015)
š Mehta API Pvt. Ltd., Mumbai, India. Developed chloramphenicol base and cinacalcet-hydrochloride drugs.
š Academic Qualifications
Ph.D. in Chemistry (Secondary Ion Battery) – Sunchon National University, South Korea. Ā Thesis: “Electrode materials and corrosion protection for viable magnesium ion batteries.”Ā M.Sc. in Chemistry (Organic Chemistry) – Swami Ramananda Teerth Marathwada University, India.Thesis: “Microwave-induced one-pot synthesis of 2, 4, 5 ā trisubstituted Imidazoles.”Ā B.Sc. in Chemistry, Analytical Chemistry, and Computer Science – Dr. Babasaheb Ambedkar Marathwada University, India.
š Awards and Achievements
š “Innovative idea of the year” – HP Green R&D New Generation Ideation Contest (NGIC-2022).Ā Topic: “Anode-Free Batteries: Next Generation Batteries for Electrification and Aviation Applications.””Best poster award” – 127th General Meeting of the Korean Chemical Society (May 2021).Topic: “Poly(vinyl carbazole) as a high energy and power density cathode material for Mg-based dual-ion battery.””3rd best innovative idea of the year” – HP Green R&D New Generation Ideation Contest (NGIC-2020).Ā Topic: “Magnesium Ion Batteries: A Next-Generation Energy Storage Device.”Ā “Best poster award” (1st place) – Printed Electronics Engineering Conference (June 2017). Topic: “MgTf2 + AlCl3/Diglyme as an electrolyte system with a wide electrochemical window for future magnesium ion batteries.Ā “Eklavya scholar” from 2013-2014 at Swami Ramananda Teerth Marathwada University in Nanded, India.”Topper fellowship” in 2013 by the School of Chemical Science at SRTMU, Nanded.
š Operational Experience & Equipment Proficiency
š§Ŗ Lab Equipment:
X-ray Diffractometer, SEM, Raman Spectrometer, FT-IR Spectrometer, Thermogravimetric Analyzer, UV-Vis Spectrophotometer, X-ray Photoelectron Spectrometer, FE-SEM, Atomic Force Microscopy, Glove Box, Automatic Electrochemical Workstation.
š Software Proficiency:
Proficient in various software used for materials characterization and interpretation.
š Patents & Licensing
Materials for the Cathode of Magnesium Ion Batteries (2020): The patent seems to cover materials specifically designed for the cathode of magnesium ion batteries. Magnesium ion batteries are an emerging technology with potential applications in energy storage. Anode-Free Lithium Metal Battery (2022): This patent likely focuses on anode-free lithium metal batteries, which is an innovative approach in battery technology. Traditional lithium-ion batteries have an anode, but anode-free designs aim to improve energy density and performance. Cathode Active Material for Sodium Ion Battery (2023): This patent appears to involve a cathode active material designed for sodium ion batteries. Sodium-ion batteries are considered an alternative to lithium-ion batteries, and research in this area may contribute to the development of more sustainable and cost-effective energy storage solutions. Manufacturing Vacancy-Controlled Superionic Conductor Na3-XGd1-XZrXCl6 for All-Solid-State Sodium-Ion Batteries (2023): The patent seems to focus on the manufacturing process of a vacancy-controlled superionic conductor Na3-XGd1-XZrXCl6, specifically tailored for all-solid-state sodium-ion batteries. All-solid-state batteries are a promising technology that aims to improve safety and energy density compared to traditional liquid electrolyte batteries.
šTop Noted Publication
Perfluorinated polysiloxane hybridized with graphene oxide for corrosion inhibition of AZ31 magnesium alloy Paper Published in 2016 Cited by 60
Graphite as a LongāLife Ca2+āIntercalation Anode and its Implementation for RockingāChair Type CalciumāIon BatteriesPaper Published in 2019 Cited by 59
Spontaneous Formation of Interwoven Porous Channels in Hard-Wood-Based Hard-Carbon for High-Performance Anodes in Potassium-Ion BatteriesPaper Published in 2017 Cited by 48
Polyviologen as a high energy density cathode in magnesium-ion batteries Paper Published in 2017 Cited by 38
3Mg/Mg 2 Sn anodes with unprecedented electrochemical performance towards viable magnesium-ion batteries Paper Published in 2020 Cited by 28
Simultaneous Suppression of Metal Corrosion and Electrolyte Decomposition by Graphene Oxide Protective Coating in Magnesium-Ion Batteries: Toward a 4-V-Wide Potential Window Paper Published in 2017 Cited by 21
3-V class Mg-based dual-ion battery with astonishingly high energy/power densities in common electrolytes Paper Published in 2021 Cited by 10
Vacancy-controlled quaternary sulfide Na 3ā x Zn 1ā x Ga 1+ x S 4 with improved ionic conductivity and aqueous stability Paper Published in 2022 Cited by 6
One-pot synthesis of 2, 4, 5-trisubstituted imidazoles using cupric chloride as a catalyst under solvent free conditions Paper Published in 2014 Cited by 6
Li+-intercalated carbon cloth for anode-free Li-ion batteries with unprecedented cyclabilityĀ Ā Ā Paper Published in 2022 Cited by 4