Dr. Amol Bhairuba Ikhe | Energy | Young Scientist Award
Professional Profile 🌟
🔬 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. ⚡🔍 #EnergyStorage #MaterialsScience #BatteryInnovation #Electrochemistry.
Professional Profiles
Current Position
Research Professor (Apr. 2022 – Present)
Sunchon National University, Suncheon, South Korea. 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. Developing coated high-voltage cathode materials for all-solid-state lithium and sodium-ion batteries.
Previous Positions
Postdoctoral Researcher (Sep. 2020 – 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 – Aug. 2020)
📍 Sunchon National University, Suncheon, South Korea. Ph.D. in Chemistry (Secondary Ion Battery). Developed superfast chargeable organic materials for dual-ion battery applications. Investigated organic and inorganic electrode materials for magnesium, calcium, and potassium-ion battery applications. 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 – Jan. 2015)
📍 Mehta API Pvt. Ltd., Mumbai, India. Developed chloramphenicol base and cinacalcet-hydrochloride drugs.
📚 Academic Qualifications
Ph.D. in Chemistry (Secondary Ion Battery) – Sunchon National University, South Korea. Thesis: “Electrode materials and corrosion protection for viable magnesium ion batteries.” M.Sc. in Chemistry (Organic Chemistry) – Swami Ramananda Teerth Marathwada University, India.Thesis: “Microwave-induced one-pot synthesis of 2, 4, 5 – trisubstituted Imidazoles.” B.Sc. in Chemistry, Analytical Chemistry, and Computer Science – Dr. Babasaheb Ambedkar Marathwada University, India.
🏆 Awards and Achievements
🏆 “Innovative idea of the year” – HP Green R&D New Generation Ideation Contest (NGIC-2022). 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). Topic: “Magnesium Ion Batteries: A Next-Generation Energy Storage Device.” “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. “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.
🛠 Operational Experience & Equipment Proficiency
🧪 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.
🌐 Software Proficiency:
Proficient in various software used for materials characterization and interpretation.
📝 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.
📚Top 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 Long‐Life Ca2+‐Intercalation Anode and its Implementation for Rocking‐Chair Type Calcium‐Ion 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 3− x Zn 1− 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 cyclability Paper Published in 2022 Cited by 4