Development of carbon based nanomaterials, quantum dots, supercapacitor, batteries and its applications | Ferry Iskandar’s research group | Managed by E2M Lab
New paper! We uncover how nitrogen configurations in carbon dots control antibacterial activity and GSH sensing at the molecular level. Pyrrolic-N lowers bandgap, boosts softness, and drives bioactivity—revealed by TD-DFT. @BiomaterialsAdv https://t.co/fMnIua1zMK
#CarbonDots
From synthesis to theory 🔬✨. Solvent-free carbon dots show polarity-driven yellow/red separation and N-induced bandgap tuning, revealed by TD-DFT. Enabled efficient yellow, red & white LEDs. @ElsevierConnect
https://t.co/JYEf34wwpn
#DFT#OpticalMaterials#carbondots
Techno-economic analysis proves DL-malic acid–based green hydrometallurgy is economically superior for NCM cathode recycling, with NPV up to $575K and faster payback. Sustainable LIB recycling is viable!
#BatteryRecycling#GreenChemistry https://t.co/OaUbJhk5yk @JEnvironChemEng
New paper! We reveal how carbonization temperature tunes N-functionalities in bituminous coal–derived carbons and boosts supercapacitor performance. Pyridinic-N at 700 °C delivers the highest capacitance. https://t.co/tGXKk806FB @JMaterSci#EnergyMaterials#Supercapacitor
New paper out! N,O-functionalized curcumin-derived carbon dots reveal how surface chemistry tunes ROS generation, photothermal effects & bioactivity. Bridging experiments + TD-DFT for cancer theranostics. https://t.co/6encs6dLNk
#CarbonDots#ROS#Nanomedicine@ACS_ABM
Voltage hysteresis killing your battery performance? ⚡️Our new paper shows how graphene-connected LNMO cathodes slash hysteresis ~3× and stay strong after 300 cycles. Read here https://t.co/mTq22YiQvF
#battery#MaterialsScience@ChemEurope
Enhancing supercapacitor performance with transition metal sulfides! Our study explores Ni-doped CuS for high-capacity electrodes, achieving 61.87 Wh/kg in an asymmetric supercapacitor. Read more: https://t.co/E1I900oEr1 #EnergyStorage#Supercapacitors#Electrochemistry
New study explores the "n" parameter in bandgap energy of Nitrogen-functionalized Graphene Quantum Dots (N-GQDs). Discover how unique C–N configurations impact optoelectronics and quantum devices. @ElsevierPhysics #QuantumDot#CarbonDot
New advancement in supercapacitors! Our eco-friendly method creates binder-free graphene electrodes with 145.95 F/g capacitance, 82.31% rate capability, and 95% stability after 10,000 cycles. Explore the future of energy storage! @Batt_Supercaps https://t.co/GDk6tB7gXY
Our new salt, Li-1FB, significantly enhances LNMO cathodes. By preventing phase segregation and Mn dissolution, Li-1FB boosts cycle performance in both half and full cells. Perfect for high-energy applications! #battery@sciencedirect https://t.co/QUVFsFoBcY
Addressing water scarcity with innovation! Our new hydrogel film boosts solar-driven water evaporation by 6.1x. Flexible, durable, and cost-effective. #WaterScarcity#SolarEnergy in @ACSPublications https://t.co/j8jVgsyUXJ
[KESEMPATAN BEASISWA S2 & S3]
Tertarik pada melanjutkan studi mu di bidang material, khususnya Baterai dan Panel Surya? Segera kirimkan CV mu ke [email protected] sebelum 19 Juni 2024
[KESEMPATAN BEASISWA S2 & S3]
Tertarik pada melanjutkan studi mu di bidang material, khususnya Baterai dan Panel Surya? Segera kirimkan CV mu ke [email protected] sebelum 19 Juni 2024.
Exciting breakthrough in energy storage! Our latest study showcases ultrahigh energy density supercapacitors using Lead sulfide quantum dot hierarchical nanopore structures. Achieving 95.6 mWh cm³ in energy density & 13.5 W cm³ in power! https://t.co/UAtkzgTOfh #Supercapacitors
Deciphering the secrets of light with carbon dots! 🌟 Our latest #DFT research explores how functional groups like amino and carbonyl can tailor absorption for breakthroughs in biomedical and optoelectronic tech. Discover the future of optical materials🔗https://t.co/Ylxacb0Yy4
Unveiling the future of security with science! Discover how our latest breakthrough in Room-Temperature Phosphorescent Carbon Dots enhances anticounterfeiting & info encryption, all guided by #MachineLearning. Dive into the glow of innovation 🔗https://t.co/cgs89USHHK
Uncover the Science of Limitless Power! Dive into the intriguing world of reduced graphene oxide and polypyrrole composites, where the tiniest structures hold the key to supercharged energy storage. Discover the secrets within this captivating review. https://t.co/bPTj5XraxF