Happy to share our latest patent on Orthodontics Bonding Material.
The developed material enable cleaner removal, and it is safer for enamel simultaneously.
It has been developed in collaboration with Faculty of Dental Sciences of Banaras Hindu University @bhupro@VCofficeBHU.
Continuing our work in the area of Materials for Environment; the current work establishes an quite efficient NiAl–gC3N4 Heterocatalyst for Photocatalytic Degradation of Carcinogenic Textile Dyes. #Materials#water@scifri@ScienceDaily@ScienceNews
https://t.co/758eR61f2L
We are pleased to announce the grant of a patent for our developed material and process. We have demonstrated a highly efficient material for treating discharges from the #textile_industry. Additionally, the material is recyclable and ready for scale-up.
Continuing our #Research in the area of #environment, particularly in #water remediation, we have shown a very efficient ternary LDH for treatment of #textile_industries discharge. Plus is the material #recyclability up to 14 cycles. Ready to scale up.
https://t.co/fyUw43vboB
These findings formulate a fresh scheme for fluorescence and colourimetric analysis of Antibiotics in water. Furthermore, a cost-effective, mobile-device-assisted paper-based sensing system was developed for quick and visual field-level detection of fluoroquinolones.
An easy sensing method based on the sensor's colour change has been developed for antibiotics detection in water. It is particularly important for India.
Dual-mode sensing by cobalt oxyhydroxide nanosheet for antibiotics in Journal Nanoscale
https://t.co/tMupXTgYph @RoySocChem
The system exhibited excellent sensitivity with linear responses in the range of 0–250 nM with the lowest detection limit of 2.23 nM, 19.31 nM, and 29.03 nM for ofloxacin, norfloxacin, and ciprofloxacin, respectively, outperforming many existing sensors.
Happy to share our seminal review article
"Advances in relaxation and memory effects of magnetic nanoparticles for Biomedical applications"
in "Progress in Materials Science (5 years IF=41.2)".
https://t.co/wneLaDaP0y
https://t.co/ytGuFNbzje
📢 #ANRFIndia Invites Applications for National Post-Doctoral Fellowship (NPDF)!
Shape your research journey with support from @ANRFIndia
🗓️Application Period:
1 June 2025 – 30 June 2025
🔗For more, visit: https://t.co/rWtJMZyW8R
#researchgrant#NPDF
Our work with potential applications in water remediation continues. It is particularly important to textile & carpet industry.
MoS2/Mg-Al LDH composite is emerging as a superior candidate for application in removing dye pollutants from wastewater.
https://t.co/kngCdbERri
Lab has extended its wing in applied research for #environment@RoySocChem#WaterResearch
Highly efficient WS2 QD-based non-enzymatic fluorescent biosensor for ofloxacin & ciprofloxacin monitoring in aquatic media - published in Sensors & Diagnostics
https://t.co/tAidpKGY6V
IIT-BHU shines on the global stage! Ranked 401-550 in Materials Science and 501-550 in Engineering & Technology in the QS World University Rankings by Subject 2025, the institute continues to excel in research and innovation.
Continuing our #Research in the area of #environment, particularly in #water remediation, we have shown a very efficient ternary LDH for treatment of #textile_industries discharge. Plus is the material #recyclability up to 14 cycles. Ready to scale up.
https://t.co/fyUw43vboB
Lab has extended its wing in applied research for #environment@RoySocChem#WaterResearch
Highly efficient WS2 QD-based non-enzymatic fluorescent biosensor for ofloxacin & ciprofloxacin monitoring in aquatic media - published in Sensors & Diagnostics
https://t.co/tAidpKGY6V
Just accepted, & the 13th Article on the series of our work in #Quantum_Materials. We have investigated the role of local defects on the cooperative spin dynamics in Dy2-xFexTi2O7.
https://t.co/u0j2Btv54r via @ioppublishing
Next in the series of #Quantum_Materials .
In this work, we tried to explore theoretical techniques to understand the underlying physics through #DFT
Band-gap tuning in Mn-Er2Ti2O7 has been investigated experimently. #Spin_Ice
https://t.co/jDud2odBhP…
#ScholarAlerts
Next in the series of #Quantum_Materials .
In this work, we tried to explore theoretical techniques to understand the underlying physics through #DFT
Band-gap tuning in Mn-Er2Ti2O7 has been investigated experimently. #Spin_Ice
https://t.co/jDud2odBhP…
#ScholarAlerts