Pioneering Nanotechnology for a Brighter Tomorrow
Our Products
One-Step Fabrication of Low-Cost, Autoclavable, and Multifunctional Silk-Based Nanofibrous Permeable Hanging Cell Culture Inserts for Various Biological Applications
Revolutionize cell culture with our cost-effective, versatile nanofiber inserts. Easily tunable, autoclavable, and perfect for diverse assays—from wound healing to cancer studies and tissue engineering."
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Patent details: G. Packirisamy and S. Basak, V. Kumar Patent Application No. 202011003619, published in the Official Journal No. 30/2021 dated 30-07-2021 of the Indian Patent Office.
Biopolymer based edible coating for enhancing the shelf life of horticulture products
"Introducing our cost-effective, FDA-approved coating solution for fruits and vegetables! Our blend of silk fibroin, PVA, honey, and curcumin creates a protective barrier using dip-coating and nanofiber techniques. Extending shelf life while preventing direct exposure to gases and microbes, it's a game-changer for vendors, addressing postharvest loss without the use of harmful chemicals."
Patent details: P.Gopinath and Dravin Pratap Singh. Patent filed on 07.07.2020 for “Silk fibroin nanofiber based edible coating for enhancing the shelf life of horticulture products” Indian Patent Application number 202011028795.
Bio-degradable triple layered nanofibrous bandages for wound healing application
"Experience the future of wound care with our bio-degradable triple-layered nanofibrous bandages. Designed for optimal wound healing, these bandages offer advanced protection and promote faster recovery. Their unique triple-layered structure provides superior comfort and accelerates the healing process, all while being environmentally friendly."
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Patent details: P.Gopinath and Vinay Kumar. Patent filed on 07.07.2020 for “Silk fibroin nanofiber based edible coating for enhancing the shelf life of horticulture products” Indian Patent publication no: 202011049934 /10/2020.
Magnetic-field actuated hybrid nanofiber scaffold for 4D tissue engineering
Enter the realm of 4D tissue engineering with our magnetic-field actuated hybrid nanofiber scaffold. This cutting-edge scaffold responds dynamically to magnetic fields, enabling precise tissue regeneration. Revolutionizing tissue engineering, it offers unparalleled control and functionality, shaping the future of regenerative medicine
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Certifications:
Awarded GYTI 2019 by DBT-BIRAC-SRIST
Patent Granted
Patent details : P.Gopinath and S. Uday Kumar. Patent filed on 03.03.2017 for “Magnetic-field actuated hybrid nanofiber scaffold and apparatus for 4D tissue engineering”, Indian Patent Application number 201711007507.
Innovative aspects of the nanofiber based mask
Introducing our innovative nanofiber-based mask: a fusion of high filtration efficiency and multifunctionality. This mask boasts exceptional air permeability, allowing comfortable wear while facilitating clear verbal communication. Its thin, lightweight layer is flexible, washable, and customizable to fit various face shapes, ensuring both comfort and functionality in a single design.
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Patent details: P.Gopinath, S. Raj Kumar and Abhishek Sharma. Patent filed on 24.04.2020 for “Polyacrylonitrile-Graphene-Oxide-Silver nanocomposite based fibrous membrane filter for air purification”, Indian Patent Application number 202011017645
Fluorescence based rapid diagnostic kit for lung cancer detection
Introducing our cutting-edge diagnostic kit leveraging biofunctionalized graphene quantum dots and metal nanoparticles/Titanium carbide 2D nanosheets. Using fluorescence quenching, it detects biomarker antigens with remarkable precision. With a wide detection range from 0.1 pg mL−1 to 1500 ng mL−1 and a rapid response time of just 12 minutes, this kit offers unparalleled performance. It excels in serum samples, boasting an average recovery rate of ~98%, making it a groundbreaking tool for swift and accurate biomarker detection.
Patent Granted
Patent details : P.Gopinath, Ashish and Rangadhar Pradhan. Patent granted on 11.04.2023 for “Fluorescence based cost-effective rapid diagnostic kit for detection of small-cell lung cancer biomarker” Indian Patent Application number 202011010110.
Tragacanth gum-based nano-nutraceuticals synthesis by encapsulation of beetroot juice and Ocimum basilicum leaves for micronutrient deficient population
Presenting our innovative nano-nutraceuticals crafted from natural sources – encapsulated beetroot juice and sweet basil nanopowder. Utilizing FDA-approved tragacanth gum, we've harnessed its hydrogel-forming properties to encapsulate these nutrients, ensuring superior absorption in the body. These nano-nutraceuticals naturally offer vital nutrients like iron, folic acid, ascorbic acid, chlorophyll, niacin, and sugars, free from chemical processing or preservatives. Revolutionize your nutrient intake with our natural and highly absorbable nano-nutraceuticals.
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Patent details : P.Gopinath and Dravin Pratap Singh. Patent filed on 19.04.2023 for “A method of synthesis of Tragacanth gum-based nano-nutraceuticals by encapsulation of beetroot juice and Ocimum basilicum leaves as new health supplement” Indian Patent Application number 202311028625
A Lab-based Electromechanical Pneumatic spray coating device for thin film deposition
our portable spray device, harnessing nanostructured thin film deposition. This cutting-edge technology excels in crafting electrochemical biosensors with exceptional traits. It delivers a substantial surface-to-volume ratio, heightened surface reactivity, robust adsorption, and superior electrochemical properties. This innovation elevates coated surfaces, enabling advanced biosensor development.
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Patent details : P.Gopinath, Ashish Kalkal, Rangadhar Pradhan Deepanshu Sharma, and Ayush Tiwari. Patent filed for “A Lab-based Electromechanical Pneumatic spray coating device for thin film deposition Grant no. 382992-001
Air-brush spray coated Ti3C2-MXene-graphene nanohybrid thin film based electrochemical biosensor for cancer biomarker detection
our advanced electrochemical biosensing platform for efficient carcinoembryonic antigen (CEA) detection. Using f-graphene@Ti3C2-MXene nanohybrid thin-films, deposited via air-brush spray coating, this platform offers highly sensitive cancer biomarker quantification. Characterized by XRD, XPS, and FESEM, the deposited nanohybrid thin films exhibit precise chemical bonding and morphology. Immobilized with monoclonal anti-CEA antibodies using EDC-NHS chemistry and BSA blocking, this immunoelectrode delivers exceptional electrochemical response. Optimized for sensitivity, it detects CEA from 0.01 pg mL−1 to 2000 ng mL−1, boasting an impressive lower detection limit of 0.30 pg mL−1
Patent details : P.Gopinath, Ashish Kalkal, Deepanshu Sharma, Ayush Tiwari and Rangadhar Pradhan. Patent filed on 24.02.2023 for MXene graphene nanohybrid thin film based electrochemical biosensors for analyte detection, its method of preparation and applications thereof” Indian Patent Application number 202311012554
Partnering for Your Success
Super Good Nano is a partner you can trust. We work closely with our clients to understand their business needs and provide innovative solutions that help them achieve their goals. Our solutions integrate seamlessly with your ecosystem, ensuring a smooth transition and a successful partnership.