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Intrinsicly evisculate emerging cutting edge scenarios redefine future-proof e-markets demand line
Green nanotechnology represents a breakthrough in sustainable innovation, utilizing plant-based materials to develop biocompatible and non-toxic nanoparticles with unparalleled efficacy. Kadamba's advancements in this field are safeguarded by a robust portfolio of internationally valid patents, ensuring exclusive rights to its unique formulations and eco-friendly synthesis methods. These patents are protected under the World Intellectual Property Organization (WIPO) treaties, including the Patent Cooperation Treaty (PCT), which enforces standardized intellectual property rights globally. Unauthorized use, reproduction, or commercialization of these patented technologies constitutes a violation of international law, subject to severe legal penalties, including injunctions, damages, and potential criminal charges. Kadamba's commitment to intellectual property protection not only preserves its proprietary innovations but also reinforces ethical practices in the green nanotechnology industry, ensuring that sustainable and advanced therapeutic solutions continue to thrive under a legally compliant framework.
EGCG STABILIZED GOLD NANOPARTICLES AND METHOD FOR MAKING
STABILIZED, BIOCOMPATIBLE GOLD NANOPARTICLES AND ENVIRO-FRIENDLY METHOD FOR MAKING
STABILIZED GOLD NANOPARTICLE AND CONTRAST AGENT
AU, AG AND RICH PHYTOCHEMICAL PAYLOAD NANOMATERIALS, ANTIVIRAL/ANTIBACTERIAL PRODUCTS AND SYNTHESIS METHODS
GOLD NANOPARTICLE EMBEDDED COMBINATORIAL NANO-AYURVEDIC IMMUNOBOOSTING, IMMUNOMODULATION AND PROPHYLACTIC OBJECTIVES IN CANCER AND VARIOUS INFLAMMATORY DISEASES TREATMENT
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Versatile green nanoplatforms developed for multifunctional applications across health, energy, and environment-merging ecological sustainability with scientific innovation for global impact.
Integrative approach using nano-phytomedicine and diagnostics to personalize treatment, enhance recovery, and minimize toxicity, revolutionizing the global healthcare delivery landscape.
Plant-based nano immunotherapeutics modulate immune responses by enhancing cytokine balance and cell signaling, offering safe alternatives to synthetic immune boosters and suppressants.
Advanced green pharmaceutical platforms leverage nano-sized plant-derived molecules for high-efficacy, low-toxicity treatments, revolutionizing drug delivery with sustainable, biocompatible therapeutic interventions
Integration of Ayurvedic wisdom with green nanotechnology to develop precision therapeutics, enhancing efficacy, absorption, and safety of traditional plant-based treatments for modern health issues.
Nano-formulated cancer therapeutics target malignant cells with enhanced specificity, reduced toxicity, and improved bioavailability, offering safer, non-invasive alternatives to conventional chemotherapy and radiation.
Green nano antioxidants neutralize free radicals at the cellular level, delivering potent anti-aging, neuroprotective, and cardiovascular benefits through targeted bioactive compound delivery systems.
Nano-antibiotics using phyto-derived particles combat multidrug-resistant pathogens by disrupting microbial biofilms, minimizing resistance development, and enhancing therapeutic outcomes in critical infections.
Phyto-nano anti-inflammatory agents inhibit pro-inflammatory cytokines and enzymes, providing targeted relief with minimal side effects for arthritis, dermatitis, and metabolic inflammation disorders.
Trimeric amino acids structured via green synthesis provide stable, bioactive platforms for targeted delivery, molecular imaging, and high-affinity receptor interaction in nanomedicine.
Ketone molecules encapsulated in plant protein nanocarriers for sustained energy, cognitive enhancement, and metabolic support, including 'Petone'- a pioneering, bioavailable nano-ketone energy system.
Smart Foods (Functional Food) enhanced via green nano-encapsulation, improving nutrient bioavailability, shelf life, and health benefits while ensuring sustainability and regulatory compliance in nutrition science.
Hydrogels formulated with green nanomaterials for wound healing, drug delivery, and tissue engineering; exhibit tunable viscosity, biocompatibility, and responsive behavior to physiological stimuli.
Green nano-based diagnostic probes enable early disease detection via high-sensitivity imaging and biomarker tracking, enhancing precision diagnostics across oncology, neurology, and infectious disease.
Natural nano-antimicrobials incorporated in hygiene products for superior pathogen control, skin safety, and ecological impact, supporting public health and clinical sanitation efforts.
Nano-agri-inputs like fertilizers and pesticides ensure efficient nutrient delivery and pest control, minimizing runoff and promoting sustainable farming practices with enhanced crop yields.
Veterinary nano-therapies designed with plant-based nanocarriers offer non-toxic treatments for livestock and pets, enhancing productivity, immunity, and reducing dependence on antibiotics.
Engineered nano-absorbents derived from natural materials for targeted toxin capture, gastrointestinal cleansing, and pollutant remediation across clinical, environmental, and industrial applications.
Catalysts synthesized via green nano-engineering accelerate chemical transformations under mild conditions, enhancing industrial efficiency, selectivity, and environmental sustainability in chemical manufacturing.
Textiles integrated with antimicrobial, UV-resistant green nanoparticles for enhanced hygiene, comfort, and durability, applicable in healthcare, defense, and active wear industries.
Eco-friendly nano-based coatings offering superior adhesion, antimicrobial properties, and durability for indoor and outdoor applications in residential, medical, and industrial environments.
Nanostructured metal alloys engineered for superior strength, corrosion resistance, and thermal conductivity, applicable in biomedical implants, aerospace, and high-performance engineering sectors.
Nano-enabled semiconducting materials synthesized from green routes for optoelectronic, biosensing, and photovoltaic applications, reducing environmental hazards and enhancing material performance.
Nano-engineered energy molecules from plant substrates offer high-yield ATP generation, environmental safety, and metabolic balance, enabling next-gen bioenergetics for medical and athletic performance use.
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