Several molecular processes being pursued at Chemistry Research Lab., Deshbandhu College, University of Delhi, using Survismeter. The wetting coefficients, interfacial tension, surface area, water binding capacity of molecules, gelation, hydrodynamic volume, toxicity of heavy metals, detoxification etc are being studied with Survismeter. Basically these features are functions of the NSSMD.processes being pursued at Chemistry Research Lab., Deshbandhu College, University of Delhi, using Survismeter. The wetting coefficients, interfacial tension, surface area, water binding capacity of molecules, gelation, hydrodynamic volume, toxicity of heavy metals, detoxification etc are being studied with Survismeter. Basically these features are functions of the NSSMD.
The Molecular Mimicry demonstrates a relevance of atomic combinations and electronic configurations to decide a fate of molecule in interacting and non-interacting environments. Van der Waals forces, Debye-Huckel, London dispersion forces, dipole and induced dipole theories do explain NSSMD. Currently a thrust for molecular sciences has driven towards Smart industrial uses under an umbrella of nanoscience. Dendrimers [1] are most attractive supramolecules to assist trapping therapy and cancer therapy. Few more semiconductor and lanthanide metals based supramolecules [2,3] have tuned the chemistry to a new dimension. With this little background, Chemistry Research Lab., Deshbandhu College, University of Delhi, New Delhi-110019, has opened an option for visits and pursuance NSSMD for contributions to R & D in the fields of 1. Polymer Chemistry 2. Interface and Surface Chemistry 3. Interdisciplinary Molecular Potentialities 4. Biophysics 5. Colloidal Sciences 6. Supercritical Mixtures with Biocompatible Surfactants 7. Emulsions 8. Rheology of Macromolecules and Biomacromelcules. 9. Entropic Transitions 10. Protein optimizations and entropic transitions 11. Ionic Mimicry with Biomolecules and Supramolecules 12. Shear and entropic driven dents on resolving cholesterol deposition in tissues as body tissues are safe heaven for cholesterol and allied. A fat deposition concept in the tissues came from frog which accumulates it in tissues for hybernation period during winter season. The fat is most inactive molecule with least residual forces. Our research group is working competently on NSSMD sciences using indigenous Survismeter, patents 126089 (Singapore) 232429 (Indian), calibration no. 06070582/1.01/C-0395, National Physical Laboratory, Delhi. The Survismeter is an Economic, Ecofriendly, Efficient Research Tool [EEERT] at individual level for study of Blue Areas of Interterdiscilinary Sciences [BAIS]. The BAIS are prerequisites to Core Areas of Molecular Sciences [CAMS]. Our expertise on BAIS explains Smart polymer resins, interfacial partitioning, extraction and many others. Interested person can contact for piece of research or project work for contributions in BAIS and CAMS fields. Email: mansingh50@hotmail.com,crldbc@yahoo.in, Telephone: 011 26217579. Request with quest summary be appreciate and entertained shortly. Science community is informed briefly about Nonstructural and Structural Molecular Demonstrational [NSSMD] potentialities in academic and industrial processes being pursued at Chemistry Research Lab.
, Deshbandhu College, DU, using Survismeter. The wetting coefficients, interfacial tension, surface area, water binding capacity of molecules, gelation, hydrodynamic volume, toxicity of heavy metals, detoxification etc are being studied with Survismeter. Basically these features are functions of the NSSMD. The Molecular Mimicry demonstrates a relevance of atomic combinations and electronic configurations to decide a fate of molecule in interacting and non-interacting environments. Van der Waals forces, Debye-Huckel, London dispersion forces, dipole and induced dipole theories do explain NSSMD. Currently a thrust for molecular sciences has driven towards Smart industrial uses under an umbrella of nanoscience. Dendrimers [1] are most attractive supramolecules to assist trapping therapy and cancer therapy. Few more semiconductor and lanthanide metals based supramolecules [2,3] have tuned the chemistry to a new dimension. With this little background, Chemistry Research Lab., Deshbandhu College, University of Delhi, New Delhi-110019, has opened an option for visits and pursuance NSSMD for contributions to R & D in the fields of 1. Polymer Chemistry 2. Interface and Surface Chemistry 3. Interdisciplinary Molecular Potentialities 4. Biophysics 5. Colloidal Sciences 6. Supercritical Mixtures with Biocompatible Surfactants 7. Emulsions 8. Rheology of Macromolecules and Biomacromelcules. 9. Entropic Transitions 10. Protein optimizations and entropic transitions 11. Ionic Mimicry with Biomolecules and Supramolecules 12. Shear and entropic driven dents on resolving cholesterol deposition in tissues as body tissues are safe heaven for cholesterol and allied. A fat deposition concept in the tissues came from frog which accumulates it in tissues for hybernation period during winter season. The fat is most inactive molecule with least residual forces. Our research group is working competently on NSSMD sciences using indigenous Survismeter, patents 126089 (Singapore) 232429 (Indian), calibration no. 06070582/1.01/C-0395, National Physical Laboratory, Delhi. The Survismeter is an Economic, Ecofriendly, Efficient Research Tool [EEERT] at individual level for study of Blue Areas of Interterdiscilinary Sciences [BAIS]. The BAIS are prerequisites to Core Areas of Molecular Sciences [CAMS]. Our expertise on BAIS explains Smart polymer resins, interfacial partitioning, extraction and many others. Interested person can contact for piece of research or project work for contributions in BAIS and CAMS fields. Email: mansingh50@hotmail.com,crldbc@yahoo.in, Telephone: 011 26217579. Request with quest summary be appreciate and entertained shortly.