Let’s continue going over the basic knowledge required for developing one or more ultra-low cost biochemical composition determination technologies—for advancing human immortality biotech, neurotech, and artificial intelligence.
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SEM Scanning Electron Microscopy techniques include cathode-luminescence and back-scattering for surface, contrast and elemental analysis. I’ll look into those.
Scanning Electron Microscopy + Energy Dispersive X-ray Analysis is abbreviated as SEM/EDXA.
Fixing, Staining, Embedding, Microtomy, Polarised Light Microscopy, Confocal Microscopy, Hot-Stage Optical Microscopy, Cold and Shear Stage Optical Microscopy, Dynamic Time-lapse Imaging, Digital Imaging from Macro to Ultra-micro Magnifications, and Optical Profilometry are techniques used in optical microscopy. I’ll look into those.
Scanning electron microscopy (SEM) is used to study surfaces and particles, visualization of texture and morphology, or contamination of materials. What I am interested is ultra-low cost biochemical analysis and determination of the entire human body, for eventually enabling the human immortality biotech. I don’t know yet if electron microscopes can play any role in ultra-low cost biochemical analysis and determination of the entire human body; I’ll look into it.
Computational Chemistry such as Crystal Structure Analysis, Polymorphism Study, and Molecular Modelling might have some relevance in human-body biochemical analysis and determination; so, I’ll look into them.
To the best of my knowledge, X-Ray Diffraction Analysis is for analyzing the chemical composition of non-biological matter, but I’m not 100% sure; it might have a relevance in biochemical analysis and determination, so I’ll look into it. X-Ray Diffraction Analysis includes Reflectometry, and Kratky Small Angle X-ray Scattering (SAXS); I’ll look into them.
X-ray photoelectron spectroscopy (XPS), also known as electron spectroscopy for chemical analysis (ESCA), is a technique for analyzing a material’s surface chemistry. I’ll look into it.
High Resolution Inductively Coupled Plasma – Mass Spectrometry (ICP-MS) is for trace metals analysis. But I’ll look into it; it might have some relevance in biochemical analysis and determination. Inductively Coupled Plasma (ICP) coupled with optical emission detection (ICP-OES). High Resolution-ICPMS, or magnetic sector ICPMS.
Ultra-Violet/Visible (UV/VIS), Spectrophotometry, Differential Scanning Calorimetry (DSC), Dynamic Mechanical Thermal Analysis (DMTA), Thermomechanical Analysis (TMA), Thermogravimetric Analysis (TGA) and Heat Distortion Temperature (HDT) might be applicable to biochemical analysis and determination. I’ll look into them.
Polymer Chemical Analysis Technology include Spectroscopy – Infra-Red spectroscopy (FTIR) with ATR, FTIR microscopy, Raman spectroscopy and Raman microscopy, UV/Vis spectrometry, Nuclear Magnetic Resonance Spectroscopy (NMR); Chromatography (GPC / HT- GPC, GC, GC-MS, GC/GC-MS HPLC, LC-MS); Thermal DMTA, DSC, TGA, DMA; Elemental Analysis – includes ICP-OES, XRF and SEM-EDAX; Microscopy; Plus a range of classical and wet chemical techniques such as titrations. Those probably have relevance in biochemical and biopolymer analysis and determination. I’ll look into them.
Molecular weight (MW) determination of polymers is done by application of techniques such as gel permeation chromatography (GPC) also known as size exclusion chromatography (SEC), mass spectrometry (MALDI TOF-MS), High Temperature Gel Permeation Chromatography (HT-GPC), GPC-NMR, Conventional (calibration based) GPC-DRI (Differential Refractive Index detection) with polystyrene-standard (PS)-calibration or polymethylmethacrylate standards (PMMA)-calibration, GPC-UV detection, GPC-UV / RI / SFD / Viscosimetry / ELSD / Light Scattering Detection, Multi Angle Laser Light Scattering (MALLS), and MALDI TOF-MS. I’ll look into all of those.
I’ll continue in part 8.
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