Big Chemical Encyclopedia

Chemical substances, components, reactions, process design ...

Articles Figures Tables About
0 | 1 | 2 | 3 | 4 | 5 | 6 | 7 | 8 | 9 | a | b | c | d | e | f | g | h | i | j | k | l | m | n | o | p | q | r | s | t | u | v | w | x | y | z

   |<      <<      >>     > |    


Possibilities for improving resolution in the RP-HPLC .

Possibilities for iTAS integration

Possibilities for macrolactonization.

Possibilities for mass spectrometric isotope ratio measurements in the periodic table of the elements

Possibilities for on-line coupling of thin-layer chromatography with physical measurement and determination methods. CCD Charge Coupled Device Detection.

Possibilities for parametric imaging using dynamic PET data obtained from an FDG examination. The cross-section of the liver demonstrates two metastases from a patient with a breast carcinoma. The parametric images demonstrate that in this case the global FDG uptake is mainly related to an enhanced intracellular phosphorylation of the tracer and less dependent on the transport of FDG into the cells upper row

Possibilities for photochemically induced reactions, using a carbonyl compound as example. U and IT electron spins parallel and antiparallel respectively.

Possibilities for photochemically induced reactions, using a carbonyl compound as exan pie. ii and it electron spins parallel and antiparallel respectively.

Possibilities for preventing PE-induced calcium pectate precipitation in orange juice by enzymatic pectin degradation.

Possibilities for radioanalytical isotope ratio measurements in the periodic table of the elements

Possibilities for sample introduction in purge and trap, Sampie vessei needie

Possibilities for second derivatives of multi-dimensional functions, with I indicating an invalid combination

Possibilities for spectroscopic research in catalysis for abbreviations, see

Possibilities for spectroscopic research in catalysis.

Possibilities for synthesis of propylene from biomass using fermentation, gasification, or cracking strategies.

Possibilities for the addition of a monomer molecule to the growing chain end in a radical polymerization.

Possibilities for the addition of a monomer molecule to the growing chain in an anionic polymerization

Possibilities for the dependence of surface reactivity and of kinetic mechanisms on the coordinative environment of the surface groups.

Possibilities for the pinning potential V

Possibilities for the placement of backbone chiral centres

Possibilities for the preparation of functionalized conducting polymers and subsequent covalent binding of enzymes, a Functionalization of already grown polder films, b Polymerization of functionalized monomers, c Copolymerization of functionalized and non-fimctionalized monomers, d Copolymerization of functionalized and non-fimctionalized monomers of dif ent type, e Copolymerization of monomers of different types and subsequent functionalization.

Possibilities for the preparation of phospholium salts

Possibilities for the reorientation of a molecular dipole.

Possibilities for the synthesis of dendralenes via reactions forming two or more alkene groups.

Possibilities for the synthesis of Vitamin K3. The small pore titaninm zeolite TS-1 cannot fit the large naphthalene molecule into its pore system, and thus is effective in this transformation. The larger titanium MTS material is capable of interacting with the molecule, and the desired transformation can take place.



   |<      <<      >>     > |    

SEARCH



© 2024 chempedia.info