potassium-bicarbonate and formic-acid

potassium-bicarbonate has been researched along with formic-acid* in 2 studies

Other Studies

2 other study(ies) available for potassium-bicarbonate and formic-acid

Article	Year
Oil formation from glucose with formic acid and cobalt catalyst in hot-compressed water. Carbohydrate research, 2006, Dec-29, Volume: 341, Issue:18 Liquefaction of glucose into oil was examined in hot-compressed water at 300 degrees C and 30 or 60 min in a tumbling batch reactor. The effects of alkali (KHCO(3)), a hydrogenating agent (HCO(2)H), and a cobalt catalyst (Co(3)O(4)) were studied. Also the combinations of these additives were investigated. HCO(2)H and KHCO(3) showed a positive effect on oil formation. Co(3)O(4) was found to be an advantageous additive as well, increasing the oil formation from glucose, but the stability of this catalyst under reaction conditions was quite low. Topics: Bicarbonates; Biomass; Catalysis; Cobalt; Formates; Glucose; Hot Temperature; Oils; Potassium Compounds; Pressure; Water	2006
Self-assembly of fluid-filled KHCO(3) microfibers. Journal of the American Chemical Society, 2003, Mar-19, Volume: 125, Issue:11 Self-assembly of KHCO(3) fibers is observed when glassy oligomerized films of poly[(aminopropyl)siloxane] containing K(+) ions, denoted K(+)/poly-APS, are exposed to CO(2) and H(2)O. The fibers are crystalline, narrow (0.4-3 microm diam), high aspect ratio (up to at least 300), and, on the basis of Raman spectroscopy, dominated by KHCO(3). The fibers contain fluid that is dominated by aqueous potassium formate (KOOCH). A multistep phenomenological model is proposed to account for the self-assembly. Topics: Bicarbonates; Biotechnology; Formates; Nanotechnology; Potassium Compounds; Siloxanes; Spectrum Analysis, Raman	2003

Article

Year

Oil formation from glucose with formic acid and cobalt catalyst in hot-compressed water.

Carbohydrate research, 2006, Dec-29, Volume: 341, Issue:18

Liquefaction of glucose into oil was examined in hot-compressed water at 300 degrees C and 30 or 60 min in a tumbling batch reactor. The effects of alkali (KHCO(3)), a hydrogenating agent (HCO(2)H), and a cobalt catalyst (Co(3)O(4)) were studied. Also the combinations of these additives were investigated. HCO(2)H and KHCO(3) showed a positive effect on oil formation. Co(3)O(4) was found to be an advantageous additive as well, increasing the oil formation from glucose, but the stability of this catalyst under reaction conditions was quite low.

Topics: Bicarbonates; Biomass; Catalysis; Cobalt; Formates; Glucose; Hot Temperature; Oils; Potassium Compounds; Pressure; Water

2006

Self-assembly of fluid-filled KHCO(3) microfibers.

Journal of the American Chemical Society, 2003, Mar-19, Volume: 125, Issue:11

Self-assembly of KHCO(3) fibers is observed when glassy oligomerized films of poly[(aminopropyl)siloxane] containing K(+) ions, denoted K(+)/poly-APS, are exposed to CO(2) and H(2)O. The fibers are crystalline, narrow (0.4-3 microm diam), high aspect ratio (up to at least 300), and, on the basis of Raman spectroscopy, dominated by KHCO(3). The fibers contain fluid that is dominated by aqueous potassium formate (KOOCH). A multistep phenomenological model is proposed to account for the self-assembly.

Topics: Bicarbonates; Biotechnology; Formates; Nanotechnology; Potassium Compounds; Siloxanes; Spectrum Analysis, Raman

2003