Production of Hydroxypyruvic Acid by Glycerol Oxidation over Pt/CeO2-ZrO2-Bi2O3-PbO/SBA-16 Catalysts

Pt/CeO2-ZrO2-Bi2O3-PbO/SBA-16 (SBA-16: Santa Barbara Amorphous No. 16) catalysts were synthesized to produce hydroxypyruvic acid by glycerol oxidation. In the catalysts, the introduction of PbO into CeO2-ZrO2-Bi2O3 improved the oxygen release and storage abilities owing to the synergistic redox reaction of Pb2+/4+ and Ce3+/4+, which facilitated the oxidation ability of Pt. In addition, the oxidation of the secondary OH group in glycerol might be accelerated by the geometric effects of glycerol, Pt, and Bi3+ or Pb2+/4+. Furthermore, the moderate reaction conditions such as room temperature and open-air atmosphere enabled the suppression of further oxidation of hydroxypyruvic acid. The highest catalytic activity was obtained for 7 wt% Pt/16 wt% Ce0.60Zr0.15Bi0.20Pb0.05O2−δ/SBA-16, which provided a hydroxypyruvic acid yield maximum of 24.6%, after the reaction for 6 h at 30 °C in atmospheric air.

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Efficient synthesis of pyrido[2,3-d]pyrimidine-7-carboxylic acids catalyzed by a TiO2/SiO2 nanocomposite in aqueous media at room temperature

Zeitschrift für Naturforschung B ◽

10.1515/znb-2018-0076 ◽

2018 ◽

Vol 73 (9) ◽

pp. 641-645 ◽

Cited By ~ 1

Author(s):

Sepehr Sadegh-Samiei ◽

Shahrzad Abdolmohammadi

Keyword(s):

Heterogeneous Catalyst ◽

Carboxylic Acids ◽

Room Temperature ◽

Aqueous Media ◽

Reaction Times ◽

Molar Ratio ◽

Efficient Synthesis ◽

Reaction Conditions ◽

Moderate Reaction ◽

Recyclable Heterogeneous Catalyst

AbstractA novel and efficient synthesis of eight 5-aryl-1,3-dimethyl-2,4-dioxo-1,2,3,4,5,8-hexahydropyrido[2,3-d]pyrimidine-7-carboxylic acids using a TiO2/SiO2 nanocomposite with a molar ratio of 1:1 as a recyclable heterogeneous catalyst is described. The desired products, five of which are new, are formed in short reaction times (2–3 h) with high to excellent yields (94%–98%) under very moderate reaction conditions (room temperature, aqueous media).

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The Rivalta’s test as a diagnostic variable in feline effusions – evaluation of optimum reaction and storage conditions

Tierärztliche Praxis Ausgabe K Kleintiere / Heimtiere ◽

10.1055/s-0038-1623722 ◽

2013 ◽

Vol 41 (05) ◽

pp. 297-303 ◽

Cited By ~ 4

Author(s):

Y. Fischer ◽

K. Weber ◽

C. Sauter-Louis ◽

K. Hartmann

Keyword(s):

Room Temperature ◽

Storage Conditions ◽

Observer Variation ◽

Major Influence ◽

Test Results ◽

Reaction Conditions ◽

Robust Test ◽

Optimum Reaction ◽

Diagnostic Sensitivity And Specificity ◽

And Storage

Summary Objective: The Rivalta’s test is used to diagnose feline infectious peritonitis (FIP) in cats with effusion. Only little information on the influence of sample storage and reaction conditions on test results is available, and diagnostic sensitivity and specificity to diagnose FIP vary considerably between few available studies. This study determined the influence of storage of effusion, modifications on reaction conditions, and inter-observer variation. Material and methods: The Rivalta’s test was repeated up to 21 days after storage at room temperature, in the refrigerator, or freezer. The test was performed by two independent, blinded investigators. It was also performed using different volumes of acetic acid, different acids, and different kinds of water. Results: Even after storage for 21 days, test results were comparable. While inter-observer variation revealed substantial disagreement, different modifications in performance showed no major influence on test outcome. Conclusion: The Rivalta’s test seems to be a very robust test concerning storage conditions. Modifications in reaction condition also do not substantially influence outcome. However, the test is subjective and depends on the evaluating person.

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Investigations on the Nature of Hemophilia A

Thrombosis and Haemostasis ◽

10.1055/s-0038-1654959 ◽

1963 ◽

Vol 09 (01) ◽

pp. 030-052 ◽

Cited By ~ 4

Author(s):

Eberhard Mammen

Keyword(s):

Factor Viii ◽

Human Plasma ◽

Barium Sulfate ◽

Freeze Drying ◽

Room Temperature ◽

Hemophilia A ◽

Normal Human Plasma ◽

Normal Human ◽

And Storage ◽

Prothrombin Activation

SummaryIn this paper an inhibitor is described that is found in hemophilic plasma and serum different from any till now described inhibitor. The inhibitor only inhibits prothrombin activation in the “intrinsic clotting systems”. This inhibitor is probably not present in normal human plasma or serum. It is destroyed by ether and freeze drying, is labile to acid and storage at room temperature. It is stable upon dialysis and has not been adsorbed on barium sulfate, aluminum hydroxide or kaolin. It precipitates at 50% v/v saturation with alcohol. The nature of this inhibitor seems to be a protein or lipoprotein.Factor VIII was isolated from hemophilic plasma. The amount isolated was the same as from normal plasma and the activity properties were not different. Hemophiliacs have normal amounts of factor VIII.

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Naturally Occurring Organic Acid-catalyzed Facile Diastereoselective Synthesis of Biologically Active (E)-3-(arylimino)indolin-2-one Derivatives in Water at Room Temperature

Current Organic Chemistry ◽

10.2174/1385272822666190924182538 ◽

2019 ◽

Vol 23 (16) ◽

pp. 1778-1788 ◽

Cited By ~ 5

Author(s):

Gurpreet Kaur ◽

Arvind Singh ◽

Kiran Bala ◽

Mamta Devi ◽

Anjana Kumari ◽

...

Keyword(s):

Room Temperature ◽

Biologically Active ◽

Environmentally Benign ◽

Diastereoselective Synthesis ◽

Substituted Anilines ◽

Reaction Conditions ◽

Naturally Occurring ◽

Acid Catalyzed ◽

Reaction Media ◽

Column Chromatographic

A simple, straightforward and efficient method has been developed for the synthesis of (E)-3-(arylimino)indolin-2-one derivatives and (E)-2-((4-methoxyphenyl)imino)- acenaphthylen-1(2H)-one. The synthesis of these biologically-significant scaffolds was achieved from the reactions of various substituted anilines and isatins or acenaphthaquinone, respectively, using commercially available, environmentally benign and naturally occurring organic acids such as mandelic acid or itaconic acid as catalyst in aqueous medium at room temperature. Mild reaction conditions, energy efficiency, good to excellent yields, environmentally benign conditions, easy isolation of products, no need of column chromatographic separation and the reusability of reaction media are some of the significant features of the present protocol.

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A Facile, Efficient and Selective Deprotection of P - Methoxy Benzyl Ethers Using Zinc (II) Trifluoromethanesulfonate

Letters in Organic Chemistry ◽

10.2174/1570178616666190222151934 ◽

2019 ◽

Vol 16 (12) ◽

pp. 955-958

Author(s):

Reddymasu Sireesha ◽

Reddymasu Sreenivasulu ◽

Choragudi Chandrasekhar ◽

Mannam Subba Rao

Keyword(s):

Room Temperature ◽

Protecting Groups ◽

Side Reactions ◽

Reaction Conditions ◽

Acid Sensitivity ◽

Time Period ◽

Protective Groups ◽

Benzyl Ethers ◽

Last Stage ◽

Zinc Triflate

: Deprotection is significant and conducted over mild reaction conditions, in order to restrict any more side reactions with sensitive functional groups as well as racemization or epimerization of stereo center because the protective groups are often cleaved at last stage in the synthesis. P - Methoxy benzyl (PMB) ether appears unique due to its easy introduction and removal than the other benzyl ether protecting groups. A facile, efficient and highly selective cleavage of P - methoxy benzyl ethers was reported by using 20 mole% Zinc (II) Trifluoromethanesulfonate at room temperature in acetonitrile solvent over 15-120 min. time period. To study the generality of this methodology, several PMB ethers were prepared from a variety of substrates having different protecting groups and subjected to deprotection of PMB ethers using Zn(OTf)2 in acetonitrile. In this methodology, zinc triflate cleaves only PMB ethers without affecting acid sensitivity, base sensitivity and also chiral epoxide groups.

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One-pot Synthesis of Pyrazolone Sulfones by Iodine-catalyzed Sulfenylation of Pyrazolones with Aryl Sulfonyl Hydrazides Followed by Oxidation in Water

Current Organic Synthesis ◽

10.2174/1570179414666171020113745 ◽

2018 ◽

Vol 15 (3) ◽

pp. 380-387

Author(s):

Xia Zhao ◽

Xiaoyu Lu ◽

Lipeng Zhang ◽

Tianjiao Li ◽

Kui Lu

Keyword(s):

Double Bond ◽

Efficient Method ◽

Room Temperature ◽

Sulfonyl Chloride ◽

Antibacterial Activities ◽

Oxidation Reactions ◽

Reaction Conditions ◽

One Pot ◽

X Ray ◽

Amide Form

Aim and Objective: Pyrazolone sulfones have been reported to exhibit herbicidal and antibacterial activities. In spite of their good bioactivities, only a few methods have been developed to prepare pyrazolone sulfones. However, the substrate scope of these methods is limited. Moreover, the direct sulfonylation of pyrazolone by aryl sulfonyl chloride failed to give pyrazolone sulfones. Thus, developing a more efficient method to synthesize pyrazolone sulfones is very important. Materials and Method: Pyrazolone, aryl sulphonyl hydrazide, iodine, p-toluenesulphonic acid and water were mixed in a sealed tube, which was heated to 100°C for 12 hours. The mixture was cooled to 0°C and m-CPBA was added in batches. The mixture was allowed to stir for 30 min at room temperature. The crude product was purified by silica gel column chromatography to afford sulfuryl pyrazolone. Results: In all cases, the sulfenylation products were formed smoothly under the optimized reaction conditions, and were then oxidized to the corresponding sulfones in good yields by 3-chloroperoxybenzoic acid (m-CPBA) in water. Single crystal X-ray analysis of pyrazolone sulfone 4aa showed that the major tautomer of pyrazolone sulfones was the amide form instead of the enol form observed for pyrazolone thioethers. Moreover, the C=N double bond isomerized to form an α,β-unsaturated C=C double bond. Conclusion: An efficient method to synthesize pyrazolone thioethers by iodine-catalyzed sulfenylation of pyrazolones with aryl sulfonyl hydrazides in water was developed. Moreover, this method was employed to synthesize pyrazolone sulfones in one-pot by subsequent sulfenylation and oxidation reactions.

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Rh(III)-Catalyzed Olefination and Alkylation of Arenes with Maleimides: A Tunable Strategy for C(sp2)–H Functionalization

Synthesis ◽

10.1055/s-0037-1610765 ◽

2021 ◽

Author(s):

Hongji Li ◽

Wenjie Zhang ◽

Xueyan Liu ◽

Zhenfeng Tian

Keyword(s):

Room Temperature ◽

Functional Group ◽

Reaction Conditions ◽

Bond Functionalization ◽

Alkylation Process ◽

Coupling Partner

AbstractWe herein report a new nitrogen-directed Rh(III)-catalyzed C(sp2)–H bond functionalization of N-nitrosoanilines and azoxybenzenes with maleimides as a coupling partner, in which the olefination/alkylation process can be finely controlled at room temperature by variation of the reaction conditions. This method shows excellent functional group tolerance, and presents a mild access to the resulting olefination/alkylation products in moderate to good yields.

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Process intensification for enzyme assisted turmeric starch hydrolysis in hydrotropic and supercritical conditions

International Journal of Chemical Reactor Engineering ◽

10.1515/ijcre-2020-0161 ◽

2021 ◽

Vol 0 (0) ◽

Author(s):

Yogita P. Labrath ◽

Prafulla V. Belge ◽

Uma G. Kulkarni ◽

Vilas G. Gaikar

Keyword(s):

Residence Time ◽

Filtration Rate ◽

Room Temperature ◽

Curcuma Longa ◽

Process Intensification ◽

Enzyme Treatment ◽

Starch Hydrolysis ◽

Reaction Conditions ◽

Natural Form ◽

Hydrolysis Of

Abstract The turmeric rhizome (Curcuma longa) contains curcuminoids embedded in the starch matrix. It is thus important to target starch hydrolysis to enhance extraction of curcuminoids. In the case of starch hydrolysis, α-amylase is more efficient when the starch is in a gelatinised form than when it is in its natural form. The present work includes hydrolysis of turmeric starch in its natural and gelatinised forms using α-amylase in hydrotrope solution (HS) and scCO2. The optimum rate of starch hydrolysis was obtained using 200 IU cm−3 of α-amylase, at reaction conditions of 6.5 pH at 328 K when 10% w/w of turmeric powder was stirred at 900 rpm in HSs. The hydrolysis in 15 MPa scCO2 at room temperature required a phase modifier and 40 min of residence time (RT). The enzyme treatment of turmeric powder in HSs increased the filtration rate for curcuminoid extraction (gelatinised and native) compared to untreated turmeric powder.

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Porphyrin-Catalyzed Oxidation of N-Substituted Tetrahydroisoquinolines to Dihydroisoquinolones

Synlett ◽

10.1055/a-1345-3491 ◽

2021 ◽

Author(s):

Ao Li ◽

Bin Pan ◽

Mu Chao ◽

Na Wang ◽

Yu-Long Li ◽

...

Keyword(s):

Visible Light ◽

Room Temperature ◽

Air Atmosphere ◽

Wide Range ◽

Convenient Route ◽

Catalyzed Oxidation

A visible-light-induced direct α-oxygenation of N-substituted tetrahydroisoquinoline derivatives has been successfully developed. Metalloporphyrin (ZnTPP) has been identified as an effective and inexpensive photocatalyst for this transformation with a wide range of substrates. This protocol provides a convenient route to afford the desired products in moderate to good yields at room temperature under air atmosphere.

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Bu4N+-Controlled Addition and Olefination with Ethyl 2-(Trimethylsilyl)acetate via Silicon Activation

Synlett ◽

10.1055/s-0036-1588805 ◽

2017 ◽

Vol 28 (18) ◽

pp. 2401-2406 ◽

Cited By ~ 2

Author(s):

Donal O’Shea ◽

Manas Das ◽

Atul Manvar ◽

Ian Fox ◽

Dilwyn Roberts

Keyword(s):

Room Temperature ◽

Product Formation ◽

Unsaturated Ester ◽

Reaction Conditions ◽

Diverse Range ◽

Inorganic Cation ◽

Tetrabutyl Ammonium ◽

Aldehydes And Ketones ◽

Subsequent Elimination ◽

Hydroxy Esters

Catalytic Bu4NOAc as silicon activator of ethyl 2-(trimethylsilyl)acetate, in THF, was utilized for the synthesis of β-hydroxy esters, whereas employing catalytic Bu4NOTMS gave α,β-unsaturated esters. The established reaction conditions were applicable to a diverse range of aromatic, heteroaromatic, aliphatic aldehydes and ketones. Reactions were achieved at room temperature without taking any of the specialized precautions that are in place for other organometallics. A stepwise olefination pathway via silylated β-hydroxy esters with subsequent elimination to form the α,β-unsaturated ester has been demonstrated. The key to selective product formation lies in use of the weaker acetate activator which suppresses subsequent elimination whereas stronger TMSO– activator (and base) facilitates both addition and elimination steps. The use of tetrabutyl ammonium salts for both acetate and trimethylsilyloxide activators provide enhanced silicon activation when compared to their inorganic cation counterparts.

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