Category: piperidines

Ma, Wenjie; Wang, Na; Du, Yunchen; Tong, Tianze; Zhang, Leijiang; Andrew Lin, Kun-Yi; Han, Xijiang published an article on January 15 ,2019. The article was titled 《One-step synthesis of novel Fe3C@nitrogen-doped carbon nanotubes/graphene nanosheets for catalytic degradation of Bisphenol A in the presence of peroxymonosulfate》, and you may find the article in Chemical Engineering Journal (Amsterdam, Netherlands).Safety of Triacetonamine The information in the text is summarized as follows:

Developing novel carbocatalysts with available strategies for peroxymonosulfate (PMS) activation has become a popular topic in environmental remediation and protection fields. Herein, using com. K4Fe(CN)6 as the precursor, Fe3C@nitrogen-doped carbon nanotubes/graphene nanosheets (Fe3C@NCNTs/GNS) is synthesized by a direct high-temperature pyrolysis. Characterization results prove that Fe3C@NCNTs/GNS has a relatively high graphitization degree and rich nitrogen doping content, which endow it with excellent catalytic efficiency in PMS activation for powerful removal of Bisphenol A (BPA). Influences of catalyst/oxidant dosages, some inorganic anions, humic acid, and practical sewages are investigated in detail. For mechanism studies, it is found that tert-Bu alc. (TBA)/methanol fails to inhibit BPA degradation, and the primary reactive oxidative species (ROS) are superoxide radical (O·-2) and singlet oxygen (1O2). Discussion on the origin of 1O2 confirms that moderate modification of N atoms in graphitic carbon frameworks plays an essential role in inducing the non-radical mechanism. This work will provide new insights for the preparation of high-performance carbocatalysts in PMS activation and exploring critical roles of N-doping during non-radical processes. After reading the article, we found that the author used Triacetonamine(cas: 826-36-8Safety of Triacetonamine)

Triacetonamine(cas: 826-36-8) is a member of piperidine. Piperidine is ubiquitous structural motif widely occurred in diverse synthetically and naturally occurring bioactive molecules. Piperidines are an immensely important class of compounds medicinally: the piperidine ring is the most common heterocyclic subunit among FDA approved drugs.Safety of Triacetonamine

Referemce:
Piperidine – Wikipedia,
Piperidine | C5H11N – PubChem

Blizzard, Timothy A.; Chen, Helen; Kim, Seongkon; Wu, Jane; Bodner, Rena; Gude, Candido; Imbriglio, Jason; Young, Katherine; Park, Young-Whan; Ogawa, Aimie; Raghoobar, Susan; Hairston, Nichelle; Painter, Ronald E.; Wisniewski, Doug; Scapin, Giovanna; Fitzgerald, Paula; Sharma, Nandini; Lu, Jun; Ha, Sookhee; Hermes, Jeff; Hammond, Milton L. published an article on February 1 ,2014. The article was titled 《Discovery of MK-7655, a β-lactamase inhibitor for combination with Primaxin》, and you may find the article in Bioorganic & Medicinal Chemistry Letters.Recommanded Product: 1-Cbz-4-Methylaminopieridine The information in the text is summarized as follows:

β-Lactamase inhibitors with a bicyclic urea core and a variety of heterocyclic side chains were prepared and evaluated as potential partners for combination with imipenem to overcome class A and C β-lactamase mediated antibiotic resistance. The piperidine analog 3 (MK-7655) inhibited both class A and C β-lactamases in vitro. It effectively restored imipenem’s activity against imipenem-resistant Pseudomonas and Klebsiella strains at clin. achievable concentrations A combination of MK-7655 and Primaxin is currently in phase II clin. trials for the treatment of Gram-neg. bacterial infections. In the experiment, the researchers used many compounds, for example, 1-Cbz-4-Methylaminopieridine(cas: 405057-75-2Recommanded Product: 1-Cbz-4-Methylaminopieridine)

1-Cbz-4-Methylaminopieridine(cas: 405057-75-2) belongs to anime. Reduction of nitro compounds, RNO2, by hydrogen or other reducing agents produces primary amines cleanly (i.e., without a mixture of products), but the method is mostly used for aromatic amines because of the limited availability of aliphatic nitro compounds. Reduction of nitriles and oximes (R2C=NOH) also yields primary amines.Recommanded Product: 1-Cbz-4-Methylaminopieridine

Referemce:
Piperidine – Wikipedia,
Piperidine | C5H11N – PubChem

Synthetic Route of C9H17NOOn October 1, 2021 ,《Highly-efficient and stable MgCo2O4 spinel for bisphenol a removal by activating peroxymonosulfate via radical and non-radical pathways》 was published in Chemical Engineering Journal (Amsterdam, Netherlands). The article was written by Yu, Jiaxin; Qiu, Wei; Xu, Haodan; Lu, Xiaohui; Ma, Jun; Lu, Dongwei. The article contains the following contents:

Nowadays, the limited catalytic efficiency, secondary pollution of metal leaching and stability decrease during reuse bring challenges to practical application of heterogeneous catalysts in sulfate radical-based advanced oxidation processes. Herein, MgCo2O4 spinel was synthesized through hydrothermal method and tested for its catalytic performance of activating PMS by using bisphenol A (BPA) as the target pollutant. MgCo2O4/PMS system can degrade 99.6% BPA efficiently at pH 7.2 within 10 min. The morphol. and physicochem. properties of MgCo2O4 were characterized by SEM (SEM), transmission electron microscopy (TEM), and X-ray diffraction (XRD). Unlike conventional PMS activation, radical and non-radical pathways were identified through utilizing XPS, ESR (EPR), and radical quenching experiments Tetrahedral Mg2+ might make MgCo2O4 more stable and promote the Co2+/Co3+ redox, which dominated the catalytic ability of MgCo2O4. MgCo2O4 spinel is efficient, stable, low-cost, and simple to synthesize, leading to BPA degradation via both radical and non-radical pathways. This research would extend the mechanism and potential application of spinel catalysis in water treatment. After reading the article, we found that the author used Triacetonamine(cas: 826-36-8Synthetic Route of C9H17NO)

Triacetonamine(cas: 826-36-8) is a member of piperidine. Piperidine is ubiquitous structural motif widely occurred in diverse synthetically and naturally occurring bioactive molecules. Piperidines are an immensely important class of compounds medicinally: the piperidine ring is the most common heterocyclic subunit among FDA approved drugs.Synthetic Route of C9H17NO

Referemce:
Piperidine – Wikipedia,
Piperidine | C5H11N – PubChem

Electric Literature of C6H12N2OOn September 21, 2020 ,《A General Catalyst Based on Cobalt Core-Shell Nanoparticles for the Hydrogenation of N-Heteroarenes Including Pyridines》 was published in Angewandte Chemie, International Edition. The article was written by Murugesan, Kathiravan; Chandrashekhar, Vishwas G.; Kreyenschulte, Carsten; Beller, Matthias; Jagadeesh, Rajenahally V.. The article contains the following contents:

Herein, we report the synthesis of specific silica-supported Co/Co3O4 core-shell based nanoparticles prepared by template synthesis of cobalt-pyromellitic acid on silica and subsequent pyrolysis. The optimal catalyst material allows for general and selective hydrogenation of pyridines, quinolines, and other heteroarenes including acridine, phenanthroline, naphthyridine, quinoxaline, imidazo[1,2-a]pyridine, and indole under comparably mild reaction conditions. In addition, recycling of these Co nanoparticles and their ability for dehydrogenation catalysis are showcased. In the experiment, the researchers used many compounds, for example, Piperidine-4-carboxamide(cas: 39546-32-2Electric Literature of C6H12N2O)

Piperidine-4-carboxamide(cas: 39546-32-2) belongs to anime. Nitrous acid converts secondary amines (aliphatic or aromatic) to N-nitroso compounds (nitrosamines): R2NH + HNO2 → R2N―NO. Some nitrosamines are potent cancer-inducing substances, and their possible formation is a serious consideration when nitrites, which are salts of nitrous acid, are present in foods or pharmaceutical preparations. Tertiary amines give rise to nitrosamines more slowly; an alkyl group is eliminated as an aldehyde or ketone, along with nitrous oxide, N2O.Electric Literature of C6H12N2O

Referemce:
Piperidine – Wikipedia,
Piperidine | C5H11N – PubChem

Reference of tert-Butyl 4-hydroxypiperidine-1-carboxylateIn 2021 ,《A knowledge-based, structural-aided discovery of a novel class of 2-phenylimidazo[1,2-a]pyridine-6-carboxamide H-PGDS inhibitors》 was published in Bioorganic & Medicinal Chemistry Letters. The article was written by Schulte, Christie A.; Deaton, David N.; Diaz, Elsie; Do, Young; Gampe, Robert T.; Guss, Jeffrey H.; Hancock, Ashley P.; Hobbs, Heather; Hodgson, Simon T.; Holt, Jason; Jeune, Michael R.; Kahler, Kirsten M.; Kramer, H. Fritz; Le, Joelle; Mortenson, Paul N.; Musetti, Caterina; Nolte, Robert T.; Orband-Miller, Lisa A.; Peckham, Gregory E.; Petrov, Kim G.; Pietrak, Beth L.; Poole, Chuck; Price, Daniel J.; Saxty, Gordon; Shillings, Anthony; Smalley, Terrence L. Jr.; Somers, Don O.; Stewart, Eugene L.; Stuart, J. Darren; Thomson, Stephen A.. The article contains the following contents:

A knowledge-based, structural-aided discovery of a novel class of 1,4,6,7-tetrahydro-5H-pyrazolo[4,3-c]pyridine and 2-phenylimidazo[1,2-a]pyridine-6-carboxamide H-PGDS inhibitors was described. In addition to this study using tert-Butyl 4-hydroxypiperidine-1-carboxylate, there are many other studies that have used tert-Butyl 4-hydroxypiperidine-1-carboxylate(cas: 109384-19-2Reference of tert-Butyl 4-hydroxypiperidine-1-carboxylate) was used in this study.

tert-Butyl 4-hydroxypiperidine-1-carboxylate(cas:109384-19-2) is a 4-hydroxypyridine with a boc protecting group used in the preparation of neurologically active agents and other pharmaceutical compounds.Reference of tert-Butyl 4-hydroxypiperidine-1-carboxylate

Referemce:
Piperidine – Wikipedia,
Piperidine | C5H11N – PubChem

The author of 《An optimised series of substituted N-phenylpyrrolamides as DNA gyrase B inhibitors》 were Tiz, Davide Benedetto; Skok, Ziga; Durcik, Martina; Tomasic, Tihomir; Masic, Lucija Peterlin; Ilas, Janez; Zega, Anamarija; Draskovits, Gabor; Revesz, Tamas; Nyerges, Akos; Pal, Csaba; Cruz, Cristina D.; Tammela, Paivi; Zigon, Dusan; Kikelj, Danijel; Zidar, Nace. And the article was published in European Journal of Medicinal Chemistry in 2019. Application of 109384-19-2 The author mentioned the following in the article:

ATP competitive inhibitors of DNA gyrase and topoisomerase IV have great therapeutic potential, but none of the described synthetic compounds has so far reached the market. To optimize the activities and physicochem. properties of the authors’ previously reported N-phenylpyrrolamide inhibitors, the authors have synthesized an improved, chem. variegated selection of compounds and evaluated them against DNA gyrase and topoisomerase IV enzymes, and against selected Gram-pos. and Gram-neg. bacteria. The most potent compound displayed IC50 values of 6.9 nM against Escherichia coli DNA gyrase and 960 nM against Staphylococcus aureus topoisomerase IV. Several compounds displayed min. inhibitory concentrations (MICs) against Gram-pos. strains in the 1-50 μM range, one of which inhibited the growth of Enterococcus faecalis, Enterococcus faecium, S. aureus and Streptococcus pyogenes with MIC values of 1.56 μM, 1.56 μM, 0.78 μM and 0.72 μM, resp. This compound has been investigated further on methicillin-resistant S. aureus (MRSA) and on ciprofloxacin non-susceptible and extremely drug resistant strain of S. aureus (MRSA VISA). It exhibited the MIC value of 2.5 μM on both strains, and MIC value of 32 μM against MRSA in the presence of inactivated human blood serum. Further studies are needed to confirm its mode of action. The results came from multiple reactions, including the reaction of tert-Butyl 4-hydroxypiperidine-1-carboxylate(cas: 109384-19-2Application of 109384-19-2)

tert-Butyl 4-hydroxypiperidine-1-carboxylate(cas:109384-19-2) is a 4-hydroxypyridine with a boc protecting group used in the preparation of neurologically active agents and other pharmaceutical compounds.Application of 109384-19-2

Referemce:
Piperidine – Wikipedia,
Piperidine | C5H11N – PubChem

In 2014,Vidadala, Rama Subba Rao; Ojo, Kayode K.; Johnson, Steven M.; Zhang, Zhongsheng; Leonard, Stephen E.; Mitra, Arinjay; Choi, Ryan; Reid, Molly C.; Keyloun, Katelyn R.; Fox, Anna M. W.; Kennedy, Mark; Silver-Brace, Tiffany; Hume, Jen C. C.; Kappe, Stefan; Verlinde, Christophe L. M. J.; Fan, Erkang; Merritt, Ethan A.; Van Voorhis, Wesley C.; Maly, Dustin J. published 《Development of potent and selective Plasmodium falciparum calcium-dependent protein kinase 4 (PfCDPK4) inhibitors that block the transmission of malaria to mosquitoes》.European Journal of Medicinal Chemistry published the findings.COA of Formula: C7H15NO The information in the text is summarized as follows:

Malaria remains a major health concern for a large percentage of the world’s population. While great strides have been made in reducing mortality due to malaria, new strategies and therapies are still needed. Therapies that are capable of blocking the transmission of Plasmodium parasites are particularly attractive, but only primaquine accomplishes this, and toxicity issues hamper its widespread use. In this study, the authors describe a series of pyrazolopyrimidine- and imidazopyrazine-based compounds that are potent inhibitors of PfCDPK4, which is a calcium-activated Plasmodium protein kinase that is essential for exflagellation of male gametocytes. Thus, PfCDPK4 is essential for the sexual development of Plasmodium parasites and their ability to infect mosquitoes. The authors demonstrate that two structural features in the ATP-binding site of PfCDPK4 can be exploited to obtain potent and selective inhibitors of this enzyme. Furthermore, the authors demonstrate that pyrazolopyrimidine-based inhibitors that are potent inhibitors of the in vitro activity of PfCDPK4 are also able to block Plasmodium falciparum exflagellation with no observable toxicity to human cells. This medicinal chem. effort serves as a valuable starting point in the development of safe, transmission-blocking agents for the control of malaria. In the experiment, the researchers used many compounds, for example, 2-(Piperidin-4-yl)ethanol(cas: 622-26-4COA of Formula: C7H15NO)

2-(Piperidin-4-yl)ethanol(cas: 622-26-4) have been used as an intermediate in the synthetic preparation of cellular-active allosteric inhibitors of FAKCOA of Formula: C7H15NO

Referemce:
Piperidine – Wikipedia,
Piperidine | C5H11N – PubChem

Sun, Ping; Liu, Hui; Zhai, Zhicai; Zhang, Xuesheng; Fang, Yingsen; Tan, Jun; Wu, Jiaqiang published an article on January 15 ,2019. The article was titled 《Degradation of UV filter BP-1 with nitrogen-doped industrial graphene as a metal-free catalyst of peroxymonosulfate activation》, and you may find the article in Chemical Engineering Journal (Amsterdam, Netherlands).Application In Synthesis of Triacetonamine The information in the text is summarized as follows:

Instead of previously reported graphene oxide (GO), industrial graphene (reduced graphene oxide (IrGO)) was annealed with a nitrogen precursor. The obtained nitrogen-doped graphene (N-IrGO) was then employed as a novel catalyst for peroxymonosulfate (PMS) activation to degrade benzophenone-1 (BP-1) for the first time. The results show that N-IrGO exhibits excellent catalytic performance over conventional GO and its nitrogen-doped sample and was even better than the metal catalysts Co3O4 and Fe3O4. The enhanced catalytic performance might be attributed to graphitic-like nitrogen. Moreover, the effects of various factors were studied, including catalyst load, PMS concentration and reaction temperature Possible degradation pathways of BP-1 in the N-IrGO/PMS system were proposed based on detected intermediates and the frontier electron d. calculation Radical quenching experiments and ESR (EPR) tests indicated that nonradical oxidation (singlet oxygen (1O2)) plays a dominant role in the BP-1 degradation, in contrast to the previously proposed radical process. Finally, mineralization and stability experiments confirmed that N-IrGO may be an alternative catalyst for environmental remediation. This study contributes to designing novel graphene materials with N doping and gives new insight into nonradical oxidation on benzophenone-type UV filters degradation The results came from multiple reactions, including the reaction of Triacetonamine(cas: 826-36-8Application In Synthesis of Triacetonamine)

Triacetonamine(cas: 826-36-8) is a member of piperidine. Piperidine-containing compounds are also frequently employed in synthesis as ligands or auxiliaries. Accordingly, many efforts have been devoted to the development of novel methods for the synthesis of these compounds over the years.Application In Synthesis of Triacetonamine

Referemce:
Piperidine – Wikipedia,
Piperidine | C5H11N – PubChem

Synthetic Route of C9H17NOOn March 1, 2022, Wei, Ying; Lu, Guanglu; Xie, Dongrun; Sun, Tianyi; Liu, Yu; Zhang, Ying; An, Jiutao; Li, Menghong; Guo, He published an article in Chemical Engineering Journal (Amsterdam, Netherlands). The article was 《Degradation of enrofloxacin in aqueous by DBD plasma and UV: Degradation performance, mechanism and toxicity assessment》. The article mentions the following:

Enrofloxacin (ENRO) as a highly toxic antibiotic poses great threats to human health and environmental safety. In this study, a novel technol. of coupling dielec. barrier discharge (DBD) and UV was investigated to efficiently degrade ENRO in aqueous, and had a higher degradation rate. The ENRO degradation rate achieved approx. 93.9% at 30 min, and approx. 1.20 g kWh-1 of energy yield (G50) was observed for the combined system. The addition of H2O2 and K2S2O4 improved the ENRO degradation due to the generation of ·OH and ·SO42-. In the presence of NO3-, the ENRO degradation played a tendency to promote first and then decrease, and the presence of SO42-resulted in the pos. effect, while the neg. effect was shown in the presence of Cl- and CO32-. The trapping experiment indicated that ·OH played an important part in the ENRO degradation The addition of UV into the DBD system decreased H2O2 concentration in deionized water, and increased ·OH concentration The DFT anal. showed the degradation mechanisms of ENRO at a mol. level. The degradation of ENRO mainly involved the oxidation of the piperazine group, the removal of Et acetate and the substitution of the F atom. The toxicity of ENRO and its degradation intermediates was evaluated. After reading the article, we found that the author used Triacetonamine(cas: 826-36-8Synthetic Route of C9H17NO)

Triacetonamine(cas: 826-36-8) is a member of piperidine. Piperidine is a key saturated heterocyclic scaffold found in several of the top-selling small molecule pharmaceuticals and natural alkaloids, with a diverse range of biological activities. Hence, continuous efforts have been made to develop convenient methods to prepare piperidine derivatives.Synthetic Route of C9H17NO

Referemce:
Piperidine – Wikipedia,
Piperidine | C5H11N – PubChem

Product Details of 826-36-8On March 5, 2022, Wang, Gen; Ge, Lei; Liu, Zhuoyue; Zhu, Xiurong; Yang, Shengjiong; Wu, Kun; Jin, Pengkang; Zeng, Xiangkang; Zhang, Xiwang published an article in Chemical Engineering Journal (Amsterdam, Netherlands). The article was 《Activation of peroxydisulfate by defect-rich CuO nanoparticles supported on layered MgO for organic pollutants degradation: An electron transfer mechanism》. The article mentions the following:

Heterogeneous activation of peroxydisulfate (PDS) by transition metal oxides offers a promising strategy for organic pollutants removal but suffers from low electron transfer efficiency. Herein, layered MgO supported CuO nanoparticles was prepared by thermal conversion of metal-phenolic networks of Cu2+/Mg2+ and tannic acid. CuO nanoparticles (≈2 nm) were spatial monodispersed on layered MgO, inducing the formation of electron deficient Cu3+ and surface oxygen vacancies and thus facilitated adsorption and activation of PDS. The electron-rich CuO/MgO hybrid catalysts manifested good catalytic performance of PDS activation for organic pollutants removal. At 0.18 g/L of CuO/MgO hybrid catalyst and 0.2 mM of PDS, complete removal of bisphenol A (BPA) was achieved with a high kinetic constant (0.1 min-1, 50 min). Quenching experiments, ESR tests, PDS decomposition behaviors, electrochem. anal. and in situ ATR-FTIR and Raman spectroscopy revealed a nonradical pathway of electron transfer for PDS activation. The CuO/MgO hybrid catalysts exhibited wide working pH range from 3 to 11, selective oxidation capability, good resistance to halide ion and high utilization efficiency of PDS, and thus would be a promising candidate for wastewater remediation. The experimental part of the paper was very detailed, including the reaction process of Triacetonamine(cas: 826-36-8Product Details of 826-36-8)

Triacetonamine(cas: 826-36-8) is a member of piperidine. Piperidine is a key saturated heterocyclic scaffold found in several of the top-selling small molecule pharmaceuticals and natural alkaloids, with a diverse range of biological activities. Hence, continuous efforts have been made to develop convenient methods to prepare piperidine derivatives.Product Details of 826-36-8

Referemce:
Piperidine – Wikipedia,
Piperidine | C5H11N – PubChem