チオ尿素及び有機ボロン酸を用いた不斉反応の開発と反応機構解析

東, 巧

24 March 2014

京都大学 / 0048 / 新制・課程博士 / 博士(薬学) / 甲第18205号 / 薬博第795号 / 新制||薬||237(附属図書館) / 31063 / 京都大学大学院薬学研究科創薬科学専攻 / (主査)教授 竹本 佳司, 教授 高須 清誠, 教授 川端 猛夫 / 学位規則第4条第1項該当 / Doctor of Pharmaceutical Sciences / Kyoto University / DFAM

チオ尿素

反応機構解析

有機ボロン酸

不斉Mannich反応

不斉Michael付加

499

Mannich反応を利用したβ-アミノ-α-ケト酸誘導体の触媒的不斉合成法の開発とペプチドへの合成展開

德弘, 佑介

23 March 2023

京都大学 / 新制・課程博士 / 博士(薬科学) / 甲第24545号 / 薬科博第162号 / 新制||薬科||18(附属図書館) / 京都大学大学院薬学研究科薬科学専攻 / (主査)教授 竹本 佳司, 教授 高須 清誠, 教授 大宮 寛久 / 学位規則第4条第1項該当 / Doctor of Pharmaceutical Sciences / Kyoto University / DFAM

β-アミノ-α-ケト酸

ペプチド

Mannich反応

有機触媒

不斉合成

反応機構解析

499.3

Estudo da relação quantitativa entre a estrutura química e atividade citotóxica de séries de derivados de bases de Mannich / Study of the quantitative relationship between chemical structure and cytotoxic activity of series of derivatives of Mannich bases

Raminelli, Cristiano

05 December 2001

Bases de Mannich têm sido sintetizadas como pró-fármacos de cetonas α,β-insaturadas, 22, 20 sendo estas importantes no tratamento do câncer. 20 Assim, toma-se de interesse o desenvolvimento de estudos de QSAR envolvendo bases de Mannich com propriedades citotóxicas e/ou anticâncer, contribuindo-se, para o entendimento da(s) interação(ões) destes compostos (agentes alquilantes) no sistema biológico. 40, 5, 36, 53 Neste trabalho, destinado a dissertação de mestrado, foram preparadas e purificadas por métodos triviais descritos na literatura 8 47 duas séries de derivados de bases de Mannich, a saber: nove cloretos de 3-(dimetilamino)-propiofenonas-4-X-substituidas (série I, compostos I.1 a I.9), e seis dos correspondentes iodetos de 3-(trimetilamino )propiofenonas-4-X-substituídas (série II, compostos II.1 a II.6). Destes, quatro não estão descritos na literatura. A seleção dos substituintes foi feita visando obter intercorrelações não significativas entre os correspondentes valores dos parâmetros físico-químicos analisados (π, σp e MR4). 45 Outro critério considerado, se refere as faixas de variação para cada parâmetro físico-químico analisado. 62, 31, 15 Para a série II, estes critérios foram parcialmente contemplados. Em seguida, para cada composto preparado, foram determinados experimentalmente e/ou retirados da literatura 45 e/ou calculados parâmetros parâmetros fisico-químicos/estruturais descritores de propriedades, respectivamente: hidrofóbicas/lipofílicas (π, logPcalc e logP app (sendo os valores este último determinados somente para os compostos da serie I)); eletrônicas/polares (σp, σp+, σp-, σI, σR, T, R, γ13C=0 e νC=0) e, ainda aquela relativa à polarizabilidade (MR4). Como parâmetro biológico para os compostos das series I e II foram determinados os valores da potência citotóxica, expressos por log(1/IC50). A seguir, com o objetivo de se desenvolver estudos de QSAR, aplicando a abordagem tradicional 40 para os compostos respectivamente das séries I e II, e a abordagem mista, 62, 63, 53 que considera as duas séries conjuntamente, foram propostos respectivamente modelos expressos pelas equações IV.4 e IV.6: log(1/IC50)= -0,27(±0,23)δ13C=0 -0,48(±0,35)logPcalc + 56,32(±44,30) eq.IV.4 (n=9;r=0,87;s=0,17;F=9,23;Q2=0,36;SPRESS=0,28) log(1/IC50)=-0,56(±0,27)π+0,35(±0,29)MR4+0,23(±0,22)I[N(Me)3]+-I+1,53(±0,22) eq.IV.6 (n=15;r=0,82;s=0,18;F=7,64;Q2=0,43;SPRESS=0,24 Primeiramente, através da análise do modelo expresso pela equação IV.4 foi possível avaliar as naturezas e contribuições relativas dos parâmetros estruturais responsáveis pela citotoxicidade dos compostos da série I. Em seguida, através da análise do modelo expresso pela equação IV.6 foi possível avaliar a contribuição dos parâmetros físico-químicos, bem como a contribuição da variação estrutural existente entre as séries I e II, responsáveis pela citotoxicidade dos compostos. A interpretação e significado de I[N(Me)3]+I-, que assume valor 0 para os compostos da série I e valor 1 para os compostos da série II, foi discutida em termos estruturais. Nenhum modelo com significado estatístico foi obtido para os compostos da série II. E, tanto para a série I, bem como para as séries I e II, a aplicação dos modelos tanto parabólico como bilinear não resultou em correlações estatisticamente significativas. Pela análise dos modelos foi possível, pelo menos em parte, o entendimento da(s) interação(ões) dos derivados de bases de Mannich no sistema biológico. 40, 5, 36, 53. / Mannich bases have been used as prodrugs of α,β-unsaturated ketones that are important in the cancer therapy 80, 22. In this way, a QSAR study 20, 81 was performed with two sets of Mannich bases derivatives, namely: 3-(dimethylamine)-propiophenon-4-X-substituted hydrochlorides (set I, composed of nine derivatives) and 3-(trimethylamine)propiophenon-4-X-substituted iodines (set II, composed of six derivatives). The sets I and II were prepared by trivial methods described in the literature 58,8. For each compound the physicochemical/structural descriptors, hydrophobic/lipophilic (π, logPcalc and logP app (it was determined only for set I), electronic/polar (σp, σp+, σp-, σI, σR, T, R, γ13C=0 e νC=0) and the polarizability related (MR4), were determined experimentally and/or calculated and/or obtained from the literature 7. The biological parameter was the cytotoxic potency, expressed by values of log(1/IC50). In order to investigate 1he interaction of this class of compounds wi1h the biological system a QSAR study was performed 20, 81. The most significant QSAR models obtained for set I and sets I and II altogether, were expressed respectively by equations 1 and 2. log(1/IC50)= -0,27(±0,23)δ13C=0 -0,48(±0,35)logPcalc + 56,32(±44,30) eq.1 (n=9;r=0,87;s=0,17;F=9,23;Q2=0,36;SPRESS=0,28) log(1/IC50)=-0,56(±0,27)π+0,35(±0,29)MR4+0,23(±0,22)I[N(Me)3]+-I+1,53(±0,22) eq.2 (n=15;r=0,82;s=0,18;F=7,64;Q2=0,43;SPRESS=0,24 To equation 2 was included an variable indicator I[N(Me)3]+I- that assumed the value 0 for set I compounds and the value of 1 for set II compounds. The interpretation and meaning of I[N(Me)3]+I-, were discussed in structural terms. No significant models were obtained for the compounds of the set II. For set I and sets I and II altogether, the application of the parabolic and the bilinear models were verified and showed to be not statistically significant.

Bases de Mannich

Cetona (Estado)

Citotoxicidade

Cytotoxicity

Ketone (State)

Mannich bases

Organic synthesis

Pharmaceutical chemistry

QSAR

QSAR

Química farmacêutica

Relações estrutura-atividade

SAR

SAR

Síntese orgânica

Structure-activity relations

Estudo da relação quantitativa entre a estrutura química e atividade citotóxica de séries de derivados de bases de Mannich / Study of the quantitative relationship between chemical structure and cytotoxic activity of series of derivatives of Mannich bases

Cristiano Raminelli

05 December 2001

Bases de Mannich têm sido sintetizadas como pró-fármacos de cetonas α,β-insaturadas, 22, 20 sendo estas importantes no tratamento do câncer. 20 Assim, toma-se de interesse o desenvolvimento de estudos de QSAR envolvendo bases de Mannich com propriedades citotóxicas e/ou anticâncer, contribuindo-se, para o entendimento da(s) interação(ões) destes compostos (agentes alquilantes) no sistema biológico. 40, 5, 36, 53 Neste trabalho, destinado a dissertação de mestrado, foram preparadas e purificadas por métodos triviais descritos na literatura 8 47 duas séries de derivados de bases de Mannich, a saber: nove cloretos de 3-(dimetilamino)-propiofenonas-4-X-substituidas (série I, compostos I.1 a I.9), e seis dos correspondentes iodetos de 3-(trimetilamino )propiofenonas-4-X-substituídas (série II, compostos II.1 a II.6). Destes, quatro não estão descritos na literatura. A seleção dos substituintes foi feita visando obter intercorrelações não significativas entre os correspondentes valores dos parâmetros físico-químicos analisados (π, σp e MR4). 45 Outro critério considerado, se refere as faixas de variação para cada parâmetro físico-químico analisado. 62, 31, 15 Para a série II, estes critérios foram parcialmente contemplados. Em seguida, para cada composto preparado, foram determinados experimentalmente e/ou retirados da literatura 45 e/ou calculados parâmetros parâmetros fisico-químicos/estruturais descritores de propriedades, respectivamente: hidrofóbicas/lipofílicas (π, logPcalc e logP app (sendo os valores este último determinados somente para os compostos da serie I)); eletrônicas/polares (σp, σp+, σp-, σI, σR, T, R, γ13C=0 e νC=0) e, ainda aquela relativa à polarizabilidade (MR4). Como parâmetro biológico para os compostos das series I e II foram determinados os valores da potência citotóxica, expressos por log(1/IC50). A seguir, com o objetivo de se desenvolver estudos de QSAR, aplicando a abordagem tradicional 40 para os compostos respectivamente das séries I e II, e a abordagem mista, 62, 63, 53 que considera as duas séries conjuntamente, foram propostos respectivamente modelos expressos pelas equações IV.4 e IV.6: log(1/IC50)= -0,27(±0,23)δ13C=0 -0,48(±0,35)logPcalc + 56,32(±44,30) eq.IV.4 (n=9;r=0,87;s=0,17;F=9,23;Q2=0,36;SPRESS=0,28) log(1/IC50)=-0,56(±0,27)π+0,35(±0,29)MR4+0,23(±0,22)I[N(Me)3]+-I+1,53(±0,22) eq.IV.6 (n=15;r=0,82;s=0,18;F=7,64;Q2=0,43;SPRESS=0,24 Primeiramente, através da análise do modelo expresso pela equação IV.4 foi possível avaliar as naturezas e contribuições relativas dos parâmetros estruturais responsáveis pela citotoxicidade dos compostos da série I. Em seguida, através da análise do modelo expresso pela equação IV.6 foi possível avaliar a contribuição dos parâmetros físico-químicos, bem como a contribuição da variação estrutural existente entre as séries I e II, responsáveis pela citotoxicidade dos compostos. A interpretação e significado de I[N(Me)3]+I-, que assume valor 0 para os compostos da série I e valor 1 para os compostos da série II, foi discutida em termos estruturais. Nenhum modelo com significado estatístico foi obtido para os compostos da série II. E, tanto para a série I, bem como para as séries I e II, a aplicação dos modelos tanto parabólico como bilinear não resultou em correlações estatisticamente significativas. Pela análise dos modelos foi possível, pelo menos em parte, o entendimento da(s) interação(ões) dos derivados de bases de Mannich no sistema biológico. 40, 5, 36, 53. / Mannich bases have been used as prodrugs of α,β-unsaturated ketones that are important in the cancer therapy 80, 22. In this way, a QSAR study 20, 81 was performed with two sets of Mannich bases derivatives, namely: 3-(dimethylamine)-propiophenon-4-X-substituted hydrochlorides (set I, composed of nine derivatives) and 3-(trimethylamine)propiophenon-4-X-substituted iodines (set II, composed of six derivatives). The sets I and II were prepared by trivial methods described in the literature 58,8. For each compound the physicochemical/structural descriptors, hydrophobic/lipophilic (π, logPcalc and logP app (it was determined only for set I), electronic/polar (σp, σp+, σp-, σI, σR, T, R, γ13C=0 e νC=0) and the polarizability related (MR4), were determined experimentally and/or calculated and/or obtained from the literature 7. The biological parameter was the cytotoxic potency, expressed by values of log(1/IC50). In order to investigate 1he interaction of this class of compounds wi1h the biological system a QSAR study was performed 20, 81. The most significant QSAR models obtained for set I and sets I and II altogether, were expressed respectively by equations 1 and 2. log(1/IC50)= -0,27(±0,23)δ13C=0 -0,48(±0,35)logPcalc + 56,32(±44,30) eq.1 (n=9;r=0,87;s=0,17;F=9,23;Q2=0,36;SPRESS=0,28) log(1/IC50)=-0,56(±0,27)π+0,35(±0,29)MR4+0,23(±0,22)I[N(Me)3]+-I+1,53(±0,22) eq.2 (n=15;r=0,82;s=0,18;F=7,64;Q2=0,43;SPRESS=0,24 To equation 2 was included an variable indicator I[N(Me)3]+I- that assumed the value 0 for set I compounds and the value of 1 for set II compounds. The interpretation and meaning of I[N(Me)3]+I-, were discussed in structural terms. No significant models were obtained for the compounds of the set II. For set I and sets I and II altogether, the application of the parabolic and the bilinear models were verified and showed to be not statistically significant.

Bases de Mannich

Cetona (Estado)

Citotoxicidade

QSAR

Química farmacêutica

Relações estrutura-atividade

SAR

Síntese orgânica

Cytotoxicity

Ketone (State)

Mannich bases

Organic synthesis

Pharmaceutical chemistry

QSAR

SAR

Structure-activity relations

Étude de la synthèse totale de tétrahydroisoquinoléines naturelles : quinocarcine, Tétrazomine et Lémonomycine. : rapide accés aux α-amidosulfures et leur utilisation en tant que précurseurs de N-acylimines dans la réaction de Friedel-Crafts / Study toward the total synthesis of natural tetrahydroisoquinolines : quinocarcin, tetrazomin and lemonomycin. : rapid acces to α-amidosulfide and its use as N-acylimines precursor in the Friedel-Crafts reaction

George, Nicolas

24 November 2011

La quinocarcine, la tétrazomine et la lémonomycine constituent une sous-famille appartenant à la famille des tétrahydroisquinoléines trisubstituées naturelles. Ce sont des puissants agents cytotoxiques et possèdent de nombreuses activités biologiques telles qu’antitumorales et antibiotiques. Leur complexité structurale, leurs intérêts biologiques ainsi que leur faible rendement d’extraction du milieu naturel font de ces molécules des cibles attrayantes pour les chimistes de synthèse.Ces trois molécules sont constituées d’une tétrahydroisoquinoléine différemment substitué fusionnée avec un diazabicycle[3.2.1]octane commun. Le but de ce projet était de mettre au point une stratégie commune à cette sous-famille et divergente grâce à la synthèse du diazabicyclooctane en premier. Une première stratégie faisant intervenir une aziridine n’a pas permis de construire le bicycle. Cet objectif a été réalisé grâce à une seconde stratégie. Elle repose sur une première cyclisation d’un hémiaminal puis d’une cyclisation par addition nucléophile d’un éther d’énol silylé sur un N-acylimmonium formé in situ au départ d’un N,S-acétal.Parallèlement à cette étude synthétique, nous avons mis au point une réaction multicomposant séquentielle qui permet l’accès rapide et général aux a-amidosulfures, comblant un manque dans la littérature. Ensuite nous avons étudié la réactivité de ces composés en tant que précurseurs simples de N-acylimines en conditions acides douces. Trois conditions réactionnelles, nous ont permis d’accéder à cette objectif : l’utilisation stœchiométrique d’acétate d’argent, catalytique d’acide phosphorique ainsi que le NIS en quantité stœchiométrique et catalytique. Cette dernière réaction est très attrayante. En effet, ce réactif doux et neutre permet l’élimination efficace du thiol formant la N-acylimine puis son activation pour se faire piéger in situ par un nucléophile. Les rendements atteints sont très hauts en moins de 5 minutes. / Quinocarcin, tetrazomin and lemonomycin constitute a subfamily belonging to the family of natural trisubstituted tetrahydroisquinolines. These are powerful cytotoxic agents and have many biological activities such antitumor and antibiotics. Their structural complexity, biological interests and their low efficiency of extraction of the natural environment make these molecules attractive targets for synthetic chemists.These three molecules are constituted of differently substituted tetrahydroisoquinoline diazabicycle merged with a [3.2.1] octane common. The purpose of this project was to develop a common strategy in this subfamily and divergent with the synthesis of diazabicyclooctane first.A first strategy involving an aziridine failed to build the bicycle. This objective was achieved through a second strategy. It is based on a first cyclization of hemiaminal followed by cyclization of nucleophilic addition of a silyl enol ether of an N-acylimmonium formed in situ from a N, S-ketal.Along with this synthetic study, we developed a multicomponent reaction sequence that allows quick general access to -amidosulfides, filling a gap in the literature. Then we studied the reactivity of these compounds as simple precursors of N-acylimines in mild acidic conditions. Three reaction conditions allowed us to reach this goal: the use of stoichiometric silver acetate, phosphoric acid as catalyst and NIS in catalytic and stoichiometric amount. This last reaction is very attractive. Indeed, this sof and neutral reagent allows the efficient removal of the thiol forming the N-acylimine and its activation to be trapped in situ by a nucleophile. The yields are very high in less than 5 minutes.

Synthèse totale

Quinocarcine

Tétrazomine

Lémonomycine

Tétrahydroisoquinoléine

Antibiotique

N-acylimmonium

Éther d’énol silylé

Mannich

Diazabicyclo[3.2.1]octane

Lemonose

N,S-acétal

Précurseur de N-acylimines

Thioglycoside

Diiode

Réaction de Friedel-Crafts

Total synthesis

Quinocarcine

Tetrazomine

Lmonomycine

Tetrahydroisoquinoline

Antibiotic

N-acyliminium

Silyl enol ether

Mannich reaction

Diazabicyclo[3.2.1]octane

Lemonose

N,S-ketal

Precursor of N-acylimines

Thioglycoside

Iodine

Friedel-Crafts reaction

The development of nitro-Mannich/hydroamination cascades for the synthesis of substituted N-heterocycles

Barber, David M.

January 2013

This thesis describes the development of nitro-Mannich/hydroamination cascade reactions for the synthesis of N-heterocycles, which are important motifs found in a variety of biologically active natural products and pharmaceuticals, such as atorvastatin (Lipitor®). Chapter 2 outlines the development of an efficient synthesis of 2,5-disubstituted pyrroles using a nitro-Mannich/hydroamination cascade. Starting from easily prepared N-protected imines and nitroalkyne substrates, a compatible combination of KOtBu (10 mol%) and AuCl3 (5 mol%) was used to afford the desired pyrrole products, after an alkene isomerisation/HNO2 elimination reaction sequence. Chapter 3 describes the extension of this methodology to the diastereo- and enantioselective synthesis of 1,2,3,4-tetrahydropyridine derivatives using a nitroalkyne substrate with an extended carbon chain. The sequential addition of a bifunctional Brønsted base/H-bond donor organocatalyst and a gold complex was found to facilitate the desired cascade reaction affording substituted 1,2,3,4-tetrahydropyridine products. We then established that highly substituted pyrrolidine compounds could be prepared by replacing the nitroalkyne substrate with a nitroallene substrate (Chapter 4). The combination of KOtBu (5 mol%) and a gold catalyst derived from Au(PPh3)Cl (10 mol%) and AgSbF6 (20 mol%) was found to give an efficient diastereoselective synthesis of pyrrolidine derivatives after an additional nitro group epimerisation step. In addition, the nitro-Mannich/hydroamination cascade using nitroallene substrates was developed into an enantioselective variant using the previously employed bifunctional Brønsted base/H-bond donor organocatalyst. This afforded enantioenriched pyrrolidine derivatives.

547.2

Étude de la synthèse totale de tétrahydroisoquinoléines naturelles : quinocarcine, Tétrazomine et Lémonomycine. : rapide accés aux α-amidosulfures et leur utilisation en tant que précurseurs de N-acylimines dans la réaction de Friedel-Crafts

George, Nicolas

24 November 2011

La quinocarcine, la tétrazomine et la lémonomycine constituent une sous-famille appartenant à la famille des tétrahydroisquinoléines trisubstituées naturelles. Ce sont des puissants agents cytotoxiques et possèdent de nombreuses activités biologiques telles qu'antitumorales et antibiotiques. Leur complexité structurale, leurs intérêts biologiques ainsi que leur faible rendement d'extraction du milieu naturel font de ces molécules des cibles attrayantes pour les chimistes de synthèse.Ces trois molécules sont constituées d'une tétrahydroisoquinoléine différemment substitué fusionnée avec un diazabicycle[3.2.1]octane commun. Le but de ce projet était de mettre au point une stratégie commune à cette sous-famille et divergente grâce à la synthèse du diazabicyclooctane en premier. Une première stratégie faisant intervenir une aziridine n'a pas permis de construire le bicycle. Cet objectif a été réalisé grâce à une seconde stratégie. Elle repose sur une première cyclisation d'un hémiaminal puis d'une cyclisation par addition nucléophile d'un éther d'énol silylé sur un N-acylimmonium formé in situ au départ d'un N,S-acétal.Parallèlement à cette étude synthétique, nous avons mis au point une réaction multicomposant séquentielle qui permet l'accès rapide et général aux a-amidosulfures, comblant un manque dans la littérature. Ensuite nous avons étudié la réactivité de ces composés en tant que précurseurs simples de N-acylimines en conditions acides douces. Trois conditions réactionnelles, nous ont permis d'accéder à cette objectif : l'utilisation stœchiométrique d'acétate d'argent, catalytique d'acide phosphorique ainsi que le NIS en quantité stœchiométrique et catalytique. Cette dernière réaction est très attrayante. En effet, ce réactif doux et neutre permet l'élimination efficace du thiol formant la N-acylimine puis son activation pour se faire piéger in situ par un nucléophile. Les rendements atteints sont très hauts en moins de 5 minutes.

[CHIM:OTHE] Chemical Sciences/Other

[CHIM:OTHE] Chimie/Autre

Synthèse totale

Quinocarcine

Tétrazomine

Lémonomycine

Tétrahydroisoquinoléine

Antibiotique

N-acylimmonium

Éther d'énol silylé

Mannich

Diazabicyclo[3.2.1]octane

Lemonose

N

S-acétal

Précurseur de N-acylimines

Thioglycoside

Diiode

Réaction de Friedel-Crafts

Effect of amine-based water treatment polymers on the formation of N-nitrosodimethylamine (NDMA) disinfection by-product

Park, Sang Hyuck

17 January 2008

In recent years, a compound N-nitrosodimethylamine (NDMA), a probable human carcinogen, has been identified as an emerging disinfection by-product (DBP) since its formation and detection were linked to chlorine-based disinfection processes in several water utilities in the U.S. and Canada. Numerous organic nitrogen compounds present in water may impact the formation of NDMA during disinfection. Amine-based water treatment polymers used as coagulants and flocculants have been suggested as potential NDMA precursors due to the presence of amine functional groups in their structures, as well as the possible presence of dimethylamine (DMA) residues in polymer products. To minimize the potential risk of NDMA associated with water treatment polymers, the mechanisms of how the polymers behave as NDMA precursors and their contribution to the overall NDMA formation under actual water treatment conditions need to be elucidated. This research involved a systematic investigation to determine whether amine-based water treatment polymers contribute to NDMA formation under drinking water and wastewater treatment conditions, to probe the involved reaction mechanisms, and to develop strategies to minimize the polymers NDMA formation potential. The investigation included five research tasks: (1) General screening of NDMA formation potential of commonly used amine-based water treatment polymers, (2) NDMA formation from amine-based water treatment polymers under relevant water treatment conditions, (3) Probing the mechanisms of NDMA formation from polyamine and PolyDADMAC, (4) Effect of water treatment processes on NDMA formation from amine-based water treatment polymers, and (5) Developing strategies to reduce polymers NDMA formation potential. Direct chloramination or chlorination of high doses of polymers in deionized water at longer than typical contact time was used in the general screening of the NDMA formation potential of water treatment polymers and in the studies to identify reaction mechanisms. On the other hand, realistic dosages of chloramines and polymers and contact time were used in simulating representative water treatment conditions to evaluate the contribution of polymers to the overall NDMA formation in real systems. On the basis of the study results, strategies were developed to reduce the NDMA formation potential of amine-based water treatment polymers, which include modification of polymer structures and treatment parameters.

Mannich polymer

DMA-epi-DMA

Polymer solution purification

Linear polymer

Polymer molecular weight

Branch polymer

Chain-end capping

Dimethylnitrosamine

Polymers

Synthesis, adsorption and catalysis of large pore metal phosphonates

Pearce, Gordon M.

January 2010

The synthesis and properties of metal phosphonates prepared using piperazine-based bisphosphonic acids have been investigated. The ligands N,N’-piperazinebis(methylenephosphonic acid) (H₄L), and the 2-methyl (H₄L-Me) and 2,5-dimethyl (H₄L 2,5-diMe) derivatives have been prepared using a modified Mannich reaction. Hydrothermal reaction of gels prepared from metal (II) acetates and the bisphosphonic acids results in the synthesis of four structures: STA-12, Ni VSB-5, Co H₂L.H₂O and Mg H₂L. STA-12, synthesised by reaction of Mn, Fe, Co or Ni acetate with H₄L or H₄L-Me, has been investigated further. STA-12 crystallises in the space group R⁻₃, and Ni STA-12 is the most crystalline version. Its structure was solved from synchrotron data (a = b = 27.8342(1) Å, c = 6.2421(3) Å, α = β = 90°, γ = 120°), and it has large 10 Å hexagonal shaped pores. Helical chains of Ni octahedra are coordinated by the ligands, resulting in phosphonate tetrahedra pointing towards the pore space. Water is present, both coordinated to the Ni²⁺ cations and physically adsorbed in the pores. Mixed metal structures based on Ni STA-12, where some Ni is replaced in the gel by another divalent metal (Mg, Mn, Fe or Co) can also be synthesised. Dehydration of STA-12 results in two types of behaviour, depending on the metal present. Rhombohedral symmetry is retained on dehydration of Mn and Fe STA-12, the a cell parameter decreasing compared to the as-prepared structures by 2.42 Å and 1.64 Å respectively. Structure solution of dehydrated Mn STA-12 indicates changes in the torsion angles of the piperazine ring bring the inorganic chains closer together. Fe and Mn STA-12 do not adsorb N₂, which is thought to be due to the formation of an amorphous surface layer. Dehydration of Ni and Co STA-12 causes crystallographic distortion. Three phases were isolated for Ni STA-12: removal of physically adsorbed water results in retention of rhombohedral symmetry, while dehydration at 323 K removes some coordinated water forming a triclinic structure. A fully dehydrated structure (dehydrated at 423 K) was solved from synchrotron data (a = 6.03475(5) Å, b = 14.9156(2) Å, c = 16.1572(7) Å, α = 112.5721(7)°, β = 95.7025(11)°, γ = 96.4950(11)°). The dehydration mechanism, followed by UV-vis and Infra-red spectroscopy, involves removal of water from the Ni²⁺ cations and full coordination of two out of three of the phosphonate tetrahedra forming three crystallographically distinct Ni and P atoms. No structural distortion takes place on dehydration of Ni and Co STA-12 prepared using the methylated bisphosphonate, and the solids give a higher N₂ uptake as a result. Dehydrated Ni and Co STA-12 were tested for adsorption performance for fuel related gases and probe molecules. Investigations were undertaken at low temperature with H₂, CO and CO₂, and ambient temperature with CO₂, CH₄, CH₃CN, CH₃OH and large hydrocarbons. Due to the presence of lower crystallinity, Co STA-12 has an inferior adsorption performance to Ni STA-12, although it has similar adsorption enthalpies for CO₂ at ambient temperature (-30 to -35 kJ mol⁻¹). Ni STA-12 adsorbs similar amounts of CO₂ and N₂ at low temperature, indicating the adsorption mechanisms are similar. Also, it adsorbs 10 × more CO₂ than CH₄ at low pressure, meaning it could be used for separation applications. Ni STA-12 adsorbs 2 mmol g⁻¹ H₂ with an enthalpy of -7.5 kJ mol⁻¹, the uptake being due to adsorption on only one-third of the Ni²⁺ cations. The uptake for CO is 6 mmol g⁻¹, with adsorption enthalpies ranging from -24 to -14 kJ mol⁻¹. This uptake is due to adsorption on all the Ni²⁺, meaning the adsorption enthalpies are high enough to allow the structure to relax. This is also observed for adsorption of CH₃CN and CH₃OH, where there is a return to rhombohedral symmetry after uptake. The adsorption sites in dehydrated Ni and Co STA-12 were investigated via Infra-red spectroscopic analysis of adsorbed probe molecules (H₂, CO, CO₂, CH₃CN and CH₃OH). The results indicate the adsorption sites at both low and ambient temperature are the metal cations and the P=O groups. The metal cation sites are also characterised as Lewis acids with reasonable strength. STA-12 was shown to have acidic activity for the liquid phase selective oxidations of 1-hexene and cyclohexene, although there is evidence active sites are coordinated by products and/or solvents during the reaction. STA-12 also demonstrates basic activity for the Knoevenagel condensation of ethyl cyanoacetate and benzaldehyde. Modification of STA-12 by adsorption of diamine molecules causes a slight increase in the basicity, and the highest conversions are where water and diamine molecules are both present.

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