Structure and Properties of (C4N2H12)[Pt(NO3)6] Salt

被引:5
作者
Vasilehenko, D. B. [1 ,2 ]
Topchiyan, P. A. [1 ,2 ]
Tkachev, S., V [1 ]
Baidina, I. A. [1 ]
Korolkov, I., V [1 ]
Filatov, E. Yu [1 ,2 ]
Sheven, D. G. [1 ]
机构
[1] Russian Acad Sci, Nikolaev Inst Inorgan Chem, Siberian Branch, Novosibirsk, Russia
[2] Novosibirsk State Univ, Novosibirsk, Russia
基金
俄罗斯科学基金会;
关键词
platinum; nitrato complexes; piperazine; X-ray crystallographic analysis; MAS NMR; PT-195; NMR; CATALYST; STATE; NANOPARTICLES; PLATINUM(IV);
D O I
10.1134/S0022476619080122
中图分类号
O61 [无机化学];
学科分类号
070301 ; 081704 ;
摘要
From a nitrate solution of platinum(IV) hydroxide, (C4N2H12)[Pt(N03)6] salt containing a piperazinium cation is isolated. The salt structure is determined by X-ray crystallography. Crystallographic data are: a=15.589(1)angstrom, b= 12.919(1) angstrom, c = 9.889(9)angstrom, beta = 08.625(4)degrees, space group C2/c, Z=4, rho(=)(calc) 2.306 g/cm(3). In the structure, [Pt(NO3)(6)](2-) anions having a shape of a trigonal antiprism are organized into a 3D network by the formation of hydrogen bonds with organic cations. For a series of salts containing [Pt(NO3)(6)](2-) and [Pt-2(omega-OH)(2)(NO3)(8)](2-) anionic platinum nitrato complexes a relationship between the structure and Pt-195 MAS NMR spectra is shown.
引用
收藏
页码:1327 / 1334
页数:8
相关论文
共 21 条
[1]  
Bruker, 2001, SADABS
[2]   Surface Engineering Protocol To Obtain an Atomically Dispersed Pt/CeO2 Catalyst with High Activity and Stability for CO OxidationD [J].
Chen, Jiayu ;
Wanyan, Yongjin ;
Zeng, Jianxin ;
Fang, Huihuang ;
Li, Zejun ;
Dong, Yongdi ;
Qin, Ruixuan ;
Wu, Changzheng ;
Liu, Deyu ;
Wang, Mingzhi ;
Kuang, Qin ;
Xie, Zhaoxiong ;
Zheng, Lansun .
ACS SUSTAINABLE CHEMISTRY & ENGINEERING, 2018, 6 (11) :14054-14062
[3]   Characterization of PtIV-containing polyoxonietatates by high-resolution solid-state 195Pt and 51V NMR spectroscopy [J].
Dugar, Sneha ;
Izarova, Natalya V. ;
Mal, Sib Sankar ;
Fu, Riqiang ;
Joo, Hea-Chung ;
Lee, Uk ;
Dalal, Naresh S. ;
Pope, Michael T. ;
Jameson, Geoffrey B. ;
Kortz, Ulrich .
NEW JOURNAL OF CHEMISTRY, 2016, 40 (02) :923-927
[4]   Tuning the Pt/CeO2 Interface by in Situ Variation of the Pt Particle Size [J].
Gaenzler, Andreas M. ;
Casapu, Maria ;
Maurer, Florian ;
Stoermer, Heike ;
Gerthsen, Dagmar ;
Ferre, Geraldine ;
Vernaux, Philippe ;
Bornmann, Benjamin ;
Frahm, Ronald ;
Murzin, Vadim ;
Nachtegaal, Maarten ;
Votsmeier, Martin ;
Grunwaldt, Jan-Dierk .
ACS CATALYSIS, 2018, 8 (06) :4800-4811
[5]  
Gatla S, 2018, CATALYSIS TODAY
[6]   Room-Temperature CO Oxidation Catalyst: Low-Temperature Metal-Support Interaction between Platinum Nanoparticles and Nanosized Ceria [J].
Gatla, Suresh ;
Aubert, Daniel ;
Agostini, Giovanni ;
Mathon, Olivier ;
Pascarelli, Sakura ;
Lunkenbein, Thomas ;
Willinger, Marc Georg ;
Kaper, Helena .
ACS CATALYSIS, 2016, 6 (09) :6151-6155
[7]  
Kazuo N., 2009, Infrared and Raman Spectra of Inorganic and Coordination Compounds_ Part A_ Theory and Applications in Inorganic Chemistry, V6
[8]   Modelling one- and two-dimensional solid-state NMR spectra [J].
Massiot, D ;
Fayon, F ;
Capron, M ;
King, I ;
Le Calvé, S ;
Alonso, B ;
Durand, JO ;
Bujoli, B ;
Gan, ZH ;
Hoatson, G .
MAGNETIC RESONANCE IN CHEMISTRY, 2002, 40 (01) :70-76
[9]   Atomically Dispersed Pd, Ni, and Pt Species in Ceria-Based Catalysts: Principal Differences in Stability and Reactivity [J].
Neitzel, Armin ;
Figueroba, Alberto ;
Lykhach, Yaroslava ;
Skala, Tomas ;
Vorokhta, Mykhailo ;
Tsud, Nataliya ;
Mehl, Sascha ;
Sevcikova, Klara ;
Prince, Kevin C. ;
Neyman, Konstantin M. ;
Matolin, Vladimir ;
Libuda, Joerg .
JOURNAL OF PHYSICAL CHEMISTRY C, 2016, 120 (18) :9852-9862
[10]   Activation of surface lattice oxygen in single-atom Pt/Ce02 for low-temperature CO oxidation [J].
Nie, Lei ;
Mei, Donghai ;
Xiong, Haifeng ;
Peng, Bo ;
Ren, Zhibo ;
Hernandez, Xavier Isidro Pereira ;
DeLariva, Andrew ;
Wang, Meng ;
Engelhard, Mark H. ;
Kovarik, Libor ;
Datye, Abhaya K. ;
Wang, Yong .
SCIENCE, 2017, 358 (6369) :1419-+