Author
Nina K. Gusarova
Other affiliations: Academy of Medical Sciences, United Kingdom, D. Mendeleev University of Chemical Technology of Russia, Irkutsk State University
Bio: Nina K. Gusarova is an academic researcher from Russian Academy of Sciences. The author has contributed to research in topics: Phosphine & Yield (chemistry). The author has an hindex of 21, co-authored 455 publications receiving 2733 citations. Previous affiliations of Nina K. Gusarova include Academy of Medical Sciences, United Kingdom & D. Mendeleev University of Chemical Technology of Russia.
Topics: Phosphine, Yield (chemistry), Phosphorus, Alkyl, Nucleophilic addition
Papers published on a yearly basis
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Journal Article•
92 citations
TL;DR: In this article, the elemental phosphorus/strong bases systems are gaining a growing attention as halogen-free "green" phosphorylating reagents enabling a great variety of alkenes, acetylenes, organic halides and oxiranes to be converted in one-pot procedures to inaccessible primary, secondary and tertiary phosphines and phosphine oxides.
85 citations
TL;DR: In this paper, a number of secondary phosphines [RCH(R′)CH 2 ] 2 PH (R = aryl or hetaryl, R′ = H or Me) have been obtained in good yields by introducing phosphine at normal pressure into a mixture of the alkenes R(R')CCH 2, potassium hydroxide and dimethylsulfoxide.
85 citations
TL;DR: In this paper, the S-S bond vibrations in IR and Raman spectra of elemental sulfur and organosulfur compounds containing disulfide and polysulfide moieties were analyzed.
74 citations
TL;DR: In this paper, the use of general halogen-free methodology for the synthesis of phos- phines, phosphine chalcogenides, and phosphinic acids from elemental phosphorus and alkenes and alkynes in the superbase suspensions is described.
Abstract: The use of novel general halogen-free methodology for the synthesis of phos- phines, phosphine chalcogenides, and phosphinic acids from elemental phosphorus and alkenes and alkynes in the superbase suspensions is described.
71 citations
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28,685 citations
01 Jan 2007
TL;DR: The Third edition of the Kirk-Othmer encyclopedia of chemical technology as mentioned in this paper was published in 1989, with the title "Kirk's Encyclopedia of Chemical Technology: Chemical Technology".
Abstract: 介绍了Kirk—Othmer Encyclopedia of Chemical Technology(化工技术百科全书)(第五版)电子图书网络版数据库,并对该数据库使用方法和检索途径作出了说明,且结合实例简单地介绍了该数据库的检索方法。
2,666 citations
TL;DR: While the book is a standard fixture in most chemical and physical laboratories, including those in medical centers, it is not as frequently seen in the laboratories of physician's offices (those either in solo or group practice), and I believe that the Handbook can be useful in those laboratories.
Abstract: There is a special reason for reviewing this book at this time: it is the 50th edition of a compendium that is known and used frequently in most chemical and physical laboratories in many parts of the world. Surely, a publication that has been published for 56 years, withstanding the vagaries of science in this century, must have had something to offer. There is another reason: while the book is a standard fixture in most chemical and physical laboratories, including those in medical centers, it is not as frequently seen in the laboratories of physician's offices (those either in solo or group practice). I believe that the Handbook can be useful in those laboratories. One of the reasons, among others, is that the various basic items of information it offers may be helpful in new tests, either physical or chemical, which are continuously being published. The basic information may relate
2,493 citations
1,398 citations
TL;DR: In this article, the authors summarized thirty years' research efforts in the field of organic compounds for rechargeable lithium batteries and compared the cell performances of these materials, providing a comprehensive overview of the area, and straightforwardly revealing the advantages/disadvantages of each class of materials.
Abstract: Organic compounds offer new possibilities for high energy/power density, cost-effective, environmentally friendly, and functional rechargeable lithium batteries. For a long time, they have not constituted an important class of electrode materials, partly because of the large success and rapid development of inorganic intercalation compounds. In recent years, however, exciting progress has been made, bringing organic electrodes to the attention of the energy storage community. Herein thirty years' research efforts in the field of organic compounds for rechargeable lithium batteries are summarized. The working principles, development history, and design strategies of these materials, including organosulfur compounds, organic free radical compounds, organic carbonyl compounds, conducting polymers, non-conjugated redox polymers, and layered organic compounds are presented. The cell performances of these materials are compared, providing a comprehensive overview of the area, and straightforwardly revealing the advantages/disadvantages of each class of materials.
1,096 citations