Synthesis of carbon encapsulated nanocrystals of WP by reacting W(CO)6</sub> with triphenylphosphine at elevated temperature under autogenic pressure

P. P. George; V. G. Pol; A. Gedanken

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Synthesis of carbon encapsulated nanocrystals of WP by reacting W(CO)6 with triphenylphosphine at elevated temperature under autogenic pressure

机译：W（CO）6 与三苯基膦在自生压力下于高温下反应合成WP的碳包覆纳米晶体

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The thermal decomposition of a reaction mixture containing W(CO)6 and PPh3 yielded carbon encapsulated nanocrystals of tungsten monophosphide (WP). This reaction was carried out using the RAPET technique (reaction under autogenic pressure at elevated temperature) at 850°C under inert (N2) atmosphere. Carbon nanostructures of ～100–300 nm encapsulated several 30 nm WP nanocrystallites, as evidenced by HRTEM (high resolution transmission electron microscopy). The reaction mechanism for the formation of WP encapsulated in carbon nanostructures is suggested on the basis of morphological, structural, and surface characterization data.

机译：含有W（CO）6 和PPh3 的反应混合物的热分解产生了碳包裹的单磷化钨（WP）纳米晶体。该反应在惰性（N 2）气氛下在850℃下使用RAPET技术（在高温下在自生压力下反应）进行。 HRTEM（高分辨率透射电子显微镜）证明，约100-300 nm的碳纳米结构包裹了30 nm WP纳米晶体。根据形态，结构和表面表征数据，提出了形成封装在碳纳米结构中的WP的反应机理。

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来源
《Journal of Nanoparticle Research》 |2007年第6期|1187-1193|共7页
作者
P. P. George; V. G. Pol; A. Gedanken;
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作者单位

Department of Chemistry and Kanbar Laboratory for Nanomaterials Bar-Ilan University Center for Advanced Materials and Nanotechnology Bar-Ilan University Ramat-Gan 52900 Israel;

Department of Chemistry and Kanbar Laboratory for Nanomaterials Bar-Ilan University Center for Advanced Materials and Nanotechnology Bar-Ilan University Ramat-Gan 52900 Israel;

Department of Chemistry and Kanbar Laboratory for Nanomaterials Bar-Ilan University Center for Advanced Materials and Nanotechnology Bar-Ilan University Ramat-Gan 52900 Israel;

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正文语种 eng
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关键词
carbon spherules; carbon nanostructures; WP nanocrystals; RAPET technique; nanoengineering;

机译：碳球;碳纳米结构;WP纳米晶体;RAPET技术;纳米工程;

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专利

1. Synthesis of carbon encapsulated nanocrystals of WP by reacting W(CO)(6) with triphenylphosphine at elevated temperature under autogenic pressure [J] . George PP, Pol VG, Gedanken A Journal of nanoparticle research: An interdisciplinary forum for nanoscale science and technology . 2007,第6期

机译：W（CO）（6）与三苯基膦在自生压力下于高温下反应合成碳的碳包裹纳米粉
2. Synthesis of stable spherical platinum diphosphide, PtP_2/carbon nanocomposite by reacting Pt(PPh_3)_4 at elevated temperature under autogenic pressure [J] . P.P. George, A. Gedanken, A. Gabashvili Materials Research Bulletin . 2007,第4期

机译：Pt（PPh_3）_4在自生压力下于高温下反应，合成稳定的球形二硫化铂，PtP_2 /碳纳米复合材料
3. RAPET (Reaction under Autogenic Pressure at Elevated Temperatures) Technique Assisted Synthesis of Encapsulated CdE@C [E= S, Se and Te] Nanocrystallites [J] . P. P. George, I. Genish, Shirly ben-david Maklouf, International journal of nanoscience . 2017,第3期

机译：Rapet（升高温度下的自成压力下的反应）技术辅助合成包封CDE @ C [E = S，SE和TE]纳米晶体
4. TiO2 Hollow Spheres obtained under Autogenic Pressure at Elevated Temperature [C] . Kexun Li, Hongliang Li, Junhua Zhao, International conference on multi-functional materials and structures . 2009

机译：高温自生压力下获得的TiO2空心球
5. Measurements of Laminar Burning Speeds of Mixtures of Propane and Carbon Dioxide at Elevated Temperatures and Pressures [D] . Aljohani, Khalid. 2018

机译：丙烷和二氧化碳混合物层状燃烧速度在升高温度和压力下测量
6. Synthesis and characterization of Nb2O5@C core-shell nanorods and Nb2O5nanorods by reacting Nb(OEt)5via RAPET (reaction under autogenic pressure at elevated temperatures) technique [O] . PP George, VG Pol, A Gedanken 2007

机译：Nb（OEt）5的RAPET反应（在高温下自生压力下反应）技术合成Nb2O5 @ C核壳纳米棒和Nb2O5纳米棒
7. Synthesis and characterization of NbO@C core-shell nanorods and NbOnanorods by reacting Nb(OEt)via RAPET (reaction under autogenic pressure at elevated temperatures) technique [O] . 2006

机译：Nb（OEt）通过RAPET反应（在高温下自生压力下反应）技术合成和表征NbO @ C核壳纳米棒和NbOnanorods
8. CALORIMETRIC DETERMINATION OF CONSTANT-PRESSURE SPECIFIC HEATS OF CARBON DIOXIDE AT ELEVATED PRESSURES AND TEMPERATURES [R] . Virgil E. Schrock 1952

机译：高压测定高压下二氧化碳常压热的温度和温度

Synthesis of carbon encapsulated nanocrystals of WP by reacting W(CO)6 with triphenylphosphine at elevated temperature under autogenic pressure

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