Y98-61403-12 9907048低维热电学=Low dimensional thermoelectrics[会,英]/Dresselhaus,M.S.//1997 16th International Confer-ence on Thermoelectrics.1—2~20(AG)在适当的实验条件下对低维电子系统提高的热电品质因数和温度(ZT)...Y98-61403-12 9907048低维热电学=Low dimensional thermoelectrics[会,英]/Dresselhaus,M.S.//1997 16th International Confer-ence on Thermoelectrics.1—2~20(AG)在适当的实验条件下对低维电子系统提高的热电品质因数和温度(ZT)进行了理论上的预测。展开更多
Over the past decade, ultrathin lanthanide oxides (Ln2O3, Ln = La to Lu) nanomaterials have been intensively studied in the fields of rare earth materials science. This unique class of nanomaterials has shown many u...Over the past decade, ultrathin lanthanide oxides (Ln2O3, Ln = La to Lu) nanomaterials have been intensively studied in the fields of rare earth materials science. This unique class of nanomaterials has shown many unprecedented properties (big surface area, high surface effect, physical and chemical activities) and is thus being explored for numerous promising applications. In this review, a brief introduction of ultrathin Ln2O3 nanomaterials was given and their unique advantages were highlighted. Then, the typical synthetic methodologies were summarized and compared (thermal decomposition, solvothermal, soft template, co-precipition and microwave etc.). Due to the high surface effect, some promising applications of ultmthin Ln203 nanomaterials, such as drug delivery and catalysis of CO oxidation, were reviewed. Finally, on the basis of current achievements on ultrathin Ln203 nanomaterials, personal perspectives and challenges on future research directions were proposed.展开更多
The formation of protein coronas on nanomaterial will significantly alter the surface properties of nanomaterial in biological systems and subsequently impact biological responses including signaling, cellular uptake,...The formation of protein coronas on nanomaterial will significantly alter the surface properties of nanomaterial in biological systems and subsequently impact biological responses including signaling, cellular uptake, transport, and toxicity etc. It is of critical importance to understand the formation of protein coronas on the surface of nanomaterial. Analytical techniques, especially mass spectrometry-based proteomics methods, are playing a key role for the qualitative and quantitative analyses of protein coronas on nanomaterial. In this review, the proteomic approaches developed for the characterization of protein coronas on various nanomaterials are introduced with the emphasis on the mass spectrometry-based proteomic strategies.展开更多
文摘Y98-61403-12 9907048低维热电学=Low dimensional thermoelectrics[会,英]/Dresselhaus,M.S.//1997 16th International Confer-ence on Thermoelectrics.1—2~20(AG)在适当的实验条件下对低维电子系统提高的热电品质因数和温度(ZT)进行了理论上的预测。
基金supported by the Start-up Funding from Xi’an Jiaotong Universitythe Fundamental Research Funds for the Central Universities (2015qngz12)+1 种基金the National Natural Science Foundation of China (21371140)the China National Funds for Excellent Young Scientists (21522106)
文摘Over the past decade, ultrathin lanthanide oxides (Ln2O3, Ln = La to Lu) nanomaterials have been intensively studied in the fields of rare earth materials science. This unique class of nanomaterials has shown many unprecedented properties (big surface area, high surface effect, physical and chemical activities) and is thus being explored for numerous promising applications. In this review, a brief introduction of ultrathin Ln2O3 nanomaterials was given and their unique advantages were highlighted. Then, the typical synthetic methodologies were summarized and compared (thermal decomposition, solvothermal, soft template, co-precipition and microwave etc.). Due to the high surface effect, some promising applications of ultmthin Ln203 nanomaterials, such as drug delivery and catalysis of CO oxidation, were reviewed. Finally, on the basis of current achievements on ultrathin Ln203 nanomaterials, personal perspectives and challenges on future research directions were proposed.
基金supported by the National Natural Science Foundation of China(21175134,21375125)the Creative Research Group Project of National Natural Science Foundation of China(21321064)
文摘The formation of protein coronas on nanomaterial will significantly alter the surface properties of nanomaterial in biological systems and subsequently impact biological responses including signaling, cellular uptake, transport, and toxicity etc. It is of critical importance to understand the formation of protein coronas on the surface of nanomaterial. Analytical techniques, especially mass spectrometry-based proteomics methods, are playing a key role for the qualitative and quantitative analyses of protein coronas on nanomaterial. In this review, the proteomic approaches developed for the characterization of protein coronas on various nanomaterials are introduced with the emphasis on the mass spectrometry-based proteomic strategies.
