納米材料Nanomaterials的課程你們可以輔導(dǎo)嗎?我找不到輔導(dǎo)老師
同學(xué)你好,我們可以輔導(dǎo)納米材料Nanomaterials課業(yè),同學(xué)是需要輔導(dǎo)課程還是作業(yè)呢?我們的課時是可以通用的,我們均可以輔導(dǎo)。
納米材料由微結(jié)構(gòu)特征(晶粒、疇、相、沉淀物等)組成。)尺寸范圍從1-100納米。在這種規(guī)模下,許多材料表現(xiàn)出不同于其大尺寸類似物的特性。通過控制尺寸來調(diào)整材料性質(zhì)的能力使納米材料在廣泛領(lǐng)域得到應(yīng)用,包括光學(xué)、磁性器件、催化、微電子、制藥以及能量轉(zhuǎn)換和存儲技術(shù)。德克薩斯大學(xué)奧斯汀分校在納米材料以及基于納米材料的器件的合成、表征、性能測量和性能評估方面擁有豐富的專業(yè)知識。
Nanomaterials consist of microstructural features (grains, domains, phases, precipitates, etc.) that range in size from 1 – 100 nm. At this scale, many materials exhibit properties that differ from their bulk-sized analogues. The ability to tune the properties of materials by controlling size allows nanomaterials to have applications in a broad range of fields including optics, magnetic devices, catalysis, microelectronics, pharmaceutics, and energy conversion and storage technologies. The University of Texas at Austin has strong expertise in the synthesis, characterization, property measurements, and performance evaluation of nanomaterials as well as devices based on nanomaterials.
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