—In this study, a virtual laboratory for synthesizing and analyzing nanogold particles is developed by using the virtual reality technology and situated learning theory. The users can conduct a virtual experiment to become familiar with the process of synthesizing nanogold and understand that nanogold particles in different sizes can be produced by mixing chloroauric acid (HAuCl4) with sodium citrate (Na3C6H5O7) in different concentrations. A further analysis can be performed by observing the 3D structure of nanogold using the virtual transmission electron microscope to investigate its property within the nanoscale spatial domain. The virtual laboratory developed in this study has been applied in university chemistry courses and the learning objective is to increase students’ knowledge in nanotechnology through the operation of virtual experiments. A teaching experiment has been conducted to investigate whether the virtual experiment can enhance their learning achievements, and the results show that it is more effective than a real experiment. Questionnaire results also reveal that most students held positive attitudes towards the virtual laboratory, and they thought it could enhance their interest and motivation in learning nanotechnology.
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机译:- 本研究中,通过使用虚拟现实技术和位于学习理论,开发了一种用于合成和分析纳米玻璃颗粒的虚拟实验室。用户可以进行虚拟实验,以熟悉合成纳米变化的过程,并理解不同尺寸的纳米变颗粒可以通过将氯硼酸(HauCl4)与柠檬酸钠(Na 3 C 3 H 5 O 7)混合在不同浓度中来制备。可以通过使用虚拟透射电子显微镜观察纳米盘的3D结构来研究进一步的分析,以研究纳米级空间域内的其性能。本研究开发的虚拟实验室已应用于大学化学课程,学习目标是通过虚拟实验的运作来提高学生在纳米技术中的知识。已经进行了教学实验,以调查虚拟实验是否可以提高他们的学习成果,结果表明它比真实实验更有效。问卷结果也表明,大多数学生对虚拟实验室持积极态度,他们认为它可以提高学习纳米技术的兴趣和动力。
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