国际学术会议口头报告经典

国际学术会议发言稿
尊敬的各位嘉宾、专家、学者们：
大家好！很荣幸能在此次国际学术会议上发言。

我是来自XX
大学的XXX，今天我将就XXX主题进行分享。

首先，我想探讨的是XXX。

XXX是一个备受关注的议题，它
涉及到XXX。

通过XXX实现的XXX可以带来很多好处，如XXX。

然而，XXX也存在一些挑战，如XXX。

为了克服这些挑战，我们需要采取一系列的措施，例如XXX。

通过这些努力，我们有望实现XXX的长期可持续发展。

其次，我想讨论的是XXX。

在过去的几十年里，XXX取得了
巨大的进展，并成功应用于多个领域，例如XXX。

然而，
XXX仍然面临一些难题，例如XXX。

为了解决这些问题，我
们需要集中精力在XXX上，并积极寻求解决方案，如XXX。

此外，我还将介绍XXX。

XXX是一个新兴的研究领域，它涉
及到XXX。

通过XXX的研究，我们可以更好地理解XXX，
揭示XXX之间的关系，并为XXX提供新的解决方案。

然而，XXX领域尚处于初级阶段，还有很多工作需要进行，如XXX。

通过共同努力，我们相信XXX的研究将为人类带来更多的好处。

总结起来，我在本次发言中主要介绍了XXX。

通过XXX，我
们可以XXX，然而要面对的挑战同样不容忽视。

在未来的研
究中，我们应积极寻求解决方案，在XXX领域中做出更多的
创新和贡献。

谢谢大家！。

ei会议口头报告开场白尊敬的各位专家、学者、来宾们：大家好！我很荣幸能够在这个重要的EI会议上发表口头报告。

我是XXX，今天我将为大家介绍关于XXX的研究成果。

我想先简单说明一下我报告的结构。

本报告将分为三个部分：背景介绍、研究方法和结果讨论。

在背景介绍部分，我将简要介绍研究领域的背景和意义。

在研究方法部分，我将详细阐述我们采用的实验设计、数据收集和分析方法。

最后，在结果讨论部分，我将呈现我们的研究结果，并进行深入讨论和解释。

让我们来看一下XXX的背景和意义。

XXX是一个重要的研究领域，它在XXX方面具有广泛的应用和潜在的价值。

XXX不仅能够解决XXX问题，还可以促进XXX的发展。

然而，目前对于XXX的研究还存在一些挑战和问题，如XXX。

因此，我们的研究旨在解决这些问题，推动XXX的进一步发展。

接下来，我们将详细介绍我们的研究方法。

首先，我们采用了XXX 实验设计，通过XXX的数据收集和处理，得到了一系列关于XXX 的定量和定性数据。

然后，我们运用统计分析方法对数据进行了系统的分析，得出了一些有关XXX的重要结论。

同时，我们还进行了XXX的控制实验，以验证我们的研究结果的可靠性和稳定性。

在结果讨论部分，我们将呈现我们的研究结果，并进行深入的讨论和解释。

我们的研究结果表明XXX对于XXX具有显著的影响。

同时，我们还发现了一些新的现象和规律，这对于XXX的理解和应用具有重要的意义。

此外，我们还对我们的研究结果进行了比较和分析，与已有的研究成果进行了对比，并提出了一些建议和展望，以期进一步推动XXX的研究和应用。

我想再次感谢各位专家、学者和来宾们的光临和聆听。

我非常期待与各位进行深入的讨论和交流，共同探讨XXX的未来发展方向。

谢谢大家！以上就是我今天的口头报告的开场白，希望能够给大家带来一些启发和思考。

谢谢大家！。

国际学术会议发言稿尊敬的主席，尊敬的各位嘉宾，亲爱的女士们和先生们：首先，我想通过这个国际学术会议的平台，向大家表示最热烈的欢迎和诚挚的敬意。

感谢主办方为我们提供了一个交流思想、分享研究成果的机会，让我们有机会聚集在这里，共同探索学术领域的最新发展。

当今世界正面临着剧变的挑战和机遇，在这个全球化的时代，学术交流的意义愈发重要。

国际学术会议为跨越边界的学者们提供了一个平台，我们可以在这里分享经验、交换观点，形成新的想法，并最终为全球社会发展做出贡献。

过去的几十年里，我们见证了科技的迅速发展和日新月异的创新。

然而，这个世界依然存在着很多共同的问题，例如环境危机、贫富差距、教育不平等等。

在这些重要议题上，我们需要广泛的讨论和深入的研究才能找到切实可行的解决方案。

本次会议聚集了各个领域的学者，而这些学者们正是推动社会进步的关键力量。

他们通过各自的研究和实践，不断拓宽我们对于世界的认识，为我们提供了新的视角和思考方式。

正是因为这个原因，我们应该重视国际学术会议的意义。

仅仅局限于我们自己的研究范围中，我们难以看到全球科学、技术和人文领域的全貌。

只有通过学术交流，我们才能突破学科的界限，跨越国境的壁垒，从而合作解决我们所面临的共同挑战。

此外，会议还提供了一个学者们互相了解和建立联系的机会。

这些合作和联系将有助于开展更广泛的研究项目，推动学术领域的进一步发展。

通过相互合作，我们可以借鉴不同国家、不同学科的经验，提升自身的研究水平，进一步推动学术的繁荣。

最后，我想再次感谢主办方以及所有参与此次国际学术会议的嘉宾们。

在接下来的几天里，我希望我们能够充分利用这个机会，展示自己的研究成果，倾听他人的见解，加强学术交流，促进世界各地学者的合作。

希望此次国际学术会议顺利进行，能够为学术界带来新的启发和灵感。

感谢大家的聆听。

谢谢！。

本文部分内容来自网络整理，本司不为其真实性负责，如有异议或侵权请及时联系，本司将立即删除！== 本文为word格式，下载后可方便编辑和修改！ ==国际会议报告开场白篇一：国际会议口头报告ppt演讲内容准备模板The Draft of Academic Presentation国际会议的口头报告模板，每页ppt你需要讲什么东西需要分页详细写，尽量口语化，如下是本人参加比利时会议的模板，供大家参考。

P1开场白：I am so honored to be with you to communicate academic questions and ideas.The tile of my academic presentation is “The preparation and catalytic performance of porous silica nanotube functioned with heteroatoms”I shall only take ten minutes of your time.I will talk about the topic on the preparation of porous materials.P2First of all, i wanna introduce myself. I come from nanjing university of technology, nanjing city, china.P3The content is listed as follows.P4All our researches are conducted by the academic thoughts. Generally speaking, we are committed to porous materials. In order to explore high-performance functionalized materials for Pilot experiments and scale-up production; we tune the structure, such as composition and morphology step by step and optimize them further. What’s more, thepossible synthesis mechanisms are also investigated. Today, the presentation is based on the right-hand branch.P5It is known that mesoporous silica have excellent characters as the catalyst carrier, such as……..But due to lack of active sites, we have to introduce organic or inorganic species as active sites. And the catalytic performance need to be further improved.P6As we know, the three factors including activity, scale and diffusion factor play decisive role in the catalysis, affecting the yield, selectivity, stability strongly. In our presentation, we mainly focus on the influence of scale factor on the catalysis.P7Due to lack of active sites for mesoporous silica, two main methods (surface loading, modified framework) are widely reported, by which various organic or inorganic active sites can be immobilized on the surface or incorporated into the framework of mesopoous silica.P8Though various morphologies of mesoporos silica were widely synthesized, the synthesis of the mesoporos silica, with three simultaneous characteristics including doped metal, mesoporous structure and specific morphology, is always a challenge, which is rarely reported.In other words, for our case exploring a proper condition, at which the silicon and metal sources can simultaneously hydrolyze, can ensure a desired material.P9Next, let’s look at the synthetic steps. Firstly,…. Then, …. After that, …. At last, we obtained theproducts.P10In this work, by changing the synthesis conditions, such as …, andso on, the pure mesoporous silica with different morphologies were synthesized, including nanosphere, nanorod, helix, capsule and nanotube. We will focus on the preparation and catalytic applicationof mesoporous silica with nanotube morphology.P11the SEM images of samples: A1, A2, A3 are shown in the figure. It can be seen that sample a1 is nanowire-like with length of about 2μm and diameter of about 100nm. When the amount of ... is 0.04 g, the morphology of sample A2 became to be short and thick rods and thesize is about 1μm in length and 400nm in diameter, respectively.With further increasing the amount of ..., the sample A3 and A4turned to be spherical morphology. It also can be seen that the diameters of samples A3 and A4 are substantial(来自: : 国际会议报告开场白 )ly the same about 450nm. However, the spherical morphology ofA4 is more regular than that of A3.The XRD patterns showed four reflection peaks attributed to (100), (110), (200) and (210), respectively, due to the hexagonal sructure.P12Then, we keep the same amount of ..., increasing the amount of ....We found that the length increased gradually. The XRD patterns also showed the hexagonal sructure of samples B1, B2, B3, B4.P13Moreover, an additional proof of the hexagonal symmetry structure is given by TEM and the FT pattern. The N2 adsorption-desorption isotherms of the samples B1, B2, B3, B4 exhibit a typical type-IV isotherm.According to the table of structural parameters, we can find that the specific surface area and total pore volume increase gradually, the thickness of wall decrease and there is no obvious change in diameter.P14Furthermore, the possible synthesis mechanism of the mesoporoussilica nanotube in dual templates system was proposed. We suggestthat due to electrostatic repulsion between positively charged。

(虽然短短5页，这可是本主一个多月的工作结晶，往对大家有帮助，别忘了给赞)P1Greeting: Thanks for introduction. Hello everyone. Wellcome to my talk. Thank the organisers for giving me this opportunity.Self-introduction: My name is [your name] a phd student at group of Prof. [your advisor] who is sitting there. We come from [your University], China. As you know, nanjing is a city with a long history which locates in the south-east of China. Subject: Today, I’m going to talk about our recent work about [your title].P2Outline: My presentation is divided into four parts: Background; Morphology control; Catalysis & Drug-delivery; Summary.P3（Introduction of the background）In the past, numerous researches have been done focusing on micro- and macro-scale. But, there is a central issue, how the understanding at the micro-scale can enable predictions of functional behavior at the macro-scale. Then, a new awareness, also an open concept ‘mesoscale science’ has recently emerged to link the micro- to the macroscale.It is clear that porous materials have great potential due to their various composition, structure and morphology.（My theme）In this talk, we focus on controllable synthesis of morphology and use it as mesoscale to obtain the quantification and optimization of the relevant processes. P4（Catalysis VS your materials）As for heterogeneous catalysis, it is widely known that macroscopic parameters such as the yield, selectivity, products and rate of chemical reactions are related to the nano-structure of catalyst including morphology, size, pore and composition. Because nano-structure can produce various effects on chemical process such as….P5（Drug-delivery VS your materials）And when it comes to drug delivery, the morphology and size of porous materials are two main subjects.(you can refer to some references to support your idea)Prof. Mou found that rod-like particles have many 优势（pointing）compared to sphere morphology.Prof. Tang studied mesoporous silica nanoparticles with aspect ratio from 1 to 5 as drug-carrier. She found that the AR of MSNs affect greatly these aspects. vivobiodistribution, clearance, and biocompatibility and so on.In addition, she proposed that particles with a larger AR generally affect cells to a larger degree compared to MSNs with a smaller AR. Therefore, given this result, it is necessary to expand the shape effect studies to a wide range.P6Periodic mesoporous materials have been widely studied in many fields, such as catalysis, sensor, drug-delivery and separation. Because they have Large Surface Area, Adjustable Pore Size, High Thermal Stability and Flexible Framework. Especially, the Flexible Framework make the controllable synthesis of morphology possible.P7(emphasize the importance of your work)Thus, we use mesoporous silica as Good Carrier Or Support. Next, we try to obtain the controllable synthesis of morphology and size. After that, we can introduce a variety of organic or inorganic modification. Finally, the functioned mesoporous materials with controllable morphology and size can paly as a good meso-scale to expect the quantification and optimization of the relevant processes between micro-scale and macro-scale. However, compared to the synthesis of mesoporous silica, the two parts are more difficult, which not only need a flexible method, but also need fine control of synthesis conditions. Therefore, it is still a challenge for researchers.P8(introduction of synthesis process)Next, we are going to introduce our work about morphology control.B riefly,in the synthesis process, we use two surfactants. we put …and …into concentrated …. Until the solution became transparent,… were added into the solution, we add silicon source and heteroatom source under certain conditions.Afther the following treatments: Hydrothermal treatment, centrifugation, dryness and calcination. Finally, we get the product.Obviously, this process is simple, and the two-surfactants are cheap and easy-obtained. So, it has great potential for scale-up production.P9(my aims of my work)In order to get full control of length, diameter, and pore size of nanotube, we try to change synthesis conditions … and so on. However, in this dual-surfactant system, we found the morphology was affected greatly….P10(introduction of my detailed work)First of all, we test the effects of the amount of ... on morphology. We increase the amount of ... and keep ... constant. The SEM images from a to g show with the increasing of ..., the morphology starts by long particles, then, changes into short ones. The corresponding sizes are listed. Moreover, TEM image of A2 demonstrate twodimension hexagonal structure and the highly ordered honeycomb-like structure.P11In addition, we use XRD and N2 physisorption to get information of mesostructure. From XRD and pore size distribution patterns. we can see that with the increasing of ..., there are two sections in the patterns. From A0 to A2, the 100 peaks shift to lower angel, meanwhile, the corresponding pore size become big. And from A3 to A7, the 100 peaks move to high angel, however, the pore size are almost the same with A0. And, although the peaks of A6 and A7 become broad and weak, all samples give similar nitrogen sorption amount and TEM pattern of A7 show the channels remain intact which indicates that the mesopores are remained despite of the increasing amount of .... And, the broad peaks of A6 and A7 may attribute to the dereasing size of particles.P12Next, we study the effects of amount of ... on the morphology of materials. We keep the amount of ... constant, and decrease the amount of .... As shown here, We can see that the changing trend of morphology is the same with the effect of incerasing amount of .... TEM pattern of B1 synthesized with low amount of ... shows collapsed channels. P13In this slide, I will talk about the possible reason. As shown here, we can also found with the decrease of ..., the peaks become weak and broad. And, at the same time the Nitrogen sorption amounts decrease. Taken together, we conclude that the the decreasing amount of ... may no be benificial for producing good channel.P14Taking into consideration the effects of molar ratio of ... to ..., we propose that in the binary surfactants system the role of ... is as template to form mesopore structure, while ... as regulator to control the morphology.We think that at low amount of ..., ... and ... form coupled micelles. While at high amont of ..., separated micelles occur.The morphology transformation was refered to a ….P15-P16[on the basis of your work, you should propose a proper mechanism to rationalize your results ]In the present study,…. There exist two kinds of interactions ..between the positively charged … and …, and … between …. It is clear that .. can accelerate the condensation of silicate anion. On the contrary, …hinder this process. Thus, there exists a competitive relationship between E and H. And the competition between the two kinds of interactions are responsible for the competition between the Gibbs free energy of the mesophase formation (ΔG) and the surface free energy (F). At low amount of …, ΔG is dominant. The long nanotube will be formed. When we increase the amount of ..., the proportion of the hydrogen bonds increased. As a result, the morphology with bigcurvature will be formed in order to minimize the surface energy.And in this case the mesostructure is determined by …of ….In this case, we refered to a work of Hiroaki Imai. First of all, the assembly between …occur, while the …attach on the … the particles. In this case, the … come from the template …. while the wall thikness of pores was determined by the balance bwtween H and E. So, the morphology transformation happened from long to short nanotube, and finally sphere morphology.P17P18In addition, we found that the inner pore size of materials could also be regulated by using quaternary ammonium cationic changing surfactant with different length of carbon chain (TTAB: C14, OTAB: C18), but under optimum conditions. As shown here, the obtained C14 and C18 samples show nanotube-like morphology and narrow pore size. The most probable pore sizes of C14 and C18 are 2.17 and 3.25 nm, respectively. P19Moreover, we also found that the morphology and size of materials can be regulated by systematical changing of experimental conditions, such as .../..., ammonia concentration, amount of ..., stirring and temperature, we also obtain nanotubes with different size and morphology. For example, we obtain sample S1 by changing ammonia concentration and temperature.P20In a short summary, by using this dual-surfactant system, we are able to produce honeycomb-like silica nanotube with controllable morpholgy at three-dimension, with with length changing from 100nm to 5μm; diameter from 50 to 600nm; pore size from 2.17 to 3.15 nm. The AR of materials are found in the range of 1 to 100. Therefore, we offered a flexible and effective strtegy for the controllable synthesis of honeycomb-like silica nanotube.P20Next part, we test the application of materials as catalyst support. For this purpose,. We prepared copper-modified nanotube reactor .P21As shown here, we obtained different nanoreactors with similar outer diameter and increasing length. When they are used to catalyze direct hydroxylation of benzene. An interesting result was obtained that the catalytic activities increase with the length of nanotube reactor.P22Moreover, we also analyze the mesostructure by XRD and N2 physisorption and testthe copper content and state by ICP and UV. From the UV pattern, we can see that the copper states of copper in three samples are similar.P23And the catalytic results and mesostructure data are all listed in table 1.Moreover, the decreasing specific surface generally lead to the decreasing of catalytic performance.We conclude that the increasing catalytic activities may come from the …. To support that, we also prepared iron-containing nanotube reactor with different length. As shown here. When we use iron-doped nanotubes to catalyze phenol hydroxylation. The same conclusion was obtained that the catalytic activities linearly increase with …. This may be due to …. Still there are many factors such as…, a quantitative relationship between … and c… was obtained,P24When we use samples with different length 1μm and 300 nm as drug-carrier, we found that the long sample show increased release amount of DOX and longer duration time. Moreover, the multi-channel are also able to encapsulate two drugs into different pores. Thus, a dual-drug-delivery system can be constructed by using our materials. Now, we are still on this work. [this sentence is very useful, especially when someone asks you question ]P25To summarize.[Finally, we summarize my work in short not complex sentence]We succeed in controllable synthesis of HSNs in a wide range of size or AR.As for mechanism, we think ... is as template to form pore structure, while ... to control the morphology.As for the applications in Catalysis & Drug-delivery,This research may provide a novel approach to modulate the catalysis and drug-delivery performance and promote rational design of catalysts support and bio-carrier.Thank you for your attention!。

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本文部分内容来自网络整理，本司不为其真实性负责，如有异议或侵权请及时联系，本司将立即删除！== 本文为word格式，下载后可方便编辑和修改！ ==国际会议报告开场白篇一：国际会议口头报告ppt演讲内容准备模板The Draft of Academic Presentation国际会议的口头报告模板，每页ppt你需要讲什么东西需要分页详细写，尽量口语化，如下是本人参加比利时会议的模板，供大家参考。

P1开场白：I am so honored to be with you to communicate academic questions and ideas.The tile of my academic presentation is “The preparation and catalytic performance of porous silica nanotube functioned with heteroatoms”I shall only take ten minutes of your time.I will talk about the topic on the preparation of porous materials.P2First of all, i wanna introduce myself. I come from nanjing university of technology, nanjing city, china.P3The content is listed as follows.P4All our researches are conducted by the academic thoughts. Generally speaking, we are committed to porous materials. In order to explore high-performance functionalized materials for Pilot experiments and scale-up production; we tune the structure, such as composition and morphology step by step and optimize them further. What’s more, thepossible synthesis mechanisms are also investigated. Today, the presentation is based on the right-hand branch.P5It is known that mesoporous silica have excellent characters as the catalyst carrier, such as……..But due to lack of active sites, we have to introduce organic or inorganic species as active sites. And the catalytic performance need to be further improved.P6As we know, the three factors including activity, scale and diffusion factor play decisive role in the catalysis, affecting the yield, selectivity, stability strongly. In our presentation, we mainly focus on the influence of scale factor on the catalysis.P7Due to lack of active sites for mesoporous silica, two main methods (surface loading, modified framework) are widely reported, by which various organic or inorganic active sites can be immobilized on the surface or incorporated into the framework of mesopoous silica.P8Though various morphologies of mesoporos silica were widely synthesized, the synthesis of the mesoporos silica, with three simultaneous characteristics including doped metal, mesoporous structure and specific morphology, is always a challenge, which is rarely reported.In other words, for our case exploring a proper condition, at which the silicon and metal sources can simultaneously hydrolyze, can ensure a desired material.P9Next, let’s look at the synthetic steps. Firstly,…. Then, …. After that, …. At last, we obtained theproducts.P10In this work, by changing the synthesis conditions, such as …, andso on, the pure mesoporous silica with different morphologies were synthesized, including nanosphere, nanorod, helix, capsule and nanotube. We will focus on the preparation and catalytic applicationof mesoporous silica with nanotube morphology.P11the SEM images of samples: A1, A2, A3 are shown in the figure. It can be seen that sample a1 is nanowire-like with length of about 2μm and diameter of about 100nm. When the amount of ... is 0.04 g, the morphology of sample A2 became to be short and thick rods and thesize is about 1μm in length and 400nm in diameter, respectively.With further increasing the amount of ..., the sample A3 and A4turned to be spherical morphology. It also can be seen that the diameters of samples A3 and A4 are substantial(来自: : 国际会议报告开场白 )ly the same about 450nm. However, the spherical morphology ofA4 is more regular than that of A3.The XRD patterns showed four reflection peaks attributed to (100), (110), (200) and (210), respectively, due to the hexagonal sructure.P12Then, we keep the same amount of ..., increasing the amount of ....We found that the length increased gradually. The XRD patterns also showed the hexagonal sructure of samples B1, B2, B3, B4.P13Moreover, an additional proof of the hexagonal symmetry structure is given by TEM and the FT pattern. The N2 adsorption-desorption isotherms of the samples B1, B2, B3, B4 exhibit a typical type-IV isotherm.According to the table of structural parameters, we can find that the specific surface area and total pore volume increase gradually, the thickness of wall decrease and there is no obvious change in diameter.P14Furthermore, the possible synthesis mechanism of the mesoporoussilica nanotube in dual templates system was proposed. We suggestthat due to electrostatic repulsion between positively charged。

国际学术会议发言稿尊敬的各位专家、教授和各位来宾：大家好！首先，我要对组织者给我这次难得的机会发表演讲表示感谢。

在这次国际学术会议上，我将分享我的研究成果，并与大家一起探讨相关的领域。

我所要呈现的研究成果是关于人工智能在医疗保健领域的应用。

这是一个备受关注的领域，也是目前全球范围内的研究热点之一。

随着科学技术的不断进步，人工智能在医疗保健领域的应用正在变得越来越广泛。

人工智能技术在医学影像诊断、疾病预测、个性化治疗等方面都具有潜在的价值。

我们团队的研究重点之一是应用深度学习算法在医学影像诊断领域，比如X光片、CT扫描和核磁共振影像。

我们利用大规模医疗影像数据集进行训练，构建深度卷积神经网络模型，以实现对各种疾病的准确诊断。

实验结果表明，我们的模型在多个医疗影像数据集上获得了优异的诊断精度，甚至超过了一些专业医生的诊断水平。

另外，我们也在疾病预测和个性化治疗方面取得了一些成果。

通过分析大规模的医疗数据，我们发现人工智能技术可以帮助医生更准确地预测疾病的发生和发展趋势。

这对于早期治疗和干预具有非常重要的意义。

而且，我们还研发了一些个性化治疗方案，通过分析患者的基因组、生物标志物和临床表现数据，结合人工智能技术，为患者量身定制出更有效的治疗方案。

我们的实验结果显示，这些个性化治疗方案在临床试验中表现出了良好的效果，取得了较为满意的治疗效果。

除了这些，我们还在医疗保健领域的其他方面进行了一些有意义的研究，比如智能医疗助手、健康管理系统、医疗机器人等。

这些研究成果都在不同程度上提高了医疗保健系统的效率和质量，为医生和患者带来了更多的便利和利益。

在这些方面的研究中，我们团队也遇到了一些困难和挑战，比如数据收集和标注的困难、算法性能的提升等。

但是，我们相信随着科学技术的不断进步和医学数据的不断增多，这些问题将会逐渐得到解决。

总的来说，人工智能在医疗保健领域的应用有着广阔的前景和巨大的潜力。

通过我们的研究，我们希望能够为医疗保健领域的发展做出一定的贡献。