Relevant bibliographies by topics / Li dai bao an

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  2. Dissertations / Theses
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  4. Book chapters
  5. Conference papers

Academic literature on the topic 'Li dai bao an'

Author: Grafiati
Published: 4 June 2021
Last updated: 31 July 2024

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Journal articles on the topic "Li dai bao an"

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YANG, LIN, XIANG-SHENG CHEN, and ZI-ZHONG LI. "Review of the bamboo-feeding species of genus Scaphoideus (Hemiptera: Cicadellidae: Deltocephalinae) from China, with description of one new species." Zootaxa 3619, no. 5 (March 4, 2013): 557–68. http://dx.doi.org/10.11646/zootaxa.3619.5.5.

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The bamboo-feeding species of genus Scaphoideus Uhler (Hemiptera: Cicadellidae: Deltocephalinae) from China are re-viewed to include 7 species: S. conicaplateus Li & Dai, 2004 (China: Guizhou), S. fanjingensis Li & Dai, 2004 (China: Guizhou), S. festivus Matsumura, 1902 (China: Guizhou, Yunnan, Sichuan, Shaanxi, Ningxia, Hunan, Beijing, Hebei, Henan, Jiangxi, Fujian, Guangdong, Guangxi, Hainan and Taiwan; India; Sri Lanka; Japan; Korea), S. kumamotonis Mat-sumura, 1914 (China: Guizhou, Yunnan, Tibet, Sichuan, Zhejiang and Henan; Japan), S. nigrigenatus Li, 1990 (China: Guizhou, Sichuan and Hubei), S. nigrivalveus Li & Wang, 2005 (China: Guizhou and Hubei) and S. yaanensis sp. nov. (China: Sichuan). All seven species are re-illustrated and photographed. The new species is described. A key to the bam-boo-feeding species of Scaphoideus is also provided.
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Yung, Faye Dorcas. "Leung, For-Hing. Da Shi Dai li de Xiao Za Zhi: “Xin Er Tong” Ban Yue Kan (1941-1949) Yan Jiu." Bookbird: A Journal of International Children's Literature 53, no. 1 (2015): 97–98. http://dx.doi.org/10.1353/bkb.2015.0019.

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Yangutov, Leonid E., and Marina V. Orbodoeva. "On Early Translations of Buddhist Sutras in China in the Era the Three Kingdoms: 220–280." Herald of an archivist, no. 2 (2019): 331–43. http://dx.doi.org/10.28995/2073-0101-2019-2-331-343.

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The paper discusses the early days of translation in China which began with the translation of Buddhist texts from Sanskrit into Chinese. The article addresses one of the most difficult and dramatic periods in the history of translation activities, the era of Three Kingdoms (220-280). First efforts of the Buddhist missionaries in translating the Buddhist texts from Sanskrit into Chinese are poorly studied in the Russian science. The article aims to fill the gap. This goal sets the following tasks: (1) to analyze the translation activities in the kingdoms of Wei (220–265) and Wu (222–280) during Three Kingdoms period; (2) to show the place and role of the translators of these kingdoms in the development of the translation tradition in China; (3) to consider the quality of the Buddhist texts translations and their contribution to the development of Buddhism in China. The study shows that Buddhist missionaries who came to China from India and the countries of Central Asia during the Three Kingdoms period played an important role in the spreading of Buddhism. Their search for methods and tools to give the sense of Sanskrit texts in Chinese, which experience had had no experience of assimilation before Buddhism, prepared a fertile ground for the emergence in China of such translations of Buddhist literature that were able to convey the exact meaning of Buddhist teachings. The activities of the Three Kingdoms Buddhist texts translators reflected the rise of Indian Mahayana Buddhism and its texts formation. The article draws on bibliographic works of medieval authors: Hui Jiao’s “Gao Sen Zhuan” (“Biography of worthy monks”), Sen Yu’s “Chu San Zang Ji Ji” (“Collection of Translation Information about Tripitaka”), Fei Changfang’s “Li Dai San Bao Ji” (“Information about the three treasuries [during] historical epochs”), which figure prominently in Buddhist historiography. Also the authors draw on the latest Chinese research summarized in the monograph: Lai Yonghai (ed.). “Zhongguo fojiao tongshi” [General History of Chinese Buddhism]. Nanjing, 2006.
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ERMAKOV, D. N. "LEGAL STATUS OF NATIONAL MINORITIES IN THE PEOPLE’S REPUBLIC OF CHINA." Sociopolitical Sciences 14, no. 2 (April 28, 2024): 125–30. http://dx.doi.org/10.33693/2223-0092-2024-14-2-125-130.

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We live in a world of different ethnic groups and peoples. About 3,000 ethnic groups live in more than 200 countries and regions of the modern world. The vast majority of countries are populated by multi-ethnic groups. Since the proclamation of the People’s Republic of China by the central government, about 56 ethnic groups have been identified and verified, namely Han, Mongols, Hui, Tibetans, Uyghurs, Miao, Yi, Zhuang, Buei, Koreans, Manchus, Dong Yao, Bai, Tujia, Hani , Cossack, Dai, Li, Lisu, Wa, She, Gaoshan, Lahu, Shui, Dongxiang, Nasi, Jingpo, Kyrgyz, Tu, Daur, Mulao, Qiang, Blang, Salar, Maonan, Gelao, Shibe, Achang, Pumi, Tajik , Well, Uzbek, Russian, Evenki, Deang, Bonan (also Baoan), Yugur, Jing, Tatarsky, Derung, Oroken, Hezhe, Monpa, Lhoba and Gino. The article, for the first time, comprehensively sets out the foundations of the constitutional law of the People’s Republic of China, highlights the experience of the formation and development of legal regulation of the status of national minorities in the PRC, formed since its formation and developing in connection with the reform of the country and the establishment of a political system “with Chinese characteristics.”
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Xiao, Jingyuan, Alexander Stark, Nur Azuki Yusuff, Julia Tan Yin Yin, and Wei Yu. "AN ETHNOGRAPHIC OBSERVATION ON THE CULTURE OF ETHNIC MINORITIES IN YUNNAN: A COMPREHENSIVE REVIEW." International Journal of Entrepreneurship and Management Practices 7, no. 25 (June 13, 2024): 45–52. http://dx.doi.org/10.35631/ijemp.725005.

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Yunnan Province is located on the southwestern border of China and boasts a rich multicultural heritage. In this land full of mystery and vitality, 25 ethnic minorities, including the Yi, Bai, and Dai, have developed their unique languages, scripts, attire, architecture, music, dance, and customs throughout its extensive history (Huang Qinghuai & Guo Zhongping, 2016). Ethnographic observations of Yunnan's ethnic minorities aim to comprehensively understand and reveal various aspects of their history, geography, cultural essence, and interethnic relationships. Ethnographic observation serves as the foundation and methodology of ethnology, systematically collecting, organizing, and analyzing information regarding the traditional cultures, social organizations, and ways of life of Yunnan's ethnic minorities, providing valuable data for future academic research (Ma Jiaxiang et al., 2010).Ethnographic observation unveils the essence and uniqueness of Yunnan's ethnic minority cultures, promoting understanding and respect for multiculturalism, and fostering cultural exchange and integration among different ethnic groups (Li Mingyi et al., 2018). Ultimately, ethnographic observation is crucial for the preservation and inheritance of Yunnan's ethnic minority cultural heritage, contributing to the protection and dissemination of valuable cultural assets and driving sustainable development of the local economy (Wang Hong, 2020).
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Palanisamy, Krishnaveni, Sven Daboss, Fatemehsadat Rahide, Sonia Dsoke, and Christine Kranz. "In Situ Analytical Techniques: Solid Electrolyte Interface Analysis of Al Anode Materials for Al-Ion Batteries." ECS Meeting Abstracts MA2022-02, no. 1 (October 9, 2022): 97. http://dx.doi.org/10.1149/ma2022-02197mtgabs.

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Rechargeable post Li-ion batteries based on aluminum (Al) are gaining attention due to high abundance of Al, the high theoretical volumetric capacity, and high safety associated with the low flammability [1,2]. In comparison to Li-ion batteries (LiBs), where the solid-electrolyte interphase (SEI) has been studied for decades, little is known on SEI formation in dependence of the used electrolyte for Al electrodes. In this study, we present the electrochemical performance of Al foils with two different thicknesses (0.025 mm and 0.075 mm), which were used as negative electrode in Al-ion batteries in AlCl3/1-ethyl-3-methylimidazolium chloride [EMIm]Cl electrolyte. Atomic force microscopy (AFM) was used to determine changes in the morphology of Al foils during the charge - discharge process to obtain information on the SEI and its microstructural morphology [3]. Spatially-resolved information on the electrochemical activity of interphase layers on cycled Al foils can be obtained via scanning electrochemical microscopy (SECM), which so far has only be studied at LiBs [4]. First results reveal the correlation between the morphological changes of SEI layer during cycling and its electrochemical behavior depending on the Al foil surface properties, which will be presented and discussed in this contribution. Key words: Al foil, AFM, microstructure, SEI layer, SECM. References: Meng-Chang Lin, Ming Gong, Bingan Lu, Yingpeng Wu, Di-Yan Wang, Mingyun Guan, Michael Angell, Changxin Chen, Jiang Yang, Bing-Joe Hwang and Hongjie Dai, Nature, 520, 325–328 (2015). Li, and N.J. Bjerrum, J. Power Sources, 110, 1–10 (2002). Feng Wu, Na Zhu, Ying Bai, Yaning Gao, and Chuan Wu, Green Energy & Environment 3, 71-77, (2018). Bastian Krueger, Luis Balboa, Jan Frederik Dohmann, Martin Winter, Peter Bieker and Gunther Wittstock. ChemElectroChem,7, 3590–3596, (2020). This work contributes to the research performed at CELEST (Center for Electrochemical Energy Storage Ulm-Karlsruhe) and was funded by the German Research Foundation (DFG) under Project ID 390874152 (POLiS Cluster of Excellence).
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Eckert, Martin, Franziska Jach, Maximilian Wassner, and Ulrike Wunderwald. "Insights into the Electrochemical Degradation of Aluminum Dual-Ion Batteries: Influence of Internal Cell Resistance & Applied Current Density." ECS Meeting Abstracts MA2023-02, no. 4 (December 22, 2023): 539. http://dx.doi.org/10.1149/ma2023-024539mtgabs.

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To face the upcoming demand on high-power energy storage systems, e.g, for high-dynamic grid-stabilization , stationary devices as used in photovoltaics, and mobile applications led to invention of various battery technologies like sodium-ion batteries (SIB), zinc-ion batteries (ZIB) and high-power lithium-ion batteries (LIBs). Especially the several lithium-ion battery technologies have in common that currently used raw materials like lithium-salts and heavy metals (Ni, Co, Mn) are becoming increasingly scarce and therefore expensive. Without substitution by less-critical materials the ongoing energy system transformation cannot be successfully achieved. One promising system that gained attention in the last few years is the so-called aluminum graphite dual-ion battery (AGDIB). The active electrodes are made of cheap and abundant materials like graphite as cathode material and an aluminum-foil as anode1. During operation chloroaluminate anions from the electrolyte, which is currently based on ionic liquids like 1-ethyl-3-methylimidazoliumchloride ([EMIm]Cl) and AlCl3 in stoichiometric ratios as well as deep-eutectic solvents based on mixtures of urea and AlCl3, are (de)intercalated in the graphitic host-structure while on the anode metallic aluminum is electrochemically deposited and dissolved see equation (1) and (2), respectively2, 3. The overall mechanism is quite comparable with Li-metal batteries, where metallic Li is reversibly dissolved and deposited. The big advantages of AGDIBs are cheap electrode materials (graphite & aluminum), electrolytes based on urea and an extraordinary high-power cell-chemistry. Recent publications showed charging rates up to 20 A g-1 Graphite equal to 9 kW kg-1 Graphite in laboratory-scaled cells. Also, the lifetime of those batteries seems to be non-competitive, cycles up to half a million were reported with negligible capacity fading or degradation effects.4 To develop scalable and more representative battery cells, we established the AGDIB cell chemistry in a new corrosion-stable pouch bag design. Due to the significant increased electrode surface area and overall capacity, hitherto unknown effects were observed which limited the end of lifetime (EOL) of those batteries to less than 8,000 cycles. Herein, we report on a detailed analysis of the cell failure, including several electrochemical in-situ techniques like galvanostatic intermittent titration techniques (GITT), electrochemical impedance spectroscopy (EIS) and cyclic voltammetry (CV).5 The obtained data will allow a fundamental understanding of the cell operation under low (≤ 1 C-rates) and very high C-rates ≥ 15 C, which is important for establishing a durable AGDIB with high cycling stability. References M.-C. Lin, M. Gong, B. Lu, Y. Wu, D.-Y. Wang, M. Guan, M. Angell, C. Chen, J. Yang, B.-J. Hwang and H. Dai, Nature, 520(7547), 325–328 (2015). M. L. Agiorgousis, Y.-Y. Sun and S. Zhang, ACS Energy Lett., 2(3), 689–693 (2017). M. Angell, G. Zhu, M.‐C. Lin, Y. Rong and H. Dai, Adv. Funct. Mater., 30(4), 1901928 (2020). G. A. Elia, N. A. Kyeremateng, K. Marquardt and R. Hahn, Batteries & Supercaps, 2, 83–90 (2019). M. Safari and C. Delacourt, J. Electrochem. Soc., 158(10), A1123 (2011). Figure 1
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Tikoo, Akshay, Koushik A.K.S, and Praveen Meduri. "Composites of Carbons/Indium Sulfide for Hydrogen Peroxide Production and Water Purification." ECS Meeting Abstracts MA2023-02, no. 47 (December 22, 2023): 2356. http://dx.doi.org/10.1149/ma2023-02472356mtgabs.

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Photocatalysis enables room temperature synthesis of hydrogen peroxide (H2O2) without any byproducts as well as offering advantages such as low cost, and no release of toxic chemicals [1]. Thus, photocatalysis is an appealing approach for the environmentally friendly synthesis of H2O2. Two-dimensional (2D) layered transition metal chalcogenide (TMC) photocatalysts are good at light harvesting due to their high specific surface area and exhibit excellent optoelectronic properties which make them suitable for environmental remediation and energy production [2]. Metal sulfides have a narrower band gap, which improves their light absorption ability in the visible spectrum. However, they often suffer from low quantum yield and high charge recombination rate. Carbonaceous materials have been proven as very effective co-catalysts with semiconductors at increasing their photoactivity and decreasing recombination rate [3]. The present study focusses on indium sulfide (In2S3) and its composites with carbon nano tubes (CNTs) and carbon quantum dots (CQDs) for H2O2 generation via two-electron oxygen reduction reaction. In2S3, In2S3-CNT and In2S3-CQD are synthesized via hydrothermal method. Structural and optical properties characterized using several techniques such as XRD, Raman, UV-Vis-DRS, PL spectra, SEM, TEM etc. show high crystallinity of In2S3 lattice, good dispersion of carbons on In2S3 lattice, improved light absorption and decrease in recombination rate in In2S3 carbon composites. Photoelectric properties are studied using chronoamperometry, EIS, cyclic voltammetry etc. The In2S3 carbon composites show good stability and lower charge transfer resistance and higher active surface area than pure In2S3. The carbon composite materials show a significantly higher performance than the pure In2S3. In2S3-CQD achieves H2O2 production rate of 634 µM h-1, which is ~ 17 times higher than that of pure In2S3. These composites also show good performance for water treatment with In2S3-CQD removing 93% chromium(VI) and 94% rhodamine B (RhB) from contaminated water upon 2h of irradiation. The mechanism of removal of the impurities is also discussed. In2S3-CQD has shown good results owing to their good light absorption, high specific surface area, and CQDs being able to act as electron reservoir. Keywords : Photocatalysis, Hydrogen peroxide photosynthesis, Advanced Oxidation processes, Wastewater Treatment. References [1] M. Melchionna, P. Fornasiero, Updates on the Roadmap for Photocatalysis, ACS Catal. 10 (2020) 5493–5501. https://doi.org/10.1021/acscatal.0c01204. [2] S. Hao, X. Zhao, Q. Cheng, Y. Xing, W. Ma, X. Wang, G. Zhao, X. Xu, A Mini Review of the Preparation and Photocatalytic Properties of Two-Dimensional Materials, Frontiers in Chemistry. 8 (2020). https://www.frontiersin.org/articles/10.3389/fchem.2020.582146 (accessed August 19, 2022). [3] L. Chen, Y. Zhou, W. Tu, Z. Li, C. Bao, H. Dai, T. Yu, J. Liu, Z. Zou, Enhanced photovoltaic performance of a dye-sensitized solar cell using graphene–TiO2 photoanode prepared by a novel in situ simultaneous reduction-hydrolysis technique, Nanoscale. 5 (2013) 3481–3485. https://doi.org/10.1039/C3NR34059G.
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Chu, Pingyi. "Anjing Qu. Zhongguo jin xian dai ke ji jiang li zhi du [Science and Technology Awards in Modern China]. (Zhongguo jin xian dai ke xue ji shu shi yan jiu cong shu.). 329 pp., tables, bibl., index. Jinan: Shandong jiao yu chu ban she [Shandong Education Press], 2005. (Paper.)." Isis 99, no. 2 (June 2008): 444–45. http://dx.doi.org/10.1086/591383.

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Zhang, Qing, and Yuru Wang. "(Digital Presentation) Self-Discharge Study of Carbon-Based Supercapacitors with Tunable Pore Size." ECS Meeting Abstracts MA2023-01, no. 8 (August 28, 2023): 1116. http://dx.doi.org/10.1149/ma2023-0181116mtgabs.

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Electrochemical double-layer capacitors (EDLCs), as a major type of energy storage devices besides rechargeable batteries such as lithium-ion batteries, holds excellent properties such as high power density and ultra-long cycling stability[1-3]; however, its fast self-discharge process has become the major issue that impedes its development and application. Even though research on EDLCs’ self-discharge has demonstrated that the fast self-discharge rate can be tuned even repressed through modifying certain structural properties of electrodes or electrolytes[4-9], to the end of realizing full control over the self-discharge process requires unveiling the fundamental relation between structural parameters (i.e., the pore structure, the surface functionalities, the electrolytic ion size and shape, and etc.) and the self-discharge performance. Carbon, due to its superior chemical stability, high surface area, natural abundance, etc.[4,10], has become one of the main types of electrode materials under extensive research interest for developing advanced EDLCs. Herein, we focus on tuning the pore size, one of the major structural properties of carbon materials relating to its electrochemical performance, to study its effects on self-discharge process and to learn how to construct the optimal pore structure with respect to certain application requirements. In this work, porous carbon materials with designed pore structure are prepared via soft-template method to analyse the self-discharge performance. Through investigating the effects of pore size, as the single variable, on the self-discharge process, as well as on the micro-electrochemical process on the electrode/electrolyte interface, underlying mechanism between pore size and the self-discharge performance has been constructed. These findings should provide guidance on how to locate the optimal pore size for a chosen electrolyte and to realize control over self-discharge, which will serve as solid references for designing the next-generation EDLCs with high performance and controllable self-discharge rates. Reference [1] X. Chen, R. Paul, L. Dai, Natl. Sci. Rev., 2017, 4(3), 453-489. [2] G. Wang, L. Zhang, J. Zhang, Chem. Soc. Rev ., 2012, 41, 797-828. [3] Y. Liu, Y. Shen, L. Sun, J. Li, C. Liu, W. Ren, F. Li, L. Gao, J. Chen, F. Liu, Y. Sun, N. Tang, H. Cheng, Y. Du, Nat. Commun., 2016, 7, 10921. [4] Q. Zhang, C. Cai, J.W. Qin, B.Q. Wei, Nano Energy., 2014, 4, 14-22. [5] T. Tevi, H. Yaghoubi, J. Wang, A. Takshi, J. Power Sources., 2013, 241, 589-596. [6] L. Chen, H. Bai, Z. Huang, L. Li, Energy Environ. Sci., 2014, 7, 1750-1759. [7] G. Shul, D. Bélanger, Phys. Chem. Chem. Phys., 2016, 18, 19137-19145. [8] M. Xia, J. Nie, Z. Zhang, X. Lu, Z.L. Wang, Nano Energy., 2018, 47, 43-50. [9] J. Menzel, E. Frackowiak, K. Fic, Electrochimica Acta, 2020, 332, 135435. [10] D.P. Dubal, O. Ayyad, V. Ruiz, P. Gomez-Romero, Chem. Soc. Rev., 2015, 44, 1777–1790. Figure 1
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Dissertations / Theses on the topic "Li dai bao an"

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Chang, Jincang. "Zhou dai li su yan jiu." Haerbin Shi : Heilongjiang ren min chu ban she, 2005.

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Zhang, Xiuqin. "Makesi yi shi xing tai li lun de dang dai chan shi." Beijing : Zhongguo she hui ke xue chu ban she, 2005.

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Sun, Xiulin. "Dang dai Zhongguo de cun zhuang zhi li yu ji xiao fen xi /." View abstract or full-text, 2007. http://library.ust.hk/cgi/db/thesis.pl?SOSC%202007%20SUN.

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Yang, Guang. ""Ju jian" de shi jie : lun dang dai Hua yi li san xie zuo /." View abstract or full-text, 2008. http://library.ust.hk/cgi/db/thesis.pl?HUMA%202008%20YANG.

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Shum, Kai-shing. "A study of harsh officials (Ku Li) and the legal system in Han China = Han Dai ku li yu fa zhi yan jiu /." Hong Kong : University of Hong Kong, 1999. http://sunzi.lib.hku.hk/hkuto/record.jsp?B24736004.

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Chang, Lui. "The separable words in modern Chinese language Xian dai Han yu li he ci yan jiu /." Click to view the E-thesis via HKUTO, 2007. http://sunzi.lib.hku.hk/hkuto/record/B37737922.

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Tse, Dorothy Hiu Hung. "Xun mu : 90 nian dai da lu jia shi xiao shuo yan jiu /." View abstract or full-text, 2004. http://library.ust.hk/cgi/db/thesis.pl?HUMA%202004%20TSE.

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Thesis (M.Phil.)--Hong Kong University of Science and Technology, 2004.
Includes bibliographical references (leaves 153-166). Also available in electronic version. Access restricted to campus users.
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Tang, Jun. "Zhe fu yu mian yan dang dai Hua bei cun luo jia zu de sheng chang li cheng /." Beijing : Zhongguo she hui ke xue chu ban she, 2001.

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Sun, Jinjing, and 孫今涇. "Neo-Confucians on the differentiation between living people and ghosts = Song dai li xue jia ren gui zhi bian." Thesis, The University of Hong Kong (Pokfulam, Hong Kong), 2013. http://hdl.handle.net/10722/206661.

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This dissertation studies the discussions on ghosts by the Neo-Confucians of the Song Dynasty, in particular Zhu Xi and Chen Chun. According to these thinkers, Gui (the ghost) refers to the deceased and represents the fading away of Qi (materials), and it is also part of the ancestor worship. Based on the typically Neo-Confucian interpretation of Li (principles) and Qi (materials), this dissertation demonstrates how Zhu and Chen explicated the idea of “Li persist on even though Qi fade away” by an articulation of their understanding of the ghost. The thesis consists of five chapters. The introduction summarizes previous works concerning Neo-Confucians’ discussion on Gui. It also briefly explains why the idea of Li and Qi is significant to the distinction between living people and ghosts as seen by Neo-Confucian thinkers. The definition of “Neo-Confucians” is briefly explained at the beginning of the introduction. Chapter one presents how Neo-Confucians apply the Qi theory to Gui, and their idea of an appropriate worship as intimately related to Qi, yet with its rationality lying with Li of human relations. Chapter two analyzes the Neo-Confucian idea of li gui (haunting ghosts) which is differentiated from the ghost in the ancestry worship system. For Neo-Confucians, li gui fail to understand the appropriate relation between Qi and Li and try to reject the fading away of Qi after death. In Chapter three, it is examined that Zhu Xi and Chen Chun’s opinion that living people play a role in the ghosts’ haunting because of their lack of knowledge of either Qi or Li, and suggest that they become the human form of “haunting ghosts” because of such a failure in understanding. In conclusion, the thesis suggests that the right way to live out the true potentiality of human beings is to accept the limitation of Qi but try to grasp the eternal Li through the observation of the movements of Qi.
published_or_final_version
Chinese
Master
Master of Philosophy
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Ng, Suk-ling. "A study of Lidai Chenjian of the Xuande Emperor, 1399-1435 Ming Xuanzong "Li dai chen jian" zhi yan jiu /." Click to view the E-thesis via HKUTO, 1989. http://sunzi.lib.hku.hk/hkuto/record/B31949599.

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Books on the topic "Li dai bao an"

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1917-, Wada Hisanori, Okinawa Kenritsu Toshokan. Shiryō Henshūshitsu., and Okinawa-ken Bunka Shinkōkai. Kōbunshokan Kanribu. Shiryō Henshūshitsu., eds. Li dai bao an: Kōteibon. Naha-shi: Okinawa-ken Kyōiku Iinkai, 1992.

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Quanxin, Huang, ed. Li dai di wang mo bao. Beijing: Zhong yang min zu da xue chu ban she, 1998.

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xiang, Tang yun, and Liu jing sheng. Bao xian dai li li lun yu shi wu. Bei jing: Zhong guo she hui ke xue chu ban she, 2000.

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Zhang, Chunlei. "Li dai san bao ji" jiao zhu. Zhengzhou Shi: Henan ren min chu ban she, 2013.

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jia, Ma ming. Bao xian dai li ji chu zhi shi. Bei jing: Zhong guo shang ye chu ban she, 1998.

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Cai, Dongzhao. Li dai Dalai Lama fa xiang bao dian. Taibei Shi: An'amo chu ban she, 1997.

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Sihua, Li, ed. Wen ming shi dai de bao li fan si. Xianggang: Fa zhu chu ban she, 2009.

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Sihua, Li, ed. Wen ming shi dai de bao li fan si. Xianggang: Fa zhu chu ban she, 2009.

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Huang, Biji. Fei Changfang "Li dai san bao ji" yan jiu. Taibei Xian Yonghe Shi: Hua Mulan wen hua chu ban she, 2009.

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Chen, Shifei. Wan Qing "Shen bao" li de Muzong shi dai: WangQing Shenbao li de Muzong shidai. Beijing: Ren min ri bao chu ban she, 2021.

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Book chapters on the topic "Li dai bao an"

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Bauer, Wolfgang, and Wolfgang Kubin. "Li Xingdao: Bao daizhi zhi zuan huilan ji zaju." In Kindlers Literatur Lexikon (KLL), 1–2. Stuttgart: J.B. Metzler, 2020. http://dx.doi.org/10.1007/978-3-476-05728-0_15019-1.

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Wu, Lizhou, and Jianting Zhou. "Background." In Rainfall Infiltration in Unsaturated Soil Slope Failure, 1–14. Singapore: Springer Nature Singapore, 2023. http://dx.doi.org/10.1007/978-981-19-9737-2_1.

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AbstractHeavy rainfall in extreme climates often causes natural disasters such as floods, landslides, and debris flows. Rainfall-induced slope instabilities are major geological natural disasters (Glade in Environ Geol 35:160–174, 1998; Dai et al. in Eng Geol 51:279–290, 1999; Iverson in Water Resour Res 36:1897–1910, 2000; Lee and Pradhan in Landslides 4:33–41, 2007; Li et al. in Landslides 13:1109–1123, 2016a; Li et al. in Ecol Eng 91:477–486, 2016b; Wu et al. in Hydro-mechanical analysis of rainfall-induced landslides. Springer, 2020) that can result in considerable loss of life and damage to infrastructure. Extreme events such as storms, which are becoming more severe because of climate change, can trigger fatal landslides.
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Wakeman, Frederic. "Images of Dai Li." In SpymasterDai Li and the Chinese Secret Service, 1–11. University of California Press, 2003. http://dx.doi.org/10.1525/california/9780520234079.003.0001.

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"98 Bao-chai Tells Bao-yu That Dai-yu Is Dead; Bao-yu Improves After Mourning for Dai-yu." In A Companion to The Story of the Stone, 205–6. Columbia University Press, 2021. http://dx.doi.org/10.7312/alpe20002-101.

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"1. Images of Dai Li." In Spymaster, 1–11. University of California Press, 2003. http://dx.doi.org/10.1525/9780520928763-006.

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Wakeman, Frederic. "Dai Li’s Wartime Smuggling Networks." In SpymasterDai Li and the Chinese Secret Service, 320–29. University of California Press, 2003. http://dx.doi.org/10.1525/california/9780520234079.003.0023.

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"97 Bao-yu Is Tricked Into Marrying Bao-chai; Dai-yu Burns Her Poems and Dies." In A Companion to The Story of the Stone, 201–4. Columbia University Press, 2021. http://dx.doi.org/10.7312/alpe20002-100.

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"36 Aroma Receives an Informal Promotion; Bao-chai Hears Bao-yu Reveal He Prefers Dai-yu." In A Companion to The Story of the Stone, 77–78. Columbia University Press, 2021. http://dx.doi.org/10.7312/alpe20002-039.

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"6. A Different Democracy: South Vietnam’s Referendum to Depose Bao Dai." In Cauldron of Resistance, 146–72. Ithaca, NY: Cornell University Press, 2017. http://dx.doi.org/10.7591/9780801467417-009.

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Wakeman, Frederic. "Dai Li, Milton Miles, and the Foundation of SACO." In SpymasterDai Li and the Chinese Secret Service, 285–93. University of California Press, 2003. http://dx.doi.org/10.1525/california/9780520234079.003.0020.

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Conference papers on the topic "Li dai bao an"

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Gang, Bao. "Mathematical Modeling of Diffractive Gratings." In Diffractive Optics and Micro-Optics. Washington, D.C.: Optica Publishing Group, 1998. http://dx.doi.org/10.1364/domo.1998.dma.2.

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Since 1990, the electromagnetic theory of gratings has received considerable attention from the applied mathematics community. Several approaches and numerical methods have been developed, including integral methods Dobson and Friedman [9], analytical continuation method Bruno and Reitich [7], and variational methods Dobson [8], Abboud [1], and Bao [3]. Significant results on existence, uniqueness, and convergence of solutions of the Maxwell have been obtained. We refer to Bao, Dobson, and Cox [5] for a survey of recent mathematical and computational results. A good introduction to the problem of electromagnetic diffraction through periodic structures can be found in Petit [12]. See also Gaylord and Moharam [10], Li [11], … for other approaches, particularly along the line of differential methods.
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Amamoto, Ippei, Hidekazu Kobayashi, Takuma Yokozawa, Teruo Yamashita, Takayuki Nagai, Naoto Kitamura, Hiromichi Takebe, Naoki Mitamura, and Tatsuya Tsuzuki. "Behaviour of IPG Waste Forms Bearing BaSO4 as the Dominant Sludge Constituent Generated From the Treatment of Water Used for Cooling the Stricken Power Reactors." In ASME 2013 15th International Conference on Environmental Remediation and Radioactive Waste Management. American Society of Mechanical Engineers, 2013. http://dx.doi.org/10.1115/icem2013-96107.

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The great amount of water used for cooling the stricken power reactors at Fukushima Dai-ichi following the earthquake and tsunami of 11 March 2011 has resulted in accumulation of cooling water so-called the remaining water in some buildings. As the cooling water is subsequently contaminated by fission products (FPs) and some other radioactive substances, it is necessary to decontaminate this ‘cooling water’ to reduce the volume of liquid radioactive waste and to reuse it again for cooling the affected reactors. Some methods are applied to remove the radioactive substances from the cooling water. However, after treatments of water, there arises a secondary radioactive waste, the sludge. Steps are now taken to immobilize this sludge. In this paper, BaSO4, as one of main constituents of the sludge, was chosen as an immobilizing target substance. The appropriate manufacturing condition of glass waste form for loading the sludge (BaSO4) was studied and the chemical durability was evaluated by measuring the dissolution rate. For this experiment, the iron phosphate glass (IPG), which is known to possess a large loading capacity for a variety of chemical substances, was employed as the glass medium. Based on experimental results, it is evident that BaSO4 can be loaded into the IPG medium when it possesses the appropriate composition and melting temperature. During loading, BaSO4 converted into BaO, acting as a network modifier, which leads to enhanced stability of IPG.
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Bošnjak, Ranko. "MILOJEVIĆEV ASAK U TROJADI." In Nacionalna konferencija sa međunarodnim učešćem Ispisana i iscrtana istorija Miloša S. Milojevića. Udruženje Miloš Milojević, 2023. http://dx.doi.org/10.46793/81364-27-7.103b.

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U radu pod naslovom Milojevićevi Ksanti i Homerov Ksant, posebno priređenom za četvrti naučni skup posvećen Milošu Milojeviću, na temu Doprinos Miloša S. Milojevića istorijskoj nauci, pokazali smo kako se u njegovom bogatom naučnom opusu, čak i posle toliko godina, mogu pronaći činjenice koje mogu dati značajan doprinos novim saznanjima. Tim pre što se radi upravo o temama kojima se sam Milojević nije bavio, kao što je homersko pitanje u najširem mogućem smislu ili Trojanski rat. U ovom radu ćemo se ponegde i pozvati na po- menuti rad, ali samo na onim mestima gde su za oba rada korišćene iste činjenice, dok je u svakom drugom pogledu ovaj rad sasvim odvojen i bavi se isključivo pojmom istorijske Troje kao i neizbežnim Trojanskim ratom. Podsećamo da smo u prethodnom radu već definisali Homerovu i mitološku Troju kao odvojene entitete, iako smo obe pronašli na istoj geografskoj lokaciji i to na mestu današnjeg Feresa u dolini Marice. Upravo ta činjenica i jeste bila inicijalna kapisla za istraživanje koje je rezultovalo ovim radom, premda osnovna ideja autora, u početku, nije bila da ide dalje od Homera i Ilijade. Međutim, kako je istraživanje za- snovano na ovom epu dalo pomalo neočekivan i nadasve zanimljiv rezultat, prirodno je bilo nastaviti baš u ovom pravcu. Tako od tri Troje, defi- nisane u prethodnom radu, preostaje još samo jedna i to ona istorijska. Šta se o njoj može pronaći i da li možemo išta zaključiti o mestu ili oblasti gde se mogla nalaziti pokazaćemo u ovom radu, uz neizostavnu Milojevićevu pomoć. Držeći se upravo trojanske teme dopunićemo, onako usput, Milojevićevu kartu srpskih zemalja, prvenstveno u juž- nom delu Trakije. Tako ćemo dodati pomalo na Milojevićevu ispisanu i iscrtanu istoriju, a nastavljajući njegove radove odužićemo mu se na najbolji mogući način za svekoliki doprinos rodu i otečestvu!
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Xiaozhi Wang and Neil Pegg, ISSC 2022 Editors. "Proceedings of the 21st International Ship and Offshore Structures Congress VOLUME 3 Discussions." In 21st International Ship and Offshore Structures Congress Volume 3 Discussions. SNAME, 2022. http://dx.doi.org/10.5957/issc-2022-discussion-vol-3.

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Committee I.1: Environment Alexander Babanin (Chair); Mariana Bernardino; Franz von Bock und Polach; Ricardo Campos,; Jun Ding; Sanne van Essen; Tomaso Gaggero; Maryam Haroutunian; Vanessa Katsardi; Alexander Nilva; Arttu Polojarvi; Erik Vanem; Jungyong Wang; Huidong Zhang; Tingyao Zhu Floor Discussers: Florian Sprenger; Carlos Guedes Soares; Henk den Besten Committee I.2: Loads Ole Andreas Hermundstad (Chair); Shuhong Chai; Guillaume de Hauteclocque; Sheng Dong; Chih-Chung Fang; Thomas B. Johannessen; Celso Morooka; Masayoshi Oka; Jasna Prpić-Oršić; Alessandro Sacchet; Mahmud Sazidy; Bahadir Ugurlu; Roberto Vettor; Peter Wellens Official Discusser: Hayden Marcollo Committee II-1: Quasi-Static Response James Underwood (Chair); Erick Alley; Jerolim Andrić Dario Boote; Zhen Gao; Ad Van Hoeve; Jasmin Jelovica; Yasumi Kawamura; Yooil Kim; Jian Hu Liu; Sime Malenica; Heikki Remes; Asokendu Samanta; Krzysztof Woloszyk; Deqing Yang Official Discusser: Prof. T. Yoshikwa Committee II.2: Dynamic Response Gaute Storhaug (Chair); Daniele Dessi; Sharad Dhavalikar; Ingo Drummen; Michael Holtmann; Young-Cheol Huh; Lorenzo Moro; Andre Paiva; Svein Sævik; Rong-Juin Shyu; Shan Wang; Sue Wang; WenWei Wu; Yasuhira Yamada; Guiyong Zhang Floor Discussers: Ling Zhu; Tomoki Takami; Anriette (Annie) Bekker; Bruce Quinton; Robert Sielski Committee III.1: Ultimate Strength Paul E. Hess (Chair); Chen An; Lars Brubak; Xiao Chen; Jinn Tong Chiu; Jurek Czujko; Ionel Darie; Guoqing Feng; Marco Gaiotti; Beom Seon Jang; Adnan Kefal; Sukron Makmun; Jonas Ringsberg; Jani Romanoff; Saad Saad-Eldeen; Ingrid Schipperen; Kristjan Tabri; Yikun Wang; Daisuke Yanagihara Official Discusser: Jørgen Amdahl Committee III.2: Fatigue and Fracture Yordan Garbatov (Chair); Sigmund K Ås; Henk Den Besten; Philipp Haselbach; Adrian Kahl; Dale Karr; Myung Hyun Kim; Junjie Liu; Marcelo Igor Lourenço de Souza; Wengang Mao; Eeva Mikkola; Naoki Osawa; Fredhi Agung Prasetyo; Mauro Sicchiero; Suhas Vhanmane; Marta Vicente del Amo; Jingxia Yue Official Discusser Weicheng Cui Floor Discussers: Robert Sielski; Sören Ehlers; Stephane Paboeuf; Teresa Magoga Committee IV.1: Design Principles and Criteria Matthew Collette (Chair); Piero Caridis; Petar Georgiev; Torfinn Hørte; Han Koo Jeong; Rafet emek Kurt; Igor Ilnytskiy; Tetsuo Okada; Charles Randall; Zbigniew Sekulski; Matteo Sidari; Zhihu Zhan; Ling Zhu Official Discusser: Enrico Rizzuto Committee IV.2: Design Methods Andrea Ivaldi (Chair); Abbas Bayatfar; Jean-David Caprace; Gennadiy Egorov; Svein Erling Heggelund; Shinichi Hirakawa; Jung Min Kwon; Dan Mcgreer; Pero Prebeg; Robert Sielski; Mark Slagmolen; Adam Sobey; Wenyong Tang; Jiameng Wu Official Discusser: Mario Dogliani Committee V.1: Accidental Limit States Bruce Quinton; Gaetano De Luca; Topan Firmandha; Mihkel Körgesaar; Hervé Le Sourne; Ken Nahshon; Gabriele Notaro; Kourosh Parsa; Smiljko Rudan; Katsuyuki Suzuki; Osiris Valdez Banda; CareyWalters; Deyu Wang; Zhaolong Yu Official Discusser: Manolis Samuelides Committee V.2: Experimental Methods Sören Ehlers (Chair); Nagi Abdussamie; Kim Branner; ShiXiao Fu; Martijn Hoogeland; Kari Kolari; Paul Lara; Constantine Michailides; Hideaki Murayama; Cesare Rizzo; Jung Kwan Seo; Patrick Kaeding Official Discusser: Giles Thomas Committee V.3: Materials and Fabrication Technology Lennart Josefson (Chair); Konstantinos Anyfantis; Bianca de Carvalho Pinheiro; Bai-Qiao Chen; Pingsha Dong; Nicole Ferrari; Koji Gotoh; James Huang; Matthias Krause; Kun Liu; Stephane Paboeuf; Stephen van Duin; Fang Wang; Albert Zamarin Official Discusser: Frank Roland Floor Discussers Alessandro Caleo; Agnes Marie Horn; Krzysztof Woloszyk; Robert Sielski Committee V.4: Offshore Renewable Energy Atanasios Kolios (Chair); Kyong-Hwan Kim; Chen Hsing Cheng; Elif Oguz; Pablo Morato; Freeman Ralph; Chuang Fang; Chunyan Ji; Marc Le Boulluec; Thomas Choisnet; Luca Greco; Tomoaki Utsunomiya; Kourosh Rezanejad; Charles Rawson; Jose Miguel Rodrigues Official Discusser: Amy Robertson Committee V.5: Special Vessels Darren Truelock (Chair); Jason Lavroff; Dustin Pearson; Zbigniew (Jan) Czaban; Hanbing Luo; Fuhua Wang; Ivan Catipovic; Ermina Begovic; Yukichi Takaoka; Claudia Loureiro; Chang Yong Song; Esther Garcia; Alexander Egorov; Jean-Baptiste Souppez; Pradeep Sensharma; Rachel Nicholls-Lee Official Discusser: Jaye Falls Floor Discussers: Jasmin Jelovica; Stephane Paboeuf; Sören Ehlers Committee V.6: Ocean Space Utilization Sebastian Schreier (Chair); Felice Arena; Harry Bingham; Nuno Fonseca; Zhiqiang Hu; Debabrata Karmakar; Ekaterina Kim; Hui Li; Pengfei Liu; Motohiko Murai; Spiro J Pahos; Chao Tian; George Wang Official Discusser: Hideyuki Suzuki Floor Discussers: Robert Sielski; Sue Wang; Sarat Mohapatra; Gaute Storhaug; Henk den Besten Committee V.7: Structural Longevity Iraklis Lazakis (Chair); Bernt Leira; Nianzhong Chen; Geovana Drumond; Chi-Fang Lee; Paul Jurisic; Bin Liu; Alysson Mondoro; Pooria Pahlavan; Xinghua Shi; Ha Cheol Song; Tadashi Sugimura; Christian Jochum; Tommaso Coppola Official Discusser: Timo de Beer Floor Discusser: Krzysztof Woloszyk Committee V.8: Subsea Technology Agnes Marie Horn (Chair); Tauhid Rahman; Ilson Pasqualino; Menglan Duan; Zhuang Kang; Michael Rye Andersen; Yoshihiro Konno; Chunsik Shim; Angelo Teixeira; Selda Oterkus; Blair Thornton; Brajendra Mishra Official Discusser: Segen F. Estefen
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