Bibliographies thématiques / An kang jiu chang

Littérature scientifique sur le sujet « An kang jiu chang »

Auteur : Grafiati
Publié le 25 juillet 2024

Créez une référence correcte selon les styles APA, MLA, Chicago, Harvard et plusieurs autres

Choisissez une source :

Sommaire

Consultez les listes thématiques d’articles de revues, de livres, de thèses, de rapports de conférences et d’autres sources académiques sur le sujet « An kang jiu chang ».

À côté de chaque source dans la liste de références il y a un bouton « Ajouter à la bibliographie ». Cliquez sur ce bouton, et nous générerons automatiquement la référence bibliographique pour la source choisie selon votre style de citation préféré : APA, MLA, Harvard, Vancouver, Chicago, etc.

Vous pouvez aussi télécharger le texte intégral de la publication scolaire au format pdf et consulter son résumé en ligne lorsque ces informations sont inclues dans les métadonnées.

Articles de revues sur le sujet "An kang jiu chang"

1

Woo, Soo Kyun. « Effect of Lifetime Cognitive Reserve on Functional Connectivity in the Default Mode Network at the Predementia Stage ». Korean Association for Geriatric Psychiatry 25, no 2 (30 octobre 2021) : 128–38. http://dx.doi.org/10.47825/jkgp.2021.25.2.128.

Texte intégral
Styles APA, Harvard, Vancouver, ISO, etc.
2

Pawar, Amol Uttam, Ignasia Handipta Mahardika et Young Soo Kang. « (Invited) Solar CO2 Conversion into Liquid Fuels By Photoelectrochemical Approaches ». ECS Meeting Abstracts MA2022-01, no 36 (7 juillet 2022) : 1566. http://dx.doi.org/10.1149/ma2022-01361566mtgabs.

Texte intégral
Résumé :
Photoelectrochemical (PEC) system for the reduction of CO2 into liquid fuels of formaldehyde/acetaldehyde, methanol and ethanol with trace amount of hydrogen gas bubbling have been described in the aspect of thermodynamics and kinetics of the CO2 reduction reaction to have efficient method by lowering activation energy of CO2 reduction on the electron transfer reaction and to do reduction potential tuning of CO2 reduction reaction for the selective reduction products. Ca/Fe doped TiO2 photoanode oxidizes water and generates the large amount of O2, electrons and protons. On the other side, rGO(reduced graphene oxide)/PVP(poly(4-vinyl)pyridine)/Nafion multi-layers have been coated and fabricated on the surface of Cu foil cathode to reduce CO2 into formaldehyde and acetaldehyde. When solar light was irradiated on the surface of photoanode, electrons get excited to the conduction band of Ca/Fe doped TiO2 and transported to the cathode via external wire with low external bias potential. rGO on Cu foil has been used for the dual functions of reduction potential tuning and multi-electron shuttling process of CO2 reduction reaction. The multi-electron shuttling function was illuminated by larger number and longer life-time of excited electrons and generating electron cloud, which have been confirmed by time-resolved photoluminescence (TR-PL) decay curves and 2D time-resolved photoluminescence (TR-PL) mapping images of Cu/rGO electrode. This allows the sequential multi-electron transport process from Cu/rGOcathode to CO2, which was studied with time-resolved chronoamperometry. N-heterocyclic poly(4-vinyl)pyridine (PVP) helps to capture and do chemical activation of reactant CO2 molecule by complexation as [PVP-CO2*] complex via charge separation and lowering transition state energy level of the electron transfer for the formation of anion radical of carbon dioxide complex with PVP as [e- + PVP-CO2*]≠ complex via electron delocalization, which is basically possible due to high basicity of lone pair electrons of nitrogen atoms of N-heterocyclic PVP compounds. These functions result in the lowered activation energy for the CO2 reduction reaction to have faster kinetics. The decreased amount of activation energy was determined with Tafel plots by measuring the slopes of it and semicircles of the electrochemical impedance spectroscopy (EIS) Nyquist plots at different temperatures. Nafion film coated on the surface of cathode assists the faster transport of H+ ions to CO2 reduction reaction sites for the simultaneous one-pot reaction of proton coupled electron transfer reactions. In the photocataytic system with semi-conducting polymers, CO2 was conversed into liquid solar fuels like formaldehyde and alcohols with solar to fuel efficiency over 2.5% to produce liquid fuel products over mM concentration for 4 hour reaction. Chang Woo Kim, So Jin Yeob, Hui-Ming Cheng, Young Soo Kang*, Selectively Exposed Crystal Facet-Engineered TiO2 Thin Film Photoanode for the Higher Performance of Photoelectrochemical Water Splitting Reaction, Energy and Environmental Sciences. 2015, 8, 3646. Amol U.Pawar, Chang WooKim, Myung Jong Kang, Young Soo Kang*, Crystal facet engineering of ZnO photoanode for the higher water splitting efficiency with proton transferable nafion film, Nano Energy 2015, 20, 156. Chang Woo Kim, Young Seok Son, Myung Jong Kang, Do Yoon Kim, Young Soo Kang*, (040)-Crystal Facet Engineering of BiVO4 Plate Photoanode for Solar Fuel Production, Energy Mater., 2016, 6, 1501754. Jin You Zheng, Amol Uttam Pawar, Chang Woo Kim, Yong Joo Kim, Young Soo Kang*, Highly enhancing photoelectrochemical performance of facilely-fabricated Bi-induced (002)-oriented WO3 film with intermittent short-time negative polarization, Applied Catalysis B 2018, 233, 88. Chang Woo Kim, Myung Jong Kang, Sohyun Ji, and Young Soo Kang*, Artificial Photosynthesis for Formaldehyde Production with 85% of Faradaic Efficiency by Tuning the Reduction Potential, ACS Catalysis 2018, 82, 968-974. Myung Jong Kang, Chang Woo Kim, Amol U. Pawar, Hyun Gil Cha, Sohyun Ji, Wen-Bin Cai, and Young Soo Kang*, Selective Alcohol on Dark Cathode by Photoelectrochemical CO2 Valorization and Their in-situ Characterization, minor revision, ACS Energy Lett. 2019, 4, 1549. Hong Ryeol Park, Amol Uttam Pawar, Umapada Pal, Tierui Zhang, Young Soo Kang, Enhanced solar photoreduction of CO2 to liquid fuel over rGO grafted NiO-CeO2 heterostructure nanocomposite, Nano Energy, 2021, 79, 105483. Amol U. Pawar, Umapada Pal, Jin You Zheng, Chang Woo Kim and Young Soo Kang*, Dynamics controlled CO2 reduction on Cu/rGO/PVP/Nafion multi-layered cathode for selective production of Acetaldehyde and Formaldehyde, Applied Catalysis B: Environmental, 2022, 303, 120921.
Styles APA, Harvard, Vancouver, ISO, etc.
3

Kang, Daeun, Chang Ryul Park, Minhyeok Lee, Su Yel Lee, Se Jin Park, Wan Jin Hwang, Gwan Woo Ku et al. « Abstract 817 : microRNA-26a-5p is a prognostic factor that regulates cancer stemness ». Cancer Research 82, no 12_Supplement (15 juin 2022) : 817. http://dx.doi.org/10.1158/1538-7445.am2022-817.

Texte intégral
Résumé :
Abstract Background: Cancer stem cells (CSCs) identified in lung cancer exhibit resistance to chemotherapy, radiotherapy, and targeted therapy. Therefore, a technology to control of CSCs is needed to overcome such resistance to cancer therapy. Various evidences about the association between epithelial-mesenchymal transition related transcriptomic alteration and acquisition of CSC phenotype have been proposed recently. In our previous research, down-regulated miR-26a-5p is closely related to mesenchymal-like lung cancer cell lines. These findings suggest that miR-26a-5p might be involved in lung cancer stemness. Methods: RNA polymerase III subunit G (POLR3G) was selected as a candidate target of miR-26a-5p related to cancer stemness. its quantitative relationship was investigated by polymerase chain reaction, western blot after transfection of miR-26a-5p. luciferase assay were done for investigating the direct regulation of miR-26a-5p on POLR3G expression. After transfection of miR-26a-5p, colony formation assay and sphere formation assay were performed to evaluate the effect on cancer stemness. By treating cancer cell by miR-26a-5p and paclitaxel, cell viability was checked by 3-(4,5-dimethylthiazol-2-yl)-5-(3-carboxymethoxyphenyl)-2-(4-sulfophenyl)-2H-tetrazolium (MTS) assay and Muse cell analyzer. Expression level of each gene and its impact on survival were revealed by the cancer genome atlas pancancer database. Results: miR-26a-5p regulated the expression of POLR3G directly. Overexpression of miR-26a-5p induced down regulation of POLR3G and a marked reduction of colony formation and sphere formation. Co-treatment of miR-26a-5p with paclitaxel decreased cell growth, suggesting that miR-26a-5p might play a role as a chemotherapy sensitizer. In the cancer genome atlas data, down-regulated miR-26a-5p and up-regulated POLR3G were shown compared to adjacent normal tissue. High miR-26a-5p and low POLR3G expression were also related to higher survival rate of patients with lung adenocarcinoma. Conclusions: Overexpression of miR-26a-5p can suppress lung cancer stemness and make cancer cell become sensitive to chemotherapy. This finding provides a novel insight into a potential lung cancer treatment by regulating stemness. Citation Format: Daeun Kang, Chang Ryul Park, Minhyeok Lee, Su Yel Lee, Se Jin Park, Wan Jin Hwang, Gwan Woo Ku, Seong Lan Yu, In Beom Jeong, Sun Jung Kwon, Jaeku Kang, Eung Bae Lee, Ji Woong Son. microRNA-26a-5p is a prognostic factor that regulates cancer stemness [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2022; 2022 Apr 8-13. Philadelphia (PA): AACR; Cancer Res 2022;82(12_Suppl):Abstract nr 817.
Styles APA, Harvard, Vancouver, ISO, etc.
4

Wang, Yuehan, et Skylar Gao. « Interview with Prof. Chang Hyun Kang ». ASVIDE 5 (décembre 2018) : 896. http://dx.doi.org/10.21037/asvide.2018.896.

Texte intégral
Styles APA, Harvard, Vancouver, ISO, etc.
5

Yeo, Chang Dong, Hye Seon Kang, In Kyoung Kim, Sang Haak Lee et Jin Woo Kim. « Abstract 6757 : Identification of predictive factors for early relapse in patients with unresectable stage III NSCLC receiving consolidation durvalumab after concurrent chemoradiation ». Cancer Research 83, no 7_Supplement (4 avril 2023) : 6757. http://dx.doi.org/10.1158/1538-7445.am2023-6757.

Texte intégral
Résumé :
Abstract Background: Patients with locally advanced, unresectable, non-small cell lung cancer (NSCLC) receiving definitive concurrent chemoradiation (CCRT) benefit from durvalumab consolidation therapy. However, predictive factors for early relapse during durvalumab maintenance were not identified. Patients and Methods: The present study used the lung cancer cohort of the Catholic Medical Centers at the Catholic University of Korea from 2018 to 2021. In all, 51 NSCLC patients that were treated with durvalumab consolidation therapy after definitive CCRT. Early relapse was considered if it occurred within 6 months of starting initial durvalumab therapy. Results: During study period, 15 (29.4%) relapsed among 51 included patients. Median time from initial therapy of durvalumab to progression was 107.73 ± 47.69 days in early relapse group. In mutivariate analysis, younger age (HR 0.713, 95% CI 0.572-0.888, P=0.003), higher pack years (HR 1.311, 95% CI 1.109-1.549, P=0.001), non-COPD (HR 0.030, 95% CI 0.001-0.677, P=0.027), anemia (HR 23.30, 95% CI 2.030-267.48, P=0.011) and stage IIIC (vs. stage IIIA) (HR 17.890, 95% CI 1.997-160.243, P=0.010) were independent predictive factors for early relapse during durvalumab consolidation therapy. Conclusion: Younger age, higher pack years, non-COPD, anemia and stage IIIC were independent predictive factors for early relapse during durvalumab consolidation therapy in patients with unresectable stage III NSCLC after definitive CCRT. Careful patient selection and clinical attention are needed for high-risk individuals. Citation Format: Chang Dong Yeo, Hye Seon Kang, In Kyoung Kim, Sang Haak Lee, Jin Woo Kim. Identification of predictive factors for early relapse in patients with unresectable stage III NSCLC receiving consolidation durvalumab after concurrent chemoradiation. [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2023; Part 1 (Regular and Invited Abstracts); 2023 Apr 14-19; Orlando, FL. Philadelphia (PA): AACR; Cancer Res 2023;83(7_Suppl):Abstract nr 6757.
Styles APA, Harvard, Vancouver, ISO, etc.
6

Xu, Changsheng, et Shaokung Lin. « Contributions of Chang Pei-kang to development economics ». Journal of Asian Economics 14, no 2 (avril 2003) : 189–200. http://dx.doi.org/10.1016/s1049-0078(03)00020-4.

Texte intégral
Styles APA, Harvard, Vancouver, ISO, etc.
7

Sangren, P. Steven. « History and the Rhetoric of Legitimacy : The Ma Tsu Cult of Taiwan ». Comparative Studies in Society and History 30, no 4 (octobre 1988) : 674–97. http://dx.doi.org/10.1017/s0010417500015486.

Texte intégral
Résumé :
Worshippers of the goddess Ma Tsu constitute Taiwan's most encompassing ritual community. The cult's close association with Taiwanese history and cultural identity is well known to Sinological anthropologists. Every year pilgrimage groups (usually organized by local territorial cults) converge on cult centers at Pei-kang, Hsin-kang, Chang-hua, Lu-kang, T'u-ch'eng, and Tainan, among others (see Figure 1). These centers compete actively for cult supremacy, and the arguments invoked in this rivalry are mainly of an historical nature. The question I explore here is, Why is history so important in establishing the authenticity and charisma of this goddess?
Styles APA, Harvard, Vancouver, ISO, etc.
8

Billaut, Manon. « Kang Chang Il, les Débuts du cinéma en Corée ». 1895, no 93 (1 mai 2021) : 269–70. http://dx.doi.org/10.4000/1895.8517.

Texte intégral
Styles APA, Harvard, Vancouver, ISO, etc.
9

Yinying, Zhou, Cao Jiantao et Wang Yali. « Convergence Theorem for Equilibrium and Variational Inequality Problems and a Family of Infinitely Nonexpansive Mappings in Hilbert Space ». Journal of Applied Mathematics 2014 (2014) : 1–8. http://dx.doi.org/10.1155/2014/232541.

Texte intégral
Résumé :
We introduce a hybrid iterative scheme for finding a common element of the set of common fixed points for a family of infinitely nonexpansive mappings, the set of solutions of the varitional inequality problem and the equilibrium problem in Hilbert space. Under suitable conditions, some strong convergence theorems are obtained. Our results improve and extend the corresponding results in (Chang et al. (2009), Min and Chang (2012), Plubtieng and Punpaeng (2007), S. Takahashi and W. Takahashi (2007), Tada and Takahashi (2007), Gang and Changsong (2009), Ying (2013), Y. Yao and J. C. Yao (2007), and Yong-Cho and Kang (2012)).
Styles APA, Harvard, Vancouver, ISO, etc.
10

Lee, Youngrae, Sujeong Baek, Dong Kwon Kim, Yeri Lee, Donggeon Kim, Seongin Jo, Sang Kyun Lim et al. « Abstract 3234 : OCT-598, a novel EP2/EP4 dual antagonist, promotes anti-tumor immune responses in syngeneic mouse tumor models in combination with standard-of-care chemo- and immunotherapies ». Cancer Research 83, no 7_Supplement (4 avril 2023) : 3234. http://dx.doi.org/10.1158/1538-7445.am2023-3234.

Texte intégral
Résumé :
Abstract Prostaglandin E2 (PGE2) is widely recognized as one of the major bioactive lipids that, with the striking regenerative potential, promote drug-resistance in cancer cells as well as immune evasion in the tumor microenvironment (TME). Primarily driven by apoptotic cell death, PGE2 is thought to elicit wound-healing responses to help provide an immunosuppressive and proliferative niche that supports cancer stem cell repopulation and thereby therapy-resistance. While COX1/2 inhibitors that attenuate PGE2 production have shown promising anti-cancer effects in various (pre-)clinical settings, the gastrointestinal- and cardiotoxicities precluded their development as anti-cancer agents. It is anticipated that specific targeting of PGE2 signaling via its cognate receptors constitutes a safer and potentially more effective approach. Of the receptor subtypes EP1-4, Gα,s-coupled EP2 and EP4 are believed to be directly involved in immunosuppressive effects of PGE2.OCT-598 is a novel, highly potent and selective EP2/EP4 dual antagonist with Ki values of 23 nM and 0.2 nM vs EP2 and EP4, respectively. PGE2 inhibited normal differentiation of human monocytes into CD1a+CD16- dendritic cells under the presence of GM-CSF and IL-4 and promoted differentiation towards CD1a-CD16+ macrophages in vitro. However, EP2/EP4 dual inhibition by OCT-598 reversed this phenomenon to a greater extent than either EP2- or EP4-specific inhibitor alone. In vivo, OCT-598 effected tumor growth inhibition in multiple syngeneic mouse models as a single agent as well as in combination with an immune checkpoint blocker (ICB). Furthermore, the addition of OCT-598 to the lung cancer standard-of-care regimen (anti-PD-1 plus chemotherapy) in TC-1 mouse lung adenocarcinoma model gave rise to complete tumor regression. In conclusion, dual blockade of EP2 and EP4 by OCT-598 is shown to be a compelling strategy to reinforce antitumor effects by thwarting PGE2-mediated therapy resistance and immune evasion.Findings from this study provide a rationale for clinical development of OCT-598 as a therapeutic option for human malignant cancers. Citation Format: Youngrae Lee, Sujeong Baek, Dong Kwon Kim, Yeri Lee, Donggeon Kim, Seongin Jo, Sang Kyun Lim, Young Sook Shin, Soonsang Kwon, Seung Min Yang, Young Taek Kim, Seong-San Kang, Chun-Bong Synn, Kwangmin Na, Mi Hyun Kim, Heekyung Han, Yu Jin Han, Sungwoo Lee, Jae Hwan Kim, Mi Ran Yun, Youngseon Byeon, Young Seob Kim, Ji Yun Lee, Jii Bum Lee, Chang Gon Kim, Min Hee Hong, Sun Min Lim, Kyoung-Ho Pyo, Byoung Chul Cho, Taeyoung Yoon. OCT-598, a novel EP2/EP4 dual antagonist, promotes anti-tumor immune responses in syngeneic mouse tumor models in combination with standard-of-care chemo- and immunotherapies [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2023; Part 1 (Regular and Invited Abstracts); 2023 Apr 14-19; Orlando, FL. Philadelphia (PA): AACR; Cancer Res 2023;83(7_Suppl):Abstract nr 3234.
Styles APA, Harvard, Vancouver, ISO, etc.
Plus de sources

Thèses sur le sujet "An kang jiu chang"

1

Huang, Juyan. « Kang zhan shi qi Guangdong jing ji sun shi yan jiu / ». [Guangzhou] : Guangdong ren min chu ban she, 2005. http://www.loc.gov/catdir/toc/chi0801/2007351650.html.

Texte intégral
Résumé :
Revision of the auther's thesis (Ph. D.--Zhongshan da xue, 2000).
"Guangdong you xiu zhe xue she hui ke xue zhu zuo chu ban ji jin zi zhu xiang mu; Guangdong Sheng zhe xue she hui ke xue 'jiu wu' gui hua zhong dian yan jiu ke ti." 880-05 Includes bibliographical references (p. 334-354).
Styles APA, Harvard, Vancouver, ISO, etc.
2

Chang, Moon-Kang [Verfasser]. « Martin Luthers Freiheitsverständnis für das heutige Christentum : Wahrheit - Freiheit - Ekklesia / Moon-Kang Chang ». Aachen : Shaker, 2010. http://d-nb.info/1081885734/34.

Texte intégral
Styles APA, Harvard, Vancouver, ISO, etc.
3

Guo, Lixin. « Chang Jiang zhong you di qu chu qi she hui fu za hua yan jiu : 4300B.C.-2000B.C. / ». Shanghai : Shanghai gu ji chu ban she, 2005. http://www.loc.gov/catdir/toc/chi0701/2007350047.html.

Texte intégral
Styles APA, Harvard, Vancouver, ISO, etc.
4

Qian, Yang Peijuan. « Zhen jiu zhi liao fu xie xing chang yi ji zong he zheng de qu xue gui lü / ». click here to view the abstract and table of contents, 2006. http://net3.hkbu.edu.hk/~libres/cgi-bin/thesisab.pl?pdf=b1998618xa.pdf.

Texte intégral
Styles APA, Harvard, Vancouver, ISO, etc.
5

Cheng, Xiaoke. « Shang shi gong si ying yu zhi liang fen xi yu ping jia yan jiu ji yu Zhongguo zi ben shi chang huan jing de yan jiu gou jia yu jing yan zheng ju / ». Dalian Shi : Dongbei cai jing da xue chu ban she, 2006.

Trouver le texte intégral
Styles APA, Harvard, Vancouver, ISO, etc.
6

Zhang, Shifei. « Shanghai ai zheng zi zhu zu zhi yan jiu zu yuan can yu, she hui zhi chi he she hui xue xi de zeng quan xiao guo / ». online access from Digital dissertation consortium, 2001. http://libweb.cityu.edu.hk/cgi-bin/er/db/ddcdiss.pl?3025931.

Texte intégral
Styles APA, Harvard, Vancouver, ISO, etc.
7

Park, Grace Haekyung. « The exotics of representation in twentieth-century Korean American literature ». Diss., Restricted to subscribing institutions, 2008. http://proquest.umi.com/pqdweb?did=1483474281&sid=1&Fmt=2&clientId=1564&RQT=309&VName=PQD.

Texte intégral
Styles APA, Harvard, Vancouver, ISO, etc.
8

Cheng, Siu-ling Flona. « A study of variant readings of Chinese characters labeled as mispronounced in the Yueyin zhengdu zihui "Yue yin zheng du zi hui" suo zai ri chang cuo du zi yi du yan jiu / ». Click to view the E-thesis via HKUTO, 2008. http://sunzi.lib.hku.hk/hkuto/record/B40733968.

Texte intégral
Styles APA, Harvard, Vancouver, ISO, etc.
9

Lee, So-kam. « A comparison of Cantonese Transcriptions in Guangzhouhua zhengyin zidian and Changyongzi guangzhouhua duyinbiao "Guangzhou hua zheng yin zi dian" yu "Chang yong zi Guangzhou hua du yin biao" Yue yu zhu yin bi jiao yan jiu / ». Click to view the E-thesis via HKUTO, 2008. http://sunzi.lib.hku.hk/hkuto/record/B40736982.

Texte intégral
Styles APA, Harvard, Vancouver, ISO, etc.
10

Liu, Yuk-ling. « A comparative study of the phonetic transcriptions in Changyongzi Guangzhouhua duyinbiao and Yueyin zhengdu zihui "Chang yong zi Guangzhou hua du yin biao" yu "Yue yin zheng du zi hui" zhu yin bi jiao yan jiu / ». Click to view the E-thesis via HKUTO, 2009. http://sunzi.lib.hku.hk/hkuto/record/B42926233.

Texte intégral
Styles APA, Harvard, Vancouver, ISO, etc.
Plus de sources

Livres sur le sujet "An kang jiu chang"

1

Tiegang, Li, Xia Jinlong et "Tian tian yin shi" cong shu bian wei hui., dir. Jian kang jia chang cai. Changchun : Jilin ke xue ji shu chu ban she, 2008.

Trouver le texte intégral
Styles APA, Harvard, Vancouver, ISO, etc.
2

"An kang jiu chang zhi" bian zuan wei yuan hui. 安康酒厂志. Shanxi : Shanxi an kang lu kang jiu ye you xian gong si, 1998.

Trouver le texte intégral
Styles APA, Harvard, Vancouver, ISO, etc.
3

Chen, Cui Lian. Jian kang jia chang su shi. Taiwan : Ming Tian, 2004.

Trouver le texte intégral
Styles APA, Harvard, Vancouver, ISO, etc.
4

Pu tao jiu : Shen qi de jian kang chang shou li liang. Haerbin : Hei long jiang ke xue ji shu chu ban she, 2009.

Trouver le texte intégral
Styles APA, Harvard, Vancouver, ISO, etc.
5

Gao, Meixue. Jian kang jia chang zhu 40 dao. 8e éd. Taibei Xian Xindian Shi : Xin nü xing chu ban she, 2001.

Trouver le texte intégral
Styles APA, Harvard, Vancouver, ISO, etc.
6

Hiromi, Shinya, et Li Yuzhao, dir. Tu jie chang dao jian kang fa. 8e éd. Taibei Shi : Chen xing chu ban you xian gong si, 2008.

Trouver le texte intégral
Styles APA, Harvard, Vancouver, ISO, etc.
7

Shang, Hanji. Zhongguo ren shou yu jian kang bao xian shi chang yan jiu. 8e éd. Shanghai Shi : Fu dan da xue chu ban she, 2010.

Trouver le texte intégral
Styles APA, Harvard, Vancouver, ISO, etc.
8

Li, Jintao, Ousi Xu et Can Lin. Jia chang jian fan : Jia ting chang yu jian kang dian fan. Xianggang : Zhong wen da xue chu ban she, 2016.

Trouver le texte intégral
Styles APA, Harvard, Vancouver, ISO, etc.
9

jie, Gao. Jian kang chang shi zhen bian shu. Bei jing : Di zhen chu ban she, 2008.

Trouver le texte intégral
Styles APA, Harvard, Vancouver, ISO, etc.
10

Mitsugu, Shiga. Ni chang wu jie de 101 ge jian kang chang shi. 8e éd. [Taibei Shi] : Fang zhi chu ban gong si, 1992.

Trouver le texte intégral
Styles APA, Harvard, Vancouver, ISO, etc.
Plus de sources

Chapitres de livres sur le sujet "An kang jiu chang"

1

Cheung, King-Kok. « Masculine Mystique : Xu Zhimo 徐志摩, Younghill Kang, Pang-Mei Natasha Chang, and Anchee Min ». Dans Chinese American Literature without Borders, 101–39. New York : Palgrave Macmillan US, 2016. http://dx.doi.org/10.1057/978-1-137-44177-5_4.

Texte intégral
Styles APA, Harvard, Vancouver, ISO, etc.
2

Taber, Douglass. « Heterocycle Construction : The Chang Synthesis of Louisianin C ». Dans Organic Synthesis. Oxford University Press, 2011. http://dx.doi.org/10.1093/oso/9780199764549.003.0069.

Texte intégral
Résumé :
It has been known for some time that an acid chloride 1 can be added to an alkyne 2 to give the β-chloro enone. Yasushi Tsuji of Kyoto University found (J. Am. Chem. Soc. 2009, 131, 6668) that with an Ir catalyst, the condensation of 1 with 2 could be directed to the furan 3. Huanfeng Jiang of the South China University of Technology described (Organic Lett. 2009, 11, 1931) a complementary route to furans, Cu-mediated condensation of a propargyl alcohol 4 with the diester 5 to give 6. Bruce A. Arndtsen of McGill University developed (Organic Lett. 2009, 11, 1369) an approach to pyrroles such as 9, by condensation of an α,β-unsaturated α-cyano imine 7 with the acid chloride 8. Thomas J. J. Müller of Heinrich-Heine-Universität Düsseldorf observed (Organic Lett. 2009, 11, 2269) the condensation of an acid chloride 11 with a propargyl amine 10, leading to the iodo pyrrole 12. John A. Murphy of the University of Strathclyde uncovered (Tetrahedron Lett. 2009, 50, 3290) a new entry to the Fischer indole synthesis, by Petasis homologation of a hydrazide 13. Dali Yin of Peking Union Medical College took advantage (Organic Lett. 2009, 11, 637) of the easy sequential displacement of the fluorides of 15, leading, after acid-catalyzed cyclization, to the indole 17. Kang Zhao of Tianjin University extended (Organic Lett. 2009, 11, 2417; Organic Lett. 2009, 11, 2643) his studies of oxidation of an enamine 18 to the 2H -azirine, that on heating cyclized to the indole 19. Peter Wipf of the University of Pittsburgh established (Chem. Commun. 2009, 104) a microwave-promoted indole synthesis, illustrated by the intramolecular Diels-Alder cyclization of 20 to 21. A review delineating all nine types of indole syntheses will appear shortly in Angewandte Chemie . Fushun Liang and Qun Liu of Northeast Normal University demonstrated (J. Org. Chem. 2009, 74, 899) that the readily-prepared ketene thioacetal 22 condensed with NH3 to give the pyridine 23. Sundaresan Prabhakar and Ana M. Lobo of the New University of Lisbon observed (Tetrahedron Lett. 2009, 50, 3446) that the addition of the alkoxy propargyl amine to the alkyne 25 gave a Z alkene, that on warming rearranged to the pyridine 26.
Styles APA, Harvard, Vancouver, ISO, etc.

Actes de conférences sur le sujet "An kang jiu chang"

1

Xiaozhi Wang and Neil Pegg, ISSC 2022 Editors. « Proceedings of the 21st International Ship and Offshore Structures Congress VOLUME 2 Specialist Committee Reports ». Dans 21st International Ship and Offshore Structures Congress, Volume 2. SNAME, 2022. http://dx.doi.org/10.5957/issc-2022-committee-vol-2.

Texte intégral
Résumé :
Table of Contents Preface ..............................................................................................................iii Committee V.1: Accidental Limit States .......................................................1 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 Committee V.2: Experimental Methods ......................................................91 Soren 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 Committee V.3: Materials and Fabrication Technology ..........................163 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 Committee V.4: Offshore Renewable Energy ...........................................241 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 Committee V.5: Special Vessels ................................................................313 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 Committee V.6: Ocean Space Utilization ..................................................379 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 Committee V.7: Structural Longevity ........................................................445 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 Committee V.8: Subsea Technology ..........................................................503 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 Subject Index .............................................................................................582 Author Index ...............................................................................................584
Styles APA, Harvard, Vancouver, ISO, etc.
2

Dai Zhi-min et Luo Yan. « “Chang Jiu Dual-Core integration” ; financial agglomeration effect measure and policy design ». Dans 2015 12th International Conference on Service Systems and Service Management (ICSSSM). IEEE, 2015. http://dx.doi.org/10.1109/icsssm.2015.7170312.

Texte intégral
Styles APA, Harvard, Vancouver, ISO, etc.
3

Xiaozhi Wang and Neil Pegg, ISSC 2022 Editors. « Proceedings of the 21st International Ship and Offshore Structures Congress VOLUME 3 Discussions ». Dans 21st International Ship and Offshore Structures Congress Volume 3 Discussions. SNAME, 2022. http://dx.doi.org/10.5957/issc-2022-discussion-vol-3.

Texte intégral
Résumé :
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
Styles APA, Harvard, Vancouver, ISO, etc.
Vous pouvez également être intéressé par les bibliographies sur le sujet « An kang jiu chang » pour d’autres types de sources :
Articles de revues Thèses Livres
Nous offrons des réductions sur tous les plans premium pour les auteurs dont les œuvres sont incluses dans des sélections littéraires thématiques. Contactez-nous pour obtenir un code promo unique!

Vers la bibliographie