548 research outputs found
Fig. 2 in Chemical epigenetic manipulation triggers the production of sesquiterpenes from the deep-sea derived Eutypella fungus
Fig. 2. Key COSY and HMBC correlations of 1, 6, and 13–15.Published as part of Niu, Siwen, Liu, Dong, Shao, Zongze, Liu, Jianrong, Fan, Aili & Lin, Wenhan, 2021, Chemical epigenetic manipulation triggers the production of sesquiterpenes from the deep-sea derived Eutypella fungus, pp. 1-16 in Phytochemistry (112978) 192 on page 3, DOI: 10.1016/j.phytochem.2021.112978, http://zenodo.org/record/825815
Fig. 1 in Chemical epigenetic manipulation triggers the production of sesquiterpenes from the deep-sea derived Eutypella fungus
Fig. 1. Structures of sesquiterpenes 1–21.Published as part of Niu, Siwen, Liu, Dong, Shao, Zongze, Liu, Jianrong, Fan, Aili & Lin, Wenhan, 2021, Chemical epigenetic manipulation triggers the production of sesquiterpenes from the deep-sea derived Eutypella fungus, pp. 1-16 in Phytochemistry (112978) 192 on page 2, DOI: 10.1016/j.phytochem.2021.112978, http://zenodo.org/record/825815
Fig. 4 in Chemical epigenetic manipulation triggers the production of sesquiterpenes from the deep-sea derived Eutypella fungus
Fig. 4. Experimental ECD spectra of 1‒5 and 18 in MeOH.Published as part of Niu, Siwen, Liu, Dong, Shao, Zongze, Liu, Jianrong, Fan, Aili & Lin, Wenhan, 2021, Chemical epigenetic manipulation triggers the production of sesquiterpenes from the deep-sea derived Eutypella fungus, pp. 1-16 in Phytochemistry (112978) 192 on page 4, DOI: 10.1016/j.phytochem.2021.112978, http://zenodo.org/record/825815
A New Method to Characterize the Structured Tessellation Surface
Tessellated structure surface has been widely used for engineering surface. However, comprehensive characterization method for tessellated structure surface does not exist. In this paper, a systematic method that based on lattice building combined with the spectral analysis for the characterization of tessellation surface is introduced. The basic procedure includes six steps: pre-processing the measured data; converting the filtered data to AACF domain; finding the peak and the translation vectors; building the lattice and classifying the lattice type; tessellation reconstruction and finally comparison. Experimental works verified the effectiveness of the proposed method
Fig. 7 in Chemical epigenetic manipulation triggers the production of sesquiterpenes from the deep-sea derived Eutypella fungus
Fig. 7. ΔδH (δRS = δR ‒ δS) values of MPA esters of 3, 4, 7, 8, and 10.Published as part of Niu, Siwen, Liu, Dong, Shao, Zongze, Liu, Jianrong, Fan, Aili & Lin, Wenhan, 2021, Chemical epigenetic manipulation triggers the production of sesquiterpenes from the deep-sea derived Eutypella fungus, pp. 1-16 in Phytochemistry (112978) 192 on page 5, DOI: 10.1016/j.phytochem.2021.112978, http://zenodo.org/record/825815
Data for: Polyketide derivatives from the sponge associated fungus Aspergillus europaeus with antioxidant and NO inhibitory activities
IR, UV, NMR, ESIMS spectra for new compound
sj-pdf-1-ajs-10.1177_03635465211033982 – Supplemental material for Kinematic Alterations After Anterior Cruciate Ligament Reconstruction via Transtibial Techniques With Medial Meniscal Repair Versus Partial Medial Meniscectomy
Supplemental material, sj-pdf-1-ajs-10.1177_03635465211033982 for Kinematic Alterations After Anterior Cruciate Ligament Reconstruction via Transtibial Techniques With Medial Meniscal Repair Versus Partial Medial Meniscectomy by Ming Wang, Zefeng Lin, Wanshun Wang, Lingling Chen, Hong Xia, Yu Zhang and Wenhan Huang in The American Journal of Sports Medicine</p
Direct fabrication of black Si with enhanced infrared transmittance using femtosecond laser irradiation
An innovative black silicon (Si) with enhanced transmittance in the infrared spectral band is directly processed
by femtosecond (fs) laser irradiation in ambient air. Interestingly, this black Si can provide a low-cost, alternative
substrate for infrared detector replacing the expensive CdZnTe, also offering an effective improvement of the
detector performance. An enhancement in transmittance of up to 20 % is achieved in the case of black Si processed
with laser fluence and scanning speed of 0.68 J•cm−2 and 1 mm•s−1, respectively. The microscopic
characterization and the elemental analyses of the black Si indicate a direct link between the enhanced transmittance
and the features of the processed surface. The transmittance improvement can be mainly ascribed to the
surface microstructures and surface oxidation induced by the laser irradiation process. The microstructures may
effectively extend the incident light path, whereas the oxidized black Si can result in a graded refractive index
surface layer avoiding a sudden change of the refractive index from air to Si. The observed increase in infrared
transmittance can eventually be explained by contribution of both these effects
Jiang Wenhan yu Zhongguo Jidu jiao xue sheng yun dong yan jiu (1927-1952) =: A study of Kiang Wenhan and the Chinese Student Christian Movement (1927-1952)
Ph.D.The Chinese Student Christian Movement (SCM) refers to a revival phenomenon among Chinese youth who wanted to rethink Christian teachings and discuss how Christian faith can be applied to their daily life and social practice. It was introduced into China by the Chinese YMCA, YWCA, and the World’s Student Christian Federation (WSCF). The aim of this group was defined as follows: “In the spirit of Jesus, to create the fellowships of youth and to build sound character, with a view to the emancipation and development of the life of the people.”The author would like to argue that, the Chinese SCM is a typical case of the contextualization of Christianity in China from the perspective of Chinese Christian history. The Chinese social context also enabled the Chinese SCM to pursue the ecumenical ideas and activities which were advocated by WSCF more profoundly. Mr. Kiang Wenhan (江文漢) contributed a lot to the Movement as a participant, an observer, and a change agent. The Chinese SCM is not only a religious movement but also belong to the General Student Movement in China during the first half of the twentieth century. It showed how the Christian students could express their sense of national and social responsibility through a variety of social activities.This thesis is historical research on what the Chinese SCM (1927-1952) was. It contains two parts. Part I describes the general history of the Chinese SCM from a macro perspective, focusing on its’ social context, organizations, and main claims. Part II narrates the Chinese SCM from a micro perspective by tracing the life story of Kiang Wenhan, who plays an important role in this part of history. Mr. Kiang joined the Movement when he was a student at the University of Nanking in 1927 and became one of its leaders after he began serving in the Student Division of the National Committee YMCA of China in 1930.中國基督教學生運動(1927-1952年)是一場反思基督教傳統、探討信仰如何融入學生個人及社會生活的運動。運動的宗旨為「本耶穌精神,創造青年團契,建立健全人格,謀民眾生活的解放與發展」。其活動目標不僅在向學生傳播基督教,更旨在推動學生秉承基督教精神和愛國情懷,參與社會實踐活動。這場運動經由中華基督教男女青年會,及世界基督教學生同盟傳入中國。是基督教普世合一運動在中國的延伸。從中國基督教歷史的角度,本運動是一場探索基督教如何貼合中國學生處境而宣教的嘗試。參與者對基督教信仰與實踐活動之間互動關係的思考,是保守派教會學生傳教活動所少有的。同時,中國的社會處境又擴展了運動參與者對基督教合而為一概念的理解。民國時期,許多曾在教會大學讀書的中國基督徒皆參與在運動中。江文漢是十分罕有的從學生時代到工作階段,從基層學校青年會會長到全國基督教學生領袖職位,始終參與該運動的基督徒。他既是運動的參與者、觀察者,也是推動者,是瞭解運動歷史的線索性人物。中國基督教學生運動的參與者受到基督教信仰的影響,但他們的訴求從始至終都超越宗教領域,進入社會領域,甚至政治領域。在二十世紀三、四十年代幾次重要的學生運動中,都有基督徒學生的身影。因此,中國基督教學生運動不單是一場基督教內的運動,更是屬於整體的中國學生運動史的一部分。本文是對中國基督教學生運動歷史的研究,分外篇與內篇兩部分。外篇從宏觀角度重構中國基督教學生運動的時代處境、歷史脈絡,及思想內涵。內篇則從微觀角度,透過梳理江文漢在運動中成長、工作的經歷,來更深入地瞭解該運動的特質,以及江氏在其中的角色。張麗霞."2018年12月".Parallel title from added title page.Thesis Ph.D. Chinese University of Hong Kong 2019.Includes bibliographical references (leaves 211-225).Abstracts also in English.Title from PDF title page (viewed on March 22, 2022).Zhang Lixia
NPA_ref7409
Citation for NP Atlas reference previously without DOI
Citation: Xue, Chunmei; Li, Tian; Deng, Zhiwei; Fu, Hongzheng; Lin, Wenhan Janthinolide A-B, two new 2,5-piperazinedione derivatives from the endophytic Penicillium janthinellum isolated from the soft coral Dendronephthya sp Die Pharmazie, 2006, 61(12), 1041-1044
PubMed ID: 17283665
Publisher Access: https://www.ingentaconnect.com/content/govi/pharmaz/2006/00000061/00000012/art00015
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