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USA-MN-BLACKLICK selskapets Kataloger
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Firma Nyheter:
- Qin Tian 田琴 - Google Scholar
Qin Tian 田琴 College of Forestry, Shandong Agricultural University Verified email at sdau edu cn Macroevolution Biodiversity Phylogeny
- Rapid - New Phytologist
We integrated phylogenomic, environmental ordination, and macroevolutionary analyses for the cosmopolitan angiosperm family Rhamnaceae to disentangle the evolutionary processes that have contributed to high species diversity within and across temperate biomes
- Zhengting Zous Lab of Computational Molecular Evolution
In 2021, I joined the Group of Computational Molecular Evolution at the CAS Key Laboratory of Zoological Systematics and Evolution, Institute of Zoology, Chinese Academy of Sciences for my doctoral degree research
- Qin TIAN | Germplasm Bank of Wild Species | Research profile
Pollinator-driven evolution of floral traits is thought to be a major driver of angiosperm speciation and diversification The bee orchids (genus Ophrys ) mimic their pollinators’ female pheromone,
- Qin Lab | UT Southwestern, Dallas, Texas
Qin Lab focuses on the development of novel synthetic transformations and strategies that will allow access to bioactive, complex natural products and efficient synthesis of pharmaceuticals and their derivatives
- Qin Tian (0000-0002-7939-5329) - ORCID
Contributors: Shui‐Yin Liu; Ying‐Ying Yang; Qin Tian; Zhi‐Yun Yang; Shu‐Feng Li; Paul J Valdes; Alex Farnsworth; Heather R Kates; Carolina M Siniscalchi; Robert P Guralnick et al
- The Page of Qin Tian from Germplasm Bank of Wild Species, Yunnan Key . . .
Kunming Institute of Botany *This is an algorithmically generated author record based on publicly available information The organizations institutes from the scholar's latest article
- NEW PHYTOLOGIST_影响因子 (IF)_中科院分区_SCI期刊 . . .
NEW PHYTOLOGIST杂志网站提供NEW PHYTOL期刊影响因子、JCR和中科院分区查询,SCI期刊投稿经验,Impact Factor(IF),官方投稿网址,审稿周期 时间,研究方向,SCI期刊中科院分区等信息,供科研工作者投稿前参考。
- 德克萨斯大学西南医学中心Qin Tian 团队: 光照下的 氧 “行走 . . .
近日,德克萨斯大学西南医学中心Qin Tian 团队开发了一种新颖的通过吡啶 N-氧化物的光化学价态异构化实现吡啶 C3 选择性羟基化的方法。 该方法摒弃了传统金属催化剂,采用光化学反应条件,使得整个转化过程更为简便。 由于反应条件温和且兼容多种功能团,该方法在药物合成及功能分子的修饰中表现出极高的应用潜力。 具体而言,研究中利用吡啶 N-氧化物作为中间体,通过光诱导电子转移的方式触发价态异构化反应,从而实现 C3 选择性羟基化。 相比于传统的金属催化体系,该无金属的转化方法不仅操作简便,而且具有较高的官能团兼容性,能有效处理复杂底物。 这一方法显著提高了吡啶 C–H 羟基化的区域选择性,并为后续的合成提供了更具实用性的羟基化产物。
- 湖南农业大学环境与生态学院-社会服务-学院新闻
2025 年 8 月 31 日, 21 级硕士生秦天(导师:周耀渝教授,智丹讲师)在国家公派留学基金委(CSC)资助下抵澳大利亚 University of New South Wales (UNSW),于 School of Chemical Engineering 攻读博士学位,研究方向为新型碳基电催化材料的深层机制。
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