“Прогресс в физической органической химии” - это сборник статей, посвященных новейшим исследованиям в области органической химии, которые используют количественные и математические методы. Эти обзоры помогают читателям понять важность отдельных открытий и что они значат для всей области в целом. Кроме того, авторы, ведущие эксперты в своих областях, предлагают уникальные и вызывающие размышления взгляды на текущее состояние науки и ее будущие направления. С таким количеством новых открытий, опубликованных в широком диапазоне журналов, “Прогресс в физической органической химии” восполняет потребность в центральном ресурсе, который представляет, анализирует и контекстуализирует основные достижения в этой области. Статьи, опубликованные в “Прогрессе в физической органической химии”, интересны не только ученым, работающим в физической органической химии, но и ученым, работающим во многих субдисциплинах химии, в которых подходы физической органической химии теперь применяются, такие как биохимия, фармацевтическая химия и материалы и наука о полимерах. Среди исследуемых тем в этой серии - механизмы реакций;
In the continuing series of periodic compilations under the title Progress in Physical Organic chemistry, A. Streitwiesersreflects on some recent efforts to achieve chemical understandings that call upon quantitative mathematical tools. Here, the reviewer encourages each reader to grasp the essential portion of standout advancements and their bearing on overall knowledge development. Taking this well-crafted series further, authorities woven throughout the chapters deliver substantially sensitive and heretofore unseen insights into the realm of modern organic chemistry. Such fascinating contributions constitute substantial points of reference that could well be fundamental sources of learning for scientists who work in the domain of physical organic chemistry as well as inviting partners from ever-growing streams of branches of chemistry where the methodological animations of physical-organic chemistry are currently merging. At the nucleus of investigations are mechanistic facets, reactive aspects, combinatory strategies, revelatory corpuscles, spectroscopic data, events at boundaries, stereochemical notions, geometrical interpretations, chemical attempts, relations between building blocks and reactivity, solutions-based and isotopic aspects, specifically decoupled compounds, electronically flamboyant or sprawling systems, electric, nonlinear optics and conductivity, organizations seeking recognition.
Электронная Книга «Progress in Physical Organic Chemistry, Volume 8» написана автором Andrew Streitwieser в году.
Минимальный возраст читателя: 0
Язык: Английский
ISBN: 9780470172087
Описание книги от Andrew Streitwieser
Progress in Physical Organic Chemistry is dedicated to reviewing the latest investigations into organic chemistry that use quantitative and mathematical methods. These reviews help readers understand the importance of individual discoveries and what they mean to the field as a whole. Moreover, the authors, leading experts in their fields, offer unique and thought-provoking perspectives on the current state of the science and its future directions. With so many new findings published in a broad range of journals, Progress in Physical Organic Chemistry fills the need for a central resource that presents, analyzes, and contextualizes the major advances in the field. The articles published in Progress in Physical Organic Chemistry are not only of interest to scientists working in physical organic chemistry, but also scientists working in the many subdisciplines of chemistry in which physical organic chemistry approaches are now applied, such as biochemistry, pharmaceutical chemistry, and materials and polymer science. Among the topics explored in this series are reaction mechanisms; reactive intermediates; combinatorial strategies; novel structures; spectroscopy; chemistry at interfaces; stereochemistry; conformational analysis; quantum chemical studies; structure-reactivity relationships; solvent, isotope and solid-state effects; long-lived charged, sextet or open-shell species; magnetic, non-linear optical and conducting molecules; and molecular recognition.