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Conjugate Addition (1,4-Addition) vs Direct Addition (1,2-Addition)01:27

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α,β-Unsaturated carbonyl compounds with two electrophilic sites, the carbonyl carbon, and the β carbon, are susceptible to nucleophilic attack via two modes: conjugate or 1,4-addition and direct or 1,2-addition.
Conjugate addition results in a thermodynamically stable product. The reaction retains the stronger C=O bond at the expense of the weaker C=C π bond. The process is slow as the β carbon is less electrophilic than the carbonyl carbon.
Direct addition products are...
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Classical Conditioning01:18

Classical Conditioning

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Associative learning, a core principle in behavioral psychology, involves forming connections between events and facilitating learned responses. This concept is vividly illustrated by classical conditioning, a process extensively studied by the Russian physiologist Ivan Pavlov. Pavlov's pioneering research on dogs' digestive systems led to the discovery that behaviors can be learned through association, laying the groundwork for classical conditioning.
Ivan Pavlov observed that dogs...
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Principles of Classical Conditioning01:23

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Classical conditioning, as described by Ivan Pavlov, is a foundational concept in associative learning, where a neutral stimulus becomes capable of eliciting a conditioned response through association with an unconditioned stimulus. The process of acquisition, where this learning occurs, and the subsequent phenomena of contiguity, contingency, generalization, discrimination, extinction, and spontaneous recovery are crucial for a comprehensive understanding of classical conditioning.
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The attack of a nucleophile at the β carbon of an α,β-unsaturated carbonyl compound is called conjugate addition. Conjugate addition reactions of active methylene compounds, such as β-diketones, β-keto esters, β-keto nitriles, and α-nitro ketones, are called Michael addition reactions.
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Classical conditioning, a fundamental principle of associative learning, explains various phenomena observed in daily life, such as fear development, the placebo effect, taste aversion, and drug habituation. These applications demonstrate the profound impact of associative learning on human behavior and physiological responses.
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Classical conditioning not only includes the initial pairing of stimuli but also extends to more complex forms, such as higher-order conditioning. Higher-order conditioning involves creating associations beyond the primary conditioned stimulus, resulting in a chain of conditioned responses.
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非古典的核生成経路の添加剤特異的変調

Annet Baken1,2, Alejandro Fernandez-Martinez2, Martine Lanson2

  • 1ESRF, European Synchotron Radiation Facility, ID15a Materials Science Beamline, Grenoble, France.

Nature communications
|January 22, 2026
PubMed
まとめ
この要約は機械生成です。

添加剤は鉱物核生成経路に影響を与えることで結晶化を制御し、ポルトランダイトと石膏に異なる影響を与える。これらの分子は核生成前段階に影響を与え、産業用途と生体鉱物化への洞察を提供する。

キーワード:
結晶化核生成添加剤ポルトランダイト石膏非古典的核生成生体鉱物化

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科学分野:

  • 材料科学
  • 地球化学
  • 化学工学

背景:

  • 添加剤は材料結晶化の制御に不可欠であるが、そのメカニズムは完全には理解されていない。
  • 添加剤効果の理解は、産業的結晶化プロセスと生体鉱物化の最適化に不可欠である。

研究 の 目的:

  • ポルトランダイトと石膏の核生成経路に対する添加剤の影響を調査する。
  • 添加剤が鉱物結晶化に影響を与えるメカニズムを解明する。

主な方法:

  • in situ高エネルギーX線散乱。
  • 電位差滴定。
  • 散乱および滴定技術の統合。

主要な成果:

  • ポルトランダイトと石膏は、ポルトランダイトの場合は段階的な遷移、石膏の場合は突然の遷移という、異なる多段階核生成経路を示す。
  • 添加剤は、古典的なモデルを超えて、主に核生成前段階で核生成に影響を与える。
  • 添加剤は、異なる核生成段階に非同期的に影響を与える二重の役割を示す。

結論:

  • 鉱物特異的な添加剤効果は、異なる非古典的核生成経路およびpH条件と相関する。
  • 本研究の結果は、産業的結晶化および生体鉱物化のための調整された添加剤の設計の基礎を提供する。
  • 結晶化に対する添加剤の影響は複雑で多面的であり、核生成前段階および後続段階に影響を与える。