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    Topics in Current Chemistry

    Subject:
    Publisher:
    Springer International Publishing — Springer Journals
    ISSN:
    2365-0869
    Scimago Journal Rank:
    0

    2026

    Volume 384
    Issue 3 (Jun)Issue 2 (Mar)Issue 1 (Feb)

    2025

    Volume 384
    Issue 1 (Nov)
    Volume 383
    Issue 4 (Nov)Issue 3 (Sep)Issue 2 (Mar)Issue 1 (Feb)

    2024

    Volume 383
    Issue 1 (Dec)
    Volume 382
    Issue 4 (Oct)Issue 3 (Jul)Issue 2 (May)Issue 1 (Mar)

    2023

    Volume 381
    Issue 6 (Dec)Issue 5 (Oct)Issue 4 (Jun)Issue 3 (Apr)Issue 2 (Mar)Issue 1 (Feb)

    2022

    Volume 380
    Issue 6 (Dec)Issue 5 (Oct)Issue 4 (Jul)Issue 3 (May)Issue 2 (Mar)Issue 1 (Feb)

    2021

    Volume 379
    Issue 6 (Dec)Issue 5 (Aug)Issue 4 (Aug)Issue 3 (Apr)Issue 2 (Feb)Issue 1 (Feb)

    2020

    Volume 378
    Issue 6 (Oct)Issue 4-5 (Sep)Issue 4 (Sep)Issue 3 (May)Issue 2 (Apr)Issue 1 (Jan)

    2019

    Volume 378
    Issue 1 (Dec)
    Volume 377
    Issue 6 (Oct)Issue 5 (Sep)Issue 4 (Jul)Issue 3 (Apr)Issue 2 (Mar)Issue 1 (Jan)

    2018

    Volume 377
    Issue 1 (Dec)
    Volume 376
    Issue 6 (Oct)Issue 5 (Aug)Issue 4 (Jul)Issue 3 (Apr)Issue 2 (Apr)Issue 1 (Feb)

    2017

    Volume 376
    Issue 1 (Dec)
    Volume 375
    Issue 6 (Nov)Issue 5 (Aug)Issue 4 (Aug)Issue 3 (May)Issue 2 (Mar)Issue 1 (Jan)

    2016

    Volume 375
    Issue 1 (Dec)
    Volume 374
    Issue 6 (Nov)Issue 5 (Sep)Issue 4 (Jun)Issue 3 (May)Issue 2 (Mar)Issue 1 (Jan)

    2015

    Volume 374
    Issue 1 (Dec)
    journal article
    LitStream Collection
    Dispersive Single-Atom Metals Anchored on Functionalized Nanocarbons for Electrochemical Reactions

    Li, Jin-Cheng; Wei, Zidong; Liu, Dong; Du, Dan; Lin, Yuehe; Shao, Minhua

    2019 Topics in Current Chemistry

    doi: 10.1007/s41061-018-0229-9pmid: 30617518

    The use of dispersive single-atom metals anchored on functionalized carbon nanomaterials as electrocatalysts for electrochemical energy conversion reactions represents a burgeoning area of research, due to their unique characteristics of low coordination number, uniform coordination environment, and maximum atomic utilization. Here we highlight the advanced synthetic methods, characterization techniques, and electrochemical applications for carbon-based single-atom metal catalysts, and provide illustrative correlations between molecular/electronic structures and specific catalytic activity for O2 reduction, water splitting, and other emerging reactions including CO2 reduction, H2O2 production, and N2 reduction. We also discuss fundamental principles for the future design of carbon-based single-atom metal catalysts for specific electrochemical reactions. In addition, we explore the challenges and opportunities that lie ahead in further work with carbon-based single-atom metal electrocatalysts.
    journal article
    LitStream Collection
    Carbon Nanotube Thin Films for High-Performance Flexible Electronics Applications

    Hirotani, Jun; Ohno, Yutaka

    2019 Topics in Current Chemistry

    doi: 10.1007/s41061-018-0227-ypmid: 30600416

    Carbon nanotube thin films have attracted considerable attention because of their potential use in flexible/stretchable electronics applications, such as flexible displays and wearable health monitoring devices. Due to recent progress in the post-purification processes of carbon nanotubes, high-purity semiconducting carbon nanotubes can be obtained for thin-film transistor applications. One of the key challenges for the practical use of carbon nanotube thin-film transistors is the thin-film formation technology, which is required for achieving not only high performance but also uniform device characteristics. In this paper, after describing the fundamental thin-film formation techniques, we review the recent progress of thin-film formation technologies for carbon nanotube-based flexible electronics.
    journal article
    LitStream Collection
    Determination of Specific Electrocatalytic Sites in the Oxidation of Small Molecules on Crystalline Metal Surfaces

    Farias, Manuel; Feliu, Juan

    2019 Topics in Current Chemistry

    doi: 10.1007/s41061-018-0228-xpmid: 30631969

    The identification of active sites in electrocatalytic reactions is part of the elucidation of mechanisms of catalyzed reactions on solid surfaces. However, this is not an easy task, even for apparently simple reactions, as we sometimes think the oxidation of adsorbed CO is. For surfaces consisting of non-equivalent sites, the recognition of specific active sites must consider the influence that facets, as is the steps/defect on the surface of the catalyst, cause in its neighbors; one has to consider the electrochemical environment under which the “active sites” lie on the surface, meaning that defects/steps on the surface do not partake in chemistry by themselves. In this paper, we outline the recent efforts in understanding the close relationships between site-specific and the overall rate and/or selectivity of electrocatalytic reactions. We analyze hydrogen adsorption/desorption, and electro-oxidation of CO, methanol, and ammonia. The classical topic of asymmetric electrocatalysis on kinked surfaces is also addressed for glucose electro-oxidation. The article takes into account selected existing data combined with our original works.
    journal article
    LitStream Collection
    A Low-Cost, Well-Designed Catalytic System Derived from Household Waste “Egg Shell”: Applications in Organic Transformations

    Konwar, Manashjyoti; Chetia, Mitali; Sarma, Diganta

    2019 Topics in Current Chemistry

    doi: 10.1007/s41061-018-0230-3pmid: 30675643

    A waste feedstock-derived economical basic alternative catalyst is described in this review. Eggshell is one of the household wastes created in tons of weight daily. Therefore, in order to reduce the environmental pollution-related problems, its use in heterogeneous catalysis can be attributed as a great contribution for the chemical and material science society to carry out several known reactions and for the much-needed energy alternative biodiesel production as low-cost catalytic system. Keeping green chemistry in mind, industrial use of these catalysts may also reduce the use of other traditionally used high-cost chemical catalytic systems.

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