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cs Search OAE Journals Chemical Synthesis Hot Keywords Chemical Synthesis Navigation BarMenu cs Home About About the Journal Aims and Scope Editorial Policies Editorial Board Youth Editorial Board Journal Awards News Partners Contact Us For Authors Author Instructions Article Processing Charges Editorial Process Manuscript Templates Submit a Manuscript For Reviewers Peer Review Guidelines Articles Special Issues All Special Issues Ongoing Special Issues Special Issue Ebooks Special Issue Guidelines Volumes Hot Articles Accepted Manuscripts About the Journal Editorial Policies APCs Articles Editorial Process All Special Issues News Contact Us Sign InSubmit Latest Issues Volume 2, Issue 3 (in progress) Volume 2, Issue 2 Volume 2, Issue 1 Volume 1, Issue 2 Volume 1, Issue 1 Download Articles Collection For Free! 2021 2022 Celebrating the 45th Anniversary of Changzhou University - Applications and Future Prospects of Asymmetric Organocatalysis Customization of functional MOFs by a modular design strategy for target applications From Lewis acids to peptide chemistry Volume 2 Issue 2 Live Now! Recent advances in circularly polarized luminescence generated by inorganic materials Two-dimentional manganese oxide on ceria for the catalytic partial oxidation of hydrocarbons A breakthrough in 2-indolylmethanol-involved organocatalytic asymmetric reactions Selenium confined in ZIF-8 derived porous carbon@MWCNTs 3D networks: tailoring reaction kinetics for high performance lithium-selenium batteries Boosting VOCs elimination by coupling different techniques Nanostructured heterogeneous photocatalyst materials for green synthesis of valuable chemicals Coordination-driven [2+2] metallo-macrocycles isomers: conformational control and photophysical properties A versatile messenger for chirality communication: asymmetric silica framework Xinling Liu,Ren-Hua Jin Review|Published on:17 Dec 2021 Two-dimensional manganese oxide on ceria for the catalytic partial oxidation of hydrocarbons Hai Wang,...Feng-Shou Xiao Research Article|Published on:16 Mar 2022 Recent advances on the construction of diarylethene-based supramolecular metallacycles and metallacages via coordination-driven self-assembly Yi Qin,...Weihong Zhu Review|Published on: 8 Jul 2021 Submit a ManuscriptSign InRegister Subscribe To receive email updates about the journal, please subscribe here. Aims and ScopeEditorial BoardEditorial PoliciesAuthor InstructionsAPC Editorial Process Manuscript Templates Contact Us your browser does not support the video tag Tweets by @Chem_Synth Articles Customization of functional MOFs by a modular design strategy for target applications Abstract Herein, we propose a versatile “functional modular assembly” strategy for customizing MOFs that allows installing Herein, we propose a versatile “functional modular assembly” strategy for customizing MOFs that allows installing ... MORE Herein, we propose a versatile “functional modular assembly” strategy for customizing MOFs that allows installing the desired functional unit into a host material. The functional unit could be switched according to different applications. MOF-808, a highly stable Zr-MOF containing dangling formate groups, was selected as a host material for demonstration. Functional molecules with carboxyl connectors can be directly inserted into MOF-808 to form functional modular MOFs (FM-MOFs) through single substitution, while for those without carboxyl connectors, a pre-designed convertor was grafted firstly followed by the functional molecules in a stepwise manner. A series of tailor-made FM-MOFs were generated and show excellent performance toward different applications, such as adsorption, catalysis, fluorescent sensing, electrochemistry, and the control of surface wettability. On the other hand, the functional units on the FM-MOFs can switch freely and completely via full interconversion, as well as partly to construct multivariate MOFs (MTV-MOFs). Therefore, this strategy provides a benchmark for rapid customization of functional MOFs for diverse applications that can realize the rapid modular design of materials. LESS Full article Yaguang Peng,...Buxing Han Research Article|Published on:28 Jul 2022 From Lewis acids to peptide chemistry Hisashi Yamamoto Feature Article|Published on:19 Jul 2022 Boosting VOCs elimination by coupling different techniques Abstract Volatile Organic Compounds (VOCs) are known to be hazardous and harmful to human health and Volatile Organic Compounds (VOCs) are known to be hazardous and harmful to human health and ... MORE Volatile Organic Compounds (VOCs) are known to be hazardous and harmful to human health and the environment. In mixtures or during repeated exposures, significant toxicity of these compounds in trace amounts has been revealed. In vitro air-liquid interface approaches underlined the interest in evaluating the impact of repeated VOC exposure and the importance of carrying out a toxicological validation of the techniques in addition to the standard chemical analyses. The difficulties in sampling and measuring VOCs in stationary source emissions are due to both the complexity of the mixture present and the wide range of concentrations. The coupling of VOC treatment techniques results in efficient systems with lower operating energy consumption. Three main couplings are outlined in this review, highlighting their advantages and relevance. First, adsorption-catalysis coupling is particularly valuable by using adsorption and catalytic oxidation regeneration initiated, for example, by selective dielectric heating. Then, several key aspects of the plasma catalysis process, such as the choice of catalysts suitable for the non-thermal plasma (NTP) environment, the simultaneous removal of different VOCs, and the in situ regeneration of the catalyst by NTP exposure, are discussed. The adsorption-photocatalysis coupling technology is also one of the effective and promising methods for VOC removal. The VOC molecules strongly adsorbed on the surface of the photocatalyst can be directly oxidized by the photogenerated hole on the photocatalyst (e.g., TiO2). LESS Full article Rebecca El Khawaja,...Stéphane Siffert Review|Published on:30 Jun 2022 Coordination-driven [2+2] metallo-macrocycles isomers: conformational control and photophysical properties Abstract In recent years, fluorescent supramolecular materials have received significant attention due to their wide application In recent years, fluorescent supramolecular materials have received significant attention due to their wide application ... MORE In recent years, fluorescent supramolecular materials have received significant attention due to their wide application prospects. However, the relationship between the conformation of supramolecules and their photophysical properties remains an open question. In this study, two rhomboidal metallacycle isomers, SA and SB, self-assembled with trans- and cis-isomers of tetraphenylethylene-based ditopic pyridyl ligands (LA and LB), and a 120° di-platinum (II) acceptor were prepared. Compared with metallacycle SB constructed by cis- tetraphenylethylene (TPE)-based ligand LB, the curved rhomboidal metallacycle SA constructed with trans-TPE-based ligand LA can restrict molecular motions of the aromatic groups on TPE and exhibits better light-emitting properties. Moreover, curved SA also exhibited better fluorescence stability than isomer SB towards molecules with strongly electron-withdrawing groups. This work provides a new platform to explore the relationship between conformation and the corresponding photophysical properties. LESS Full article Yunting Zeng,...Ming Wang Short Communication|Published on:30 Jun 2022 A breakthrough in 2-indolylmethanol-involved organocatalytic asymmetric reactions Wei Tan,Feng Shi Research Highlight|Published on:22 Jun 2022 Boosting lithium-selenium batteries Xiangdong Yao Editor's Choice|Published on:14 Jun 2022 Nanostructured heterogeneous photocatalyst materials for green synthesis of valuable chemicals Abstract The photocatalytic process employing nanostructured semiconductor materials has attracted great attention in energy production, CO2 The photocatalytic process employing nanostructured semiconductor materials has attracted great attention in energy production, CO2 ... MORE The photocatalytic process employing nanostructured semiconductor materials has attracted great attention in energy production, CO2 reduction, and water/air purification for decades. Recently, applying heterogeneous photocatalyst for the synthesis of valuable chemicals is gradually emerging and considered as a promising process for the conversion of cheap resources (i.e., biomass derivatives, polyols, and aromatic hydrocarbons). Compared with traditional thermal catalytic approaches, the photocatalytic process provides a mild reaction condition and flexible platform (photocatalyst) that allows precise tweaking of reaction intermediates and reaction pathways, thus resulting in fine control of the selective synthesis of specialized chemicals that are challenging for thermal catalysis. In this review, we summarize recent achievements in photocatalytic synthesis of various industrial important chemicals via photo-oxidative and photo-reductive processes. The selective oxidation of alcohols and aromatics, epoxidation of alkenes, hydrogenation of gaseous molecules and hydrocarbons, and coupling reactions by means of various photocatalysts including metal oxides, supported plasmonic metal nanostructures, conjugated organic polymers, anchored homogeneous catalysts, and dye-sensitized heterostructures are discussed from a material perspective. In addition, fundamental understandings of reaction mechanisms and rational design of nanostructured photocatalysts for enhancing efficiency, selectivity, and stability are discussed in detail. LESS Full article Yaru Li,...Ren Su Review|Published on:27 Apr 2022 Selenium confined in ZIF-8 derived porous carbon@MWCNTs 3D networks: tailoring reaction kinetics for high performance lithium-selenium batteries Abstract Lithium-selenium battery is nowadays a highly competing technology to the commercial Li-ion battery because Lithium-selenium battery is nowadays a highly competing technology to the commercial Li-ion battery because ... MORE Lithium-selenium battery is nowadays a highly competing technology to the commercial Li-ion battery because it has a high volumetric capacity of 3253 mAh cm-3 and gravimetric capacity of 675 mAh g-1. However, the practical application of lithium-selenium (Li-Se) batteries is impeded by the shuttle effect of the soluble polyselenides during the cycling process. Herein, we report the in situ growth and pyrolysis of the metal-organic framework zeolitic imidazolate framework-8 (ZIF-8) on three-dimensional (3D) interconnected highly conductive multiwalled carbon nanotubes (MWCNTs). The obtained composites are used to anchor Se for advanced Li-Se batteries. Compared with the isolated ZIF-8 derived microporous carbon, our synthesized ZIF-8 derived porous carbon@MWCNTs (ZIF-8-C@MWCNTs) 3D highly conductive networks facilitate lithium ion diffusion and electron transportation. The particle size of ZIF-8 crystals has an important impact on the battery performance. By adjusting the particle size of ZIF-8, the electrochemical reaction kinetics in ZIF-8-C@MWCNTs 3D networks can be tuned. The optimized particle size of ZIF-8 around 300-500 nm coated on MWCNTs composite achieves an excellent initial discharge capacity of 756 mAh g-1 and a stabilized capacity of 468 mAh g-1 at 0.2 C after 200 cycles. Combining the 3D MWCNTs with the appropriate size of ZIF-8 derived microporous carbon particles could highly improve the performance of the Li-Se battery. This work provides significant guidance for further structural design and host particle size selection for high-performance Li-Se batteries. LESS Full article Hongyan Li,...Bao-Lian Su Research Article|Published on:28 Apr 2022 Recent advances in circularly polarized luminescence generated by inorganic materials Abstract Circularly polarized luminescence (CPL) is an interesting phenomenon that represents the unequal emission of left- Circularly polarized luminescence (CPL) is an interesting phenomenon that represents the unequal emission of left- ... MORE Circularly polarized luminescence (CPL) is an interesting phenomenon that represents the unequal emission of left- and right-handed polarized light from an emitter. CPL is promising in chirality characterization and various optical applications. Traditionally, research on CPL has been centered on organic substances. Nevertheless, in recent years, CPL based on inorganic substrates has also become a nascent topic, which is significant in exploring novel chirality- and luminescence-related properties and applications in inorganic materials. This short review summarizes the recent progress made regarding the following two aspects: 1) how to endow common inorganic luminophores with CPL activity; 2) how to use emerging chiral inorganic nanomaterials to design CPL-active systems. The general synthesis strategies, optical properties, applications and outlook of CPL-active inorganic materials are also demonstrated. LESS Full article Xinling Liu,Ren-Hua Jin Review|Published on:24 Feb 2022 Mn-Ce catalysts for highly efficient C-H activation Stephane Siffert Research Highlight|Published on:29 Mar 2022 See more Most Downloaded Articles Published In 2021 2022 Advances in radical phosphorylation from 2016 to 2021 Abstract Organophosphorus compounds are of great significance in organic chemistry. Therefore, the construction of phosphorus-containing compounds ... MORE Organophosphorus compounds are of great significance in organic chemistry. Therefore, the construction of phosphorus-containing compounds has attracted significant attention from organic chemists. Radical phosphorylation has become a powerful strategy for building organophosphorus compounds and numerous achievements have been realized in recent years. In this review, we summarize the development of the generation and application of phosphorus radicals in organic chemistry since 2016. Special emphasis is given to various new transformations involving the generation of P-centered radicals via transition metal catalytic, photochemical and electrochemical means. Recent advances in the development of metal-free catalytic phosphorylations involving P-centered radicals are also reviewed. LESS Full article Jie Liu,...Da-Gang Yu Review|Published on:26 Aug 2021 Recent advances on the construction of diarylethene-based supramolecular metallacycles and metallacages via coordination-driven self-assembly Abstract During the past few years, the construction of diarylethene (DAE)-based supramolecular metallacycles and metallacages has ... MORE During the past few years, the construction of diarylethene (DAE)-based supramolecular metallacycles and metallacages has gained increasing attention due to their distinctive photophysical and photochemical properties and potential applications in magnetic switching, smart soft materials, photodynamic therapy, etc. Surprisingly, no review on the construction of discrete DAE-based supramolecular metallacycles and metallacages via coordination-driven self-assembly has been summarized to the best of our knowledge. Considering the rapid development of this field, it is time to summarize the recent development of the construction of discrete DAE-containing polygons and polyhedra. In this review, the construction of diarylethene-based metallacycles and metallacages via coordination-driven self-assembly is briefly introduced. In addition, the properties and applications of these metallacycles and metallacages are also discussed. LESS Full article Yi Qin,...Weihong Zhu Review|Published on: 8 Jul 2021 Future prospects in boron chemistry: new boron compounds and Lewis acids for catalysis and materials science Abstract Boron-containing compounds have a wide range of structures and rich and multifaceted reactivity patterns. As ... MORE Boron-containing compounds have a wide range of structures and rich and multifaceted reactivity patterns. As a result, these compounds are being increasingly used in organometallic, supramolecular, organic and inorganic chemistry, as well as in catalysis and materials science. This perspective describes recent ground-breaking studies and their implications for the future development of new catalysts and materials containing one or several trivalent boron atoms. LESS Full article Guillaume Berionni Perspective|Published on:23 Sep 2021 New journal: Chemical Synthesis Bao-Lian Su Editorial|Published on:25 Jan 2021 Gas probes and their application in gas therapy Abstract As an emerging field, gas therapy attracts increasing attention because of its distinguishing features in ... MORE As an emerging field, gas therapy attracts increasing attention because of its distinguishing features in disease treatment. However, to achieve a therapeutic effect, the concentration of gas should be carefully controlled. Thus, a suitable and convenient technology is required to monitor the gas concentration in vivo. Besides, the transportation of gas into human body and in vivo biodistribution of gas also need to be evaluated. Among the technologies adopted in gas therapy, fluorescence imaging technology is the first choice due to its high specificity, high sensitivity, and non-invasion. And as the core of fluorescence imaging, the properties of fluorescent dyes directly determine the quality of imaging. So, it is critical to choose suitable gas probes for different purposes. Here, we review common gas detection methods, including a brief introduction of fluorescence, the distinctive properties of five fluorophore cores, and the detection mechanisms of common gas probes. Then, the applications of gas probes in gas delivery, gas release, and gas therapy are summarized. At last, we discuss the potential of developing further intelligent gas probes and fluorescence imaging technologies for gas therapy. LESS Full article Wan-Jun Gong,...Qian-Jun He Review|Published on: 6 Jul 2021 Two-dimensional manganese oxide on ceria for the catalytic partial oxidation of hydrocarbons Hai Wang,...Feng-Shou Xiao Research Article|Published on:16 Mar 2022 Recent advances in circularly polarized luminescence generated by inorganic materials Xinling Liu,Ren-Hua Jin Review|Published on:24 Feb 2022 From Lewis acids to peptide chemistry Hisashi Yamamoto Feature Article|Published on:19 Jul 2022 Boosting VOCs elimination by coupling different techniques Rebecca El Khawaja,...Stéphane Siffert Review|Published on:30 Jun 2022 Nanostructured heterogeneous photocatalyst materials for green synthesis of valuable chemicals Yaru Li,...Ren Su Review|Published on:27 Apr 2022 See more Ongoing Special Issues Topic: Synthesis of Advanced Material for Novel Fuel Cells Prof. Yan-Xin Chen Submission Deadline: 30 Apr 2023 Published articles: 0 Submit to this Special Issue Contact Assistant Editor Topic: Celebrating the 45th Anniversary of Changzhou University - Applications and Future Prospects of Asymmetric Organocatalysis Prof. Feng Shi Submission Deadline: 31 Jan 2023 Published articles: 0 Submit to this Special Issue Contact Assistant Editor Topic: 50 Years Selenium Organic Chemistry Prof. Bao-Lian Su Submission Deadline: 31 Aug 2022 Published articles: 1 Submit to this Special Issue Contact Assistant Editor See more About The Journal ISSN 2769-5247 (Online) Publisher OAE Publishing Inc. Article Processing Charges $600 Editor-in-Chief Bao-Lian Su Publishing Model Gold Open Access Copyright Copyright is retained by author(s) Publication FrequencyQuarterlyIndexing Google ScholarDimensionsLensSHERPA/RoMEO Editorial Board See more Bao-Lian Su Alain Krief Clément Sanchez Abdullah M. Asiri Laurent Billon Jean-Luc Blin Aicheng Chen Tong-Xiang Fan Yann Garcia Giuliano Giambastiani Qian-Jun He Ren-Hua Jin Paweł J. Kulesza Sanjay Mathur Stephane Siffert Yi Tang Ying Wan Jun Xu Hai-Bo Yang Xiangdong Yao Da-Gang Yu Guangshan Zhu Aims and Scope News Chemical Synthesis is an open access peer-reviewed journal publishing original research involving all areas of the chemical sciences. The journal aims to be the premier resource of seminal and insightful research and showcases for researchers in both academia and industry, providing a platform of inspiration for the future of chemistry. Chemical Synthesis intends to serve as the preeminent international chemistry journal and has the ambition to be among the first choices of chemists for publication of their discoveries.The scope of the journal focuses on the breadth of the chemical synthetic sciences, covering fields from synthetic methodologies, property studies by theoretical calculations or instrumental approaches at molecular and/or nano levels of the obtained products (materials) to the applications in catalysis, energy conversion and storage, biomedicals, pharmaceuticals, environment protection and remediation, etc. Interview with Editor-in-Chief: Professor Bao-Lian Su Dr. Bao-Lian Su, the Editor-in-Chief of Chemical Synthesis (CS), a member of the European Academy of Sciences, and a member of the Royal Academy of Belgium, is a Full Professor of Chemistry at University of Namur, Belgium, and a Strategic Scientist at Wuhan University of Technology, China. Published on: 10 May 2022 Announcement: Chemical Synthesis Best Reviewer Award 2022 has been established! he continued success of Chemical Synthesis depends on the contributions of dedicated researchers who provide constructive and insightful feedback to help authors improve their papers. Published on: 7 May 2022 Announcement of Chemical Synthesis Most Influential Papers Award 2022 We are pleased to announce the "Chemical Synthesis Most Influential Papers Award 2022". The award is to recognize and promote high-quality contributions to academic research. Published on: 24 Apr 2022 Chemical Synthesis Is Now a Member of the Committee on Publication Ethics We are pleased to announce that the journal of Chemical Synthesis is now a member of the Committee on Publication Ethics (COPE). Published on: 24 Feb 2022 Recruitment of 25 Youth Editorial Board Members To provide young scholars with an active academic exchange platform for exchanging ideas with each other and influential experts in chemical sciences, the Editorial Office of Chemical Synthesis is now recruiting 25 global Youth Editorial Board members through self-recommendation and Editorial Board selection. Published on: 19 Nov 2021 See more Data 109 Authors 65 Reviewers 62 On Board Editors 2021 Published Since 29 Articles Published 4 Special Issues 24,983 Article Views 6,233 Article Downloads Open Archives Portico All published articles are preserved here permanently: https://www.portico.org/publishers/oae/ Membership Partners Chemical Synthesis ISSN 2769-5247 (Online) [email protected] Navigation About the Journal News Partners follow us Twitter OAE Publishing Inc. 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