Weak Coordination Research Articles

HighSpin-State Modulation of Catalytic Centers by Weak Ligand Field for Promoting Sulfur Redox Reaction in Lithium-Sulfur Batteries.

The spin state of transition-metal compounds in lithium-sulfur batteries (LSBs) significantly impacts the electronic properties and the kinetics of sulfur redox reactions (SRR). However, accurately designing the spin state remains challenging, which is crucial for understanding the structure-performance relationship and developing high-performance electrocatalysts. Herein, the CoF2, specifically the Co2+ with 3d7 electrons in a high-spin state distribution (t2g5eg2), were tailored predictably for the first time through the weak coordination field effect of the F element. Both DFT calculations and experimental results confirm that the spin state of Co2+ transitions from low- to high-spin configurations and strongly interacts with sulfur species through Co-S and Li-F bonds during the SRR process. This interaction weakens the S-S bond, promoting its facile cleavage from both ends while also facilitating the rapid and uniform nucleation of Li2S2/Li2S, thus resulting in LSBs with a capacity of 447.7 mAh g-1 at 10 C rates and stable cycling for 1000 cycles, with an acceptable practical capacity of 585 mAh g-1 at a high sulfur loading mass of 10 mg cm-2. This work achieves rational control of the active Co2+ d electron state through the field effect and enriches the application of spin control to accelerate SRR in LSBs.

Evolution of Frustrated Coordination in Eutectic Electrolyte Driven by Ligand Asymmetry toward High-Performance Zinc Batteries.

Eutectic electrolytes hold promise for aqueous zinc metal batteries in sustainable energy storage chemistries, yet improvement from perspective of molecule configurational engineering are ambiguous. Herein, we propose design strategy of increasing asymmetric molecular geometry in organic ligands to regulate frustrated coordination and disordered structure for eutectic electrolytes toward enhanced zinc metal batteries. The introduced asymmetry in eutectic component gives rise to relatively weak coordination strength and configurational disorder interaction among cation-anion-ligand, leading to suppressed local aggregation, steady eutectic phase and improved Zn2+diffusion kinetics. Such highly frustrated coordination state also enables disruption of hydrogen bonding network and reinforcement of anion participation, which results in confined side reactions, decreased water activity and the formation of inorganic-enriched solid electrolyte interphase. In comparison to highly symmetric ligands, asymmetric ligand-involved eutectic electrolytes with configurational disorderdeliver high Coulombic efficiency of 99.4 %, stabilized Zn plating/stripping of 5000 h and impressive rate capability even under harsh conditions such as small N/P, low temperature. The rationale in this work advances the deep understanding of asymmetric molecular engineering in eutectic electrolytes and showcases suitability of frustrated coordination to achieve high-performance zinc metal batteries.

Construction and Evaluation of pH‐Responsive Nitrogen‐Containing Metal–Organic Frameworks as Oral Drug Carriers

ABSTRACTMetal–organic framework (MOF) is a porous material composed of metal ions/clusters and organic ligands. It has attracted much attention due to its high specific surface area, good biocompatibility, chemical modifiability, and diversity of components. Among many MOFs, zirconium‐based MOFs are particularly suitable for biological applications due to their optimal stability and low toxicity to hydrolysis. However, due to the weak coordination bonds between many metal clusters and organic ligands, most MOFs are prone to collapse in acidic environments, and the stability of MOFs as drug carriers cannot be guaranteed so that they cannot be widely used as oral drug carriers. This study synthesized the three MOFs using metal Zr ion clusters as the center and different nitrogen‐containing organic ligands, which are stable in gastric acid, namely, UiO‐66‐PDC, UiO‐66‐NH2, and UiO‐66‐NO2. The anionic drug loxoprofen (LOX) was loaded and characterized using scanning electron microscopy, infrared spectroscopy, thermogravimetric analysis, differential scanning calorimetry, and x‐ray diffraction. The adsorption and release behaviors of LOX and the three MOFs were studied from the molecular point of view by computer simulation. A series of behaviors and mechanisms of pH‐responsive nitrogen‐containing MOFs as oral drug carriers were further explored through rat pharmacokinetic experiments, the everted gut sac experiments, and intestinal absorption mechanism experiments. The experimental results show that there is a strong electrostatic interaction between anionic drug LOX and UiO‐66‐PDC under simulated gastric acid environment, which prolongs the half‐life of the drug, proving that LOX@UiO‐66‐PDC is a promising new oral drug delivery system.

Cost-Effective Acetonitrile-Based Precursor Solution Mitigates Heterogeneous Nucleation for Efficient and Stable Perovskite Solar Cells.

Solution-processing is the primary method for fabricating high-efficiency perovskite solar cells (PSCs), where solvent choice critically influences film formation and quality. Although additives can optimize film formation dynamics by balancing nucleation and growth of perovskite, they can also induce heterogeneous nucleation due to competitive coordination and varying crystallization kinetics, leading to compositional heterogeneity and structural disorders. Herein, a perovskite precursor solution is developed using acetonitrile (ACN) as a weak coordination host solvent instead of the traditional N,N-dimethylformamide (DMF). The ACN-based perovskite precursor solution reduces heterogeneous nucleation typically caused by the competitive coordination effect of DMF, and cuts costs by half compared to DMF-based precursor solutions. This approach promotes a single crystallization pathway via a dimethyl sulfoxide-solvated intermediate phase to α-FAPbI3, which extends the anti-solvent operation window, and enhances the crystallinity of perovskite films, and reduces defect states. The power conversion efficiencies (PCE) of 23.62% and 20.13% is achieved for the PSC and minimodule, respectively. The PSC retains over 97% of its initial efficiency after 800h of continuous illumination under maximum power point tracking (MPPT). These findings provide valuable insights into solvent interactions in perovskite film formation and offer a cost-effective strategy for improving the device's performance and stability.

A Literature Review of Transportation Logistics Policy Models in the Nusantara Capital City Region to Support National Economic Growth

The purpose of this study is to review and analyze several previous studies theoretically related to 1) The impact of Logistics Transportation Policy and spillover effects on National Economic Growth, 2) Some problems from the implementation of the Logistics Transportation Policy in a region, 3) Logistics Transportation Policy Model that can support National Economic Growth. The method used uses qualitative research, exploratory or interpretative systems with a systematic deductive process (Top-Down), guided by some empirical evidence obtained from the author's experience in the field of transportation and logistics, as well as qualitative interactions with several stakeholders and previous research. The results found are 1) in some countries, logistics policies have succeeded in having a positive impact on regional and national economic growth, 2) the ineffectiveness of a logistics policy is caused by high logistics costs, dysfunctional systems, unsupportive regulations, unsupportive human resources and infrastructure and weak coordination between stakeholders, and 3) a transportation logistics policy model that supports national economic growth must be able to involve stakeholders so that it can have a multiplier effect on the economic sector and national economic growth.

Integrating Sustainable Development Goals in local plans: Unlocking practices and challenges of local governments in Nepal

Local governments are pivotal in the implementation of sustainable development initiatives. However, the integration of the Sustainable Development Goals (SDGs) into local plans remains a significant challenge. In Nepal, there is an increasing recognition of the need to align local plans with the SDG framework to achieve holistic and inclusive development. This study explores the practices and challenges faced by local governments in integrating the SDGs into their plans, programs, and budgets. The qualitative case study method was adopted as a mode of inquiry. The findings reveal that local governments have yet to fully incorporate the SDG framework directly into their plans, programs, and budgets. They have yet to recognize the benefits of localization in effectively implementing and achieving the SDGs. Local governments face several challenges, including a lack of ownership, limited financial resources, insufficient SDG-friendly data, lack of institutional capacity, and weak coordination and cooperation. Despite these challenges, some local governments have formulated SDG-friendly periodic plans, while others are in the process of doing so. This study sheds light on the shift from an indirect to a direct approach in integrating the SDGs into local plans, programs, and budgets. This paper contributes to on-going efforts to promote sustainable development in Nepal by offering valuable insights to those involved in formulating and implementing local plans.

Revealing dynamic goals for university’s sustainable development with a coupling exploration of SDGs

The sustainability of universities is important to realize global SDGs. However, there is a lack of research on the internal dynamic relationship of the SDGs in universities. This study aims to deep tap the dynamic mechanism and scientific core connotation of the relationship among the environmental, economic, and social dimensions in the sustainable development of the top 100 universities ranked by the Times Higher Education Impact Rankings, in order to point out the specific action direction in line with their characteristics. This study adopts coupling model, Sustainable Development Triangle model, and Grey Relational Analysis to learn the development system and the main development dynamic goals of universities on five continents. The results show that the development of the top sustainable universities in the five continents is very uneven with three echelons of development in the world. Although the sustainability quality in the world has improved year by year, the sub-quality of sustainability of the top universities on each continent is obviously different. The sustainable coupling degrees of the top universities of the five continents are increasing, but the overall coupling strength is not high. The development of coupling is at the level of weak coordination. SDG12 is the main dynamic goal for the top universities in Asia and America, SDG6 is for Europe and Oceania, and SDG3 is for Africa.

The Self‐Expanding Frame of Graphydiyne Induces Rapid Transport of Lithium Ions in All‐Solid‐State Lithium Metal Batteries

AbstractLow ionic conductivity hinders the practical application of solid polymer electrolytes. Here, an interface‐oscillating polymer electrolyte (IOPE) based on graphdiyne (GDY) is designed and prepared to enable high‐performance all‐solid‐state lithium (Li) metal batteries (ASSLMBs). The affinity of GDY to Li ions induces the competitive adsorption of Li ions, weakens the coordination ability of Li ions with electron‐rich oxygen (on ethylene oxide), and accelerates the Li‐ion migration kinetics. The weak coordination between Li+‐acetylene greatly promotes the rapid reversible transition of GDY itself, resulting in strong self‐expanding/shrinking of the GDY skeleton and the GDY/polymer interface oscillation, and the reduction of the Li‐ion diffusion energy barrier at the interfaces. Consequently, the as‐prepared IOPE shows significantly improved Li‐ion conductivity (1.5 × 10−4 S cm−1 at 35 °C) and transference number, as well as excellent stability toward Li metal anodes. The ASSLMBs assembled with LiFePO4 cathodes and IOPE exhibit excellent rate and cycling performance, capable of stable operation for more than 250 cycles with a high‐capacity retention of 98% at 0.1C (1C = 170 mA g−1). The high‐performance all‐solid‐state Li metal pouch cells are also demonstrated to show great potential for the practical application of IOPE.

Encapsulating Azolates Within Cationic Metal-Organic Frameworks for High-Energy-Density Materials.

Despite the synthesis of numerous cationic metal-organic frameworks (CMOFs), their counter anions have been primarily limited to inorganic Cl-, NO3 -, ClO4 -, BF4 -, and Cr2O7 2-, which have weak coordination abilities. In this study, a series of new CMOFs is synthesized using azolates with strong coordination abilities as counter anions, which are exclusively employed as ligands for coordinating with metals. Owing to the unique nitrogen-rich composition of azolates, the CMOFs demonstrate significant potential as high-energy-density materials. Notably, CMOF(CuTNPO) has an exceptionally high heat of detonation of 7375kJ kg-1, surpassing even that of the state-of-art CL-20 (6536kJ kg-1). To further validate the advantages of employing azolates as counter anions, analogues with azolates serving as ligands are also synthesized. The comparison study indicates that encapsulating azolates within the cationic frameworks confers both high energy and safety properties. X-ray data and quantum calculations indicate that their enhanced performance stems from stronger H─bonds and π-π interactions. This study introduces new roles for azolates in MOFs and expands possibilities for structural diversity and potential applications of framework materials.

Efektivitas Pengawasan Pemerintah terhadap Perizinan Tenaga Kerja Asing Menurut UU No. 13 Tahun 2003: Analisis Yuridis Normatif

Ideally, government supervision of foreign worker (TKA) permits, in accordance with Law No. 13 of 2003, should be carried out optimally to prevent violations. However, in reality, there are still many violations in the field, highlighting a gap between legal provisions and implementation. Issues arising from this gap include a lack of labor inspectors and weak coordination with relevant agencies, leading to the proliferation of illegal foreign workers. This study aims to analyze the effectiveness of TKA permit supervision from a normative juridical perspective. This article falls under the category of literature research with a qualitative approach. The methodology used is a normative legal study of labor-related regulations. The results of the study conclude that although regulations provide a strong legal foundation, the implementation of supervision in the field still needs to be improved through the enhancement of human resource capacity and inter-agency coordination to achieve the desired effectiveness.

Boron-containing cross-linker assisted single-ion conducting polymer electrolytes for high-performance and dendrite-free Li-metal batteries

Nowadays, single-ion conducting polymer electrolytes for high efficiency, stable, safe and dendrite-free Li-metal batteries are in great need to protect lithium metal anode. In this work, a boron-containing single-ion polymer electrolyte (BSPE), prepared by the copolymerization of allyl diglycol carbonate (ADC), lithium bis((trifluoromethyl)sulfonyl)amide (LiTFSI), and diisopropyl allylboronate (DPAB). The weak coordination interaction between Li+ and polar carbonate enhances Li+ transport ability. Further, the boron-containing cross-linker fixes the counter anions on the polymer backbones, limiting the movement of the anions and promoting the rapid and uniform Li+ transference. The BSPE with 3 wt% DPAB exhibits higher Li+ transference number (t+ = 0.77) and better ionic conductivity (1.36 × 10−4 S cm−1 at 25 °C) compared with that without DPAB. The wider electrochemical window (5.6 V vs. Li+/Li), stable polarization and suppressed lithium dendrites during the plating/stripping cycle at a current density of 0.2 mAcm−2 for 600 h provide the metal-lithium batteries with better safety and higher efficiency. In addition, the initial discharge capacity of LiFePO4/BSPE/Li is 140.7 mAh g−1 with 95.2 % coulombic efficiency, and the capacity retention still remains 98.7 % after 200 cycles at 0.1C. The excellent performance endows the BSPE with the potential application in high-performance lithium metal batteries.

Functionalized Phosphorus‐Doped Porous Organic Polymers (FPPOPs)‐Promoted Pd‐Catalyzed Arylation of Hydrosilanes

The development of novel catalyst systems, especially as highly efficient heterogeneous catalysts for Si‐C bond ‐forming arylation reaction of hydrosilanes is highly desirable. Herein, we developed a simple and eco‐friendly methodology for construction of functionalized phosphorus‐doped porous organic polymers (FPPOPs) and its heterogeneous palladium catalyst through anchoring on FPPOPs bearing a phosphine ligand, in which the fabrication of FPPOPs was completed through the vinyl‐substituted triphenylphosphine (ViPPh3) and vinyl‐substituted polyhedral oligomeric silsequioxane (ViPOSS) as well as functional olefins via radical co‐polymerization. All these FPPOPs could act as a phosphine ligand for Pd‐catalyzed arylation of hydrosilanes have been characterized by SEM, FTIR, and X‐RAD. Moreover, the POSS‐based functionalized phosphorus‐doped porous organic polymers (POSS‐PPOPs) proved to be a high efficiency catalyst system for Si‐C bond ‐forming arylation of hydrosilanes with aryl iodides and with good yields as well as excellent chemoselectivity with low amount of catalyst under mild conditions. The mechanistic studies supported the effect of functional group on the catalytic activity of Pd/FPPOPs catalyst, which revealed that the weak coordination as well as non‐covalent interaction between porous organic polymers and substrate played important role in the enhancement of chemoselectivity.

The transformation of 20-year social participation policies of older people in China: Network analysis and text analysis.

Social participation of older adults is a crucial component of China's aged care services and an important strategy for actively addressing the aging population. Analyzing policy texts on older people's social participation can inform future policy formulation and the development of relevant programs. This study aims to quantitatively analyze the transformation of China's social participation policies for older people from 1999 to 2023, employing institutional network analysis and policy text analysis. A two-dimensional policy analysis framework was constructed based on the perspective of "policy tools and social participation stages." Using Rost Content Mining 6.0 and Nvivo 11.0 Plus software, 55 national-level policy texts were coded. Structural analysis of policy-issuing subjects and topic words was conducted to visualize the findings. The analysis revealed that the policy-issuing subjects demonstrated strong authority but weak coordination, with a lack of communication and cooperation across subjects. The use of policy tools was imbalanced, with an over-reliance on supply-type tools and insufficient use of demand-type tools. Additionally, the lack of effective policy tools to support various social participation stages has limited policy implementation. With technological advancement and changing needs of the elderly population, there is a need for a more systematic and forward-looking top-level design of elderly social participation policies: accelerating the systematization and precision of technological elements in policies for elderly social participation, integrating social organizations via technological platforms to mobilize diverse stakeholder engagement, and addressing the digital divide between the elderly and new technologies is imperative.

Problems of the Formulation of Asset Forfeiture Resulting from Corruption Crimes: A Comparative and Conceptual Study

Corruption in Indonesia has long been a severe transnational issue requiring appropriate handling. Although Law No. 31 of 1999 and Law No. 20 of 2001 on the Eradication of Corruption have provided a legal basis for combating corruption, weaknesses remain in their implementation. This study aims to evaluate the effectiveness of these laws by employing a legislative approach and analyzing the opinions of scholars. The primary focus of this research is on asset confiscation resulting from corruption, as regulated by the Anti-Corruption Law, which serves as a key instrument in combating corruption. The findings indicate that unclear legal norms and weak coordination among law enforcement agencies still hinder the implementation of asset confiscation. The conclusion of this study emphasizes the need for regulatory improvements and enhanced coordination among institutions to maximize the effectiveness of asset confiscation in efforts to eradicate corruption in Indonesia

Problems of the Formulation of Asset Forfeiture Resulting from Corruption Crimes: A Comparative and Conceptual Study

Corruption in Indonesia has long been a severe transnational issue requiring appropriate handling. Although Law No. 31 of 1999 and Law No. 20 of 2001 on the Eradication of Corruption have provided a legal basis for combating corruption, weaknesses remain in their implementation. This study aims to evaluate the effectiveness of these laws by employing a legislative approach and analyzing the opinions of scholars. The primary focus of this research is on asset confiscation resulting from corruption, as regulated by the Anti-Corruption Law, which serves as a key instrument in combating corruption. The findings indicate that unclear legal norms and weak coordination among law enforcement agencies still hinder the implementation of asset confiscation. The conclusion of this study emphasizes the need for regulatory improvements and enhanced coordination among institutions to maximize the effectiveness of asset confiscation in efforts to eradicate corruption in Indonesia

Compliance with MAB-UNESCO Functions and Management Effectiveness Evaluation between 2017 and 2024: Case Study of the El Cielo Biosphere Reserve, Mexico’s Only State-Run Reserve Belonging to MAB-UNESCO

UNESCO’s MAB Programme promotes a people-centered conservation strategy to strengthen the sustainability of social and ecological systems. However, there exist knowledge gaps regarding its implementation in specific contexts. For this study, a mixed-methods sequential exploratory design was employed. In the first phase, an initial content analysis of the management program of the El Cielo Biosphere Reserve (CBR) and the functions of the statutory framework of UNESCO’s MAB program was conducted. This analysis, which was human-driven but facilitated by artificial intelligence tools, underwent rigorous triangulation and expert validation to strengthen the reliability and robustness of the findings. Subsequently, the Management Effectiveness Tracking Tool (METT3) was issued to researchers, community members, civil servants, and former civil servants related to the management of the CBR. The 2024 results (n = 15) were contrasted with those obtained in 2017 (n = 15) using a quantitative approach consisting of descriptive, non-parametric, and Bayesian statistical techniques. We identified some problems in the implementation of the MAB-UNESCO Programme in the CBR, mainly due to the outdated management program and lack of effective governance, as well as the lack of understanding of the implications of being a MAB-UNESCO biosphere reserve. A numerical trend of deterioration in the effectiveness of the CBR’s management was detected, with overall ratings of 44.78% and 29.62% in 2017 and 2024, respectively. This was associated with a lack of regulation, weak coordination among key actors, and a progressive reduction in funding. The findings of this study are useful to guide the transition of the CBR towards a conservation model that responds to current problems and contributes to the advancement of knowledge on the implementation of the MAB Programme in specific contexts.

Institutional Management Competence for Addressing Illegal Wildlife Trade: Insights from Uruguay.

The illegal wildlife trade (IWT) is a global phenomenon that adversely affects biodiversity and human well-being. Understanding how institutions manage this trade is crucial for reducing its negative impacts. Latin America has the fewest IWT studies globally; thus, science in support of more effective institutional management of IWT is limited. This study aims to bridge the researcher-practitioner gap by providing applicable results and involving control institutions. To this end, we examine the strengths and weaknesses of Uruguay's institutions in addressing this issue, introducing the concept of institutional management competence to the knowledge base about IWT. Based on this case study, we aimed to generate inputs to guide policymakers in achieving better control of the IWT, contributing to reduce the researcher-practitioner gap. From an interdisciplinary perspective that articulates qualitative and quantitative methods, the study presents the following results: (a) Uruguay's network for addressing illegal wildlife trade involves numerous institutions whose articulation has a high degree of informality; (b) these institutions address different stages of trafficking based on their roles, jurisdiction, and engagement; (c) main weaknesses include insufficient state-level prioritisation, weak institutional coordination, inadequate training, insufficient infrastructure, space and personnel to handle the volume of seized animals, lack of proper facilities for seized animals, and a need for better-organised information. Our results help shed light on the IWT management structures in Uruguay and identifies where direct improvements can be made to strengthen the institutional responses to global IWT.

By Introducing Multiple Hydrogen Bonds Endows MOF Electrodes with an Enhanced Structural Stability.

Recently, metal-organic frameworks (MOFs) have attracted great interest in energy storage areas. However, the poor structural stability of MOFs derived from weak coordination bonds limits their applications. Here, quadruple hydrogen bonds (H-bonds) were introduced onto the MOFs to enhance their structural stability. Cross-linked networks could be formed between molecules owing to multiple H-bonds, strengthening the framework stability. Moreover, the dynamic reversibility of H-bonds could endow MOFs with self-healing ability. Furthermore, due to lower binding energy compared to coordination bonds, H-bonds break preferentially when subjected to internal stress, thus protecting the MOFs. Consequently, the as-prepared self-healing hybrid (SHH-Cu-MOF@Ti3C2TX) exhibited high capacitance retention (89.4%) after 5000 cycles at 1 A g-1, while that hybrid without dynamic H-bonds (H-Cu-MOF@Ti3C2TX) presented a 79.9% retention, delivering an enhancement in cycling stability. Moreover, an asymmetric supercapacitor (ASC) was fabricated by employing SHH-Cu-MOF@Ti3C2TX and activated carbon (AC) as the electrodes. The ASC delivered a specific capacitance (47.4 F g-1 at 1 A g-1), an energy density (16.9 Wh kg-1), and a power density (800 W kg-1) as well as good rate ability (retains 81% of its initial capacitance from 0.2 A g-1 to 5 A g-1).

Analysis Of Public Policy Process In The Context Of Serang City Development

Serang City as the capital of Banten Province continues to grow rapidly. Development in various fields continues to be carried out to improve the welfare of the community. However, the development process cannot be separated from various problems, one of which is related to the public policy process. This research aims to analyse the public policy process in the context of the development of Serang City. The analysis is conducted on the three main stages of public policy, namely agenda setting, formulation, implementation, and evaluation. The results show that the public policy process in Serang City still has some weaknesses, such as the lack of community participation, weak coordination between SKPD, and not optimal evaluation system. Based on the research results, several steps are recommended to improve the public policy process in Serang City, such as increasing community participation, strengthening coordination between SKPD, and improving the evaluation system.

Cirebon Regency’s National Commission for Child Protection’s role in handling sexual violence against children

Sexual violence against children is a violation of human rights that has a long-term traumatic impact. The phenomenon of increasing cases of sexual violence against children has become a global problem that requires serious attention. This increase continues to occur in various regions, including Cirebon Regency. The role of the Regional Indonesian Child Protection Committee (KPAID) of Cirebon Regency in handling this case is very important. This study analyzes the role of KPAID Cirebon in overcoming sexual violence against children, identifies the factors that cause an increase in child sexual violence, and examines the role of KPAID Cirebon Regency in dealing with child sexual violence cases, focusing on prevention, case handling, and challenges faced. This study uses a qualitative method with a case study approach. Data was collected through in-depth interviews with the Chairman of the Cirebon Regency KPAID, the victim's family, and other related parties. The results of the study show that KPAID Cirebon Regency plays an active role in receiving reports, providing legal and psychological assistance and advocating to protect the rights of victims. However, KPAID faces challenges that affect its effectiveness in carrying out its role, such as limited resources, lack of public awareness and weak coordination between institutions. And this phenomenon continues to increase supported by many external and internal factors such as environmental factors and the victim's own family factors.