Article
Chemistry, Physical
Shuai Zhang, Enhui Jiang, Ji Wu, Zhonghuan Liu, Yan Yan, Pengwei Huo, Yongsheng Yan
Summary: A novel GO/Rh-SrTiO3 nanocomposite was researched via a facile hydrothermal method, aiming to remodel the traditional wide-band-gap semiconductor SrTiO3 and improve its visible light absorption capacity and photocatalytic performance. The champion GO/Rh-SrTiO3 nanocomposite exhibited superior overall water splitting performance under visible light, achieving a hydrogen evolution rate of 55.83 μmol g(-1) h(-1) and an oxygen production rate of 23.26 μmol g(-1) h(-1). The significantly improved photocatalytic performance was mainly attributed to the heterostructure construction and increased active sites rooted in Rh metal. This work provides an effective strategy for heterostructure construction to enhance solar utilization by expanding the visible light response range of traditional UV photocatalysts.
Article
Chemistry, Physical
Guodong Shi, Pengfei Li, Fan Hu, Zhaohui Liu
Summary: This study systematically investigates the NO mechanism in syngas MILD combustion under different dilution atmospheres. It reveals that the direct and NNH routes contribute less to overall NO emission, while the thermal route only plays a minor role. The N2O-intermediate route is enhanced in CO2 and H2O atmospheres. Increasing the CO/H2 ratio and pressure can reduce NO production. This study provides important insights into the NO mechanism of syngas MILD combustion.
INTERNATIONAL JOURNAL OF HYDROGEN ENERGY
(2022)
Article
Environmental Sciences
Viktor Alexandrovich Kuznetsov, Daria Mikhailovna Bozheeva, Andrey Viktorovich Minakov
Summary: Combustion or gasification of coal in a nitrogen-free environment is a promising technology for reducing the carbon footprint. This study numerically investigates the oxy-gasification processes of pulverized coal in a CO2-H2O-O-2 environment and examines the influence of various factors on the physicochemical processes and syngas composition. The results show that increasing oxygen concentration in the blast can stabilize ignition and combustion of coal, while decreasing the excess oxygen ratio leads to increased combustible losses in the gasifier.
ENVIRONMENTAL SCIENCE AND POLLUTION RESEARCH
(2023)
Article
Chemistry, Multidisciplinary
Zhanzhao Fu, Qiang Li, Xiaowan Bai, Yuhao Huang, Li Shi, Jinlan Wang
Summary: This study introduces a simple coordination regulation method of the active site to improve the efficiency of CO2 conversion, demonstrates the excellent catalytic performance of NiN3B in CH4 conversion, and highlights the synergistic dual active sites formed between non-metal B and metal Ni atoms in catalysis.
Article
Chemistry, Multidisciplinary
Yanze Wei, Jiawei Wan, Jiangyan Wang, Xing Zhang, Ranbo Yu, Nailiang Yang, Dan Wang
Summary: La- and Rh-co-doped SrTiO3 (STO:La/Rh) hollow multishelled structures have expanded light absorption edge, improved light-harvesting capacity, and charge separation efficiency. When combined with BiVO4 nanosheets, a Z-scheme system enables stable overall water splitting under visible light and simulated sunlight, with a solar-to-hydrogen efficiency twice as high as nanoparticles.
Article
Engineering, Environmental
John S. Loring, Odeta Qafoku, Christopher J. Thompson, Ashley S. McNeill, Monica Vasiliu, David A. Dixon, Quin R. S. Miller, B. Peter McGrail, Kevin M. Rosso, Eugene S. Ilton, Herbert T. Schaef
Summary: The study found that under different CO2/CH4 ratios, different montmorillonites exhibit different swelling behaviors. CO2 facilitates the expansion of Na-clay, while CH4 cannot induce expansion. For Cs-clay, even in the absence of H2O, CO2 can cause expansion.
ENVIRONMENTAL SCIENCE & TECHNOLOGY
(2021)
Article
Chemistry, Multidisciplinary
Jie Liu, Yu Xie, Yiqiao Wang, Kai Yang, Shuping Su, Yun Ling, Pinghua Chen
Summary: This study demonstrates the synergistic effect of interface ohmic contact and localized surface plasmon resonance (LSPR) in improving the photocatalytic activity. The optimized Au/Bi24O31Br10 composite exhibits significantly enhanced photocatalytic efficiency and excellent stability.
Article
Multidisciplinary Sciences
Roksana Tonny Rashid, Yiqing Chen, Xuedong Liu, Faqrul Alam Chowdhury, Mingxin Liu, Jun Song, Zetian Mi, Baowen Zhou
Summary: The carbon-neutral synthesis of syngas from CO2 and H2O using solar energy has great potential for addressing critical issues such as global warming and the energy crisis.
PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA
(2022)
Article
Chemistry, Multidisciplinary
Xinyi Shen, Xiaokang Liu, Sicong Wang, Tao Chen, Wei Zhang, Linlin Cao, Tao Ding, Yue Lin, Dong Liu, Lan Wang, Wei Zhang, Tao Yao
Summary: This study introduces atomically dispersed Fe to tune the electronic structure of Au nanoparticles, improving CO selectivity. During the reaction, the interaction between Fe and Au atoms becomes stronger, affecting the adsorption of reaction intermediates and increasing the selectivity of CO up to 96.3%.
Article
Chemistry, Physical
Woo Jin Lee, Chaoen Li, Jim Patel
Summary: The study investigated the steam-CO2 reforming of biomass derived synthesis gas using Rh-loaded alumina foam monolith catalysts, showing that the steam concentration in the feed plays a crucial role in determining the reaction products and pathways. Higher steam concentration favored steam methane reforming and water gas shift reaction, while increasing temperature enhanced methane dry reforming and reverse-water gas shift reaction.
Article
Chemistry, Multidisciplinary
Manuel E. G. Winkler, Ricardo H. Goncalves, Adley F. Rubira
Summary: A simple strategy for obtaining copper particles deposited on oxidized graphite felt is reported, which shows promising performance for the selective conversion of CO2 and H2O to CO and H2. The study found that pH 2.0 is the most favorable for CO2RR, and Fourier transform infrared analysis revealed that this catalyst is low-cost.
Article
Chemistry, Physical
Kuan-Ting Wu, Junko Matsuda, Aleksandar Staykov, Tatsumi Ishihara
Summary: CuFe2O4 spinel is identified as a highly efficient fuel electrode for CO2/H2O co-electrolysis. By optimizing the feed gas composition, significantly enhanced electrolysis current density can be achieved. The in situ exsolution of Cu/Fe3O4 nanoparticles plays a crucial role in CO2/H2O electroreduction.
ADVANCED ENERGY MATERIALS
(2023)
Article
Green & Sustainable Science & Technology
Huiying Qi, Junfeng Zhang, Baofeng Tu, Yanxia Yin, Tonghuan Zhang, Di Liu, Fujun Zhang, Xin Su, Daan Cui, Mojie Cheng
Summary: In this study, the conversion of H2O and CO2 into fuels through H2O/CO2 co-electrolysis using solid oxide electrolysis cell was investigated. Factors affecting fuel composition, conversions, selectivity and yields were analyzed to propose solutions for improving conversion efficiency. Through suitable operating conditions, high selectivity to desired products like CH4, CO and H2 can be achieved at different temperatures.
Article
Nanoscience & Nanotechnology
Shuang Li, Jinhua Zhao, Guiyuan Liu, Linlin Xu, Yue Tian, Anxin Jiao, Ming Chen
Summary: Research has shown that supporting bimetallic Au@Ag nanoalloys on graphene oxide significantly enhances surface plasmon-enhanced photocatalysis, leading to improved photocatalytic activity under visible light. The optimal photocatalytic performance is attributed to the production of high yield hot carriers and the overgrowth of NAs improving the localized surface plasmon resonance property and pronounced photoinduced electron-transfer ability of the GO support.
Article
Thermodynamics
Srirat Chuayboon, Stephane Abanades
Summary: Solar gasification of oil palm empty fruit bunches (EFB) offers an efficient and reliable pathway for converting waste biomass into synfuel. In this study, a thermodynamic analysis was conducted to predict equilibrium product distribution, followed by experimental on-sun continuous solar gasification of EFB. The results showed that both H2O and CO2 gasifying agents were effective in the solar gasification process, with the optimal conditions being a gasifying agent/EFB molar ratio of 2.6 and a temperature of 1300 degrees C. The maximum syngas yield, carbon conversion, and solar-to-fuel energy conversion efficiency were achieved, demonstrating the feasibility and reliability of solar EFB gasification.
Article
Chemistry, Multidisciplinary
Cuncai Lv, Xianhua Bai, Shangbo Ning, Chenxi Song, Qingqing Guan, Bang Liu, Yaguang Li, Jinhua Ye
Summary: Converting CO2 into fuels or chemicals through photothermal catalysis is a promising solution for energy shortage and global warming. Understanding nanomaterial strategies in this process is crucial for device and catalyst design, as well as maximizing CO2 hydrogenation performance. This Perspective discusses nanomaterial design concepts, reviews recent progress, and highlights challenges and opportunities in photothermal CO2 hydrogenation.
Article
Chemistry, Physical
Yu Nie, Tingting Bo, Wei Zhou, Huilin Hu, Xiang Huang, Huaiyuan Wang, Xin Tan, Lequan Liu, Jinhua Ye, Tao Yu
Summary: Regulating the energy barrier of *COOH is crucial for the rate determining step in the photocatalytic reduction of CO2 to produce CO gas. In this study, an appropriate Zn vacancy on ZnIn2S4 was synthesized to enhance the photocatalytic CO2 reduction capacity (CO: 5.63 mmol g(-1) h(-1)) and selectivity (CO: 97.9%). Different sulfhydryl groups were used to regulate the formation of Zn vacancies in ZnIn2S4, leading to the generation of unsaturated sulfur coordination state adjacent to the Zn vacancy with fewer electrons compared to ZnIn2S4 without Zn vacancy. Experimental analysis and theoretical calculations demonstrated that the appropriate Zn vacancy shifted the Gibbs free energy of *COOH from endothermic to exothermic during the photoreduction of CO2. This work provides an engineering method to optimize cation vacancies and improve the efficiency of photocatalytic CO2 reduction by adjusting the energy barrier of intermediates.
JOURNAL OF MATERIALS CHEMISTRY A
(2023)
Article
Nanoscience & Nanotechnology
Wuqing Luo, An Li, Baopeng Yang, Hong Pang, Junwei Fu, Gen Chen, Min Liu, Xiaohe Liu, Renzhi Ma, Jinhua Ye, Ning Zhang
Summary: A hexagonal phase ZnS photocatalyst is synthesized and exhibits higher CO selectivity and better activity for CO2 reduction reactions compared to cubic ZnS. The study provides valuable insights into the synthesis and electronic structure of hexagonal ZnS for CO2 reduction reactions, which can inspire the design of highly active photocatalysts.
ACS APPLIED MATERIALS & INTERFACES
(2023)
Article
Chemistry, Physical
Kang Peng, Jingying Ye, Hongjie Wang, Hui Song, Bowen Deng, Shuang Song, Yihan Wang, Linjie Zuo, Jinhua Ye
Summary: This study demonstrates that Ru nanoparticles supported on natural halloysite nanotubes can enhance the photothermal catalytic activity and selectivity of CO2 methanation under continuous flow conditions. The optimized catalyst exhibits a photothermal catalytic performance of 1704 mmolCH(4) g(cat)(-1) h(-1) with 93% CH4 selectivity and 68% CO2 conversion, surpassing other Ru-based catalysts in photothermal CO2 reduction. The excellent catalytic performance is attributed to the unique mesoporous tubular structure, efficient light-to-heat conversion, and interfacial interactions between halloysite nanotubes and Ru. This method of utilizing natural minerals as support provides a convenient approach for the rational design of abundant and low-cost catalysts for efficient photothermal catalytic CO2 reduction.
APPLIED CATALYSIS B-ENVIRONMENTAL
(2023)
Article
Chemistry, Physical
Xinmin Yang, Jiwei Cui, Xiaolu Liu, Qiqi Zhang, Defa Wang, Jinhua Ye, Lequan Liu
Summary: Cocatalyst is crucial in photocatalytic overall water splitting (POWS), but it also promotes H2-O2 recombination. In this study, a strategic approach of selectively coating single-layer graphene on metal cocatalyst was developed to suppress the backward reaction for efficient POWS. The results demonstrate the effectiveness of this method and its potential in developing cocatalysts with suppressed backward reaction for efficient POWS.
APPLIED CATALYSIS B-ENVIRONMENTAL
(2023)
Article
Chemistry, Physical
Bowen Deng, Hui Song, Qi Wang, Jianan Hong, Shuang Song, Yanwei Zhang, Kang Peng, Hongwei Zhang, Tetsuya Kako, Jinhua Ye
Summary: A Ru/In2O3 catalyst is reported for efficient and stable photothermal CH3OH production from CO2 hydrogenation under atmospheric pressure. The catalyst demonstrates a remarkable solar CH3OH production, which is more than 50 times higher than that of pure In2O3 and surpasses other reported In2O3-based photothermal catalysts. Detailed characterizations show that the interaction between Ru and In2O3 enhances the activation of CO2 and H-2, and Ru modulates the electronic structure of In2O3, promoting the generation of oxygen vacancies for CH3OH formation. This work provides a rational design approach for efficient catalysts in solar CH3OH production from CO2 hydrogenation under mild conditions.
APPLIED CATALYSIS B-ENVIRONMENTAL
(2023)
Article
Multidisciplinary Sciences
Yaguang Li, Xianhua Bai, Dachao Yuan, Chenyang Yu, Xingyuan San, Yunna Guo, Liqiang Zhang, Jinhua Ye
Summary: Cu-based high-entropy two-dimensional oxide is synthesized using a PVP templated method and shows enhanced sintering resistance and CO2 hydrogenation activity. It achieves a record photochemical energy conversion efficiency in photothermal CO2 hydrogenation under ambient sunlight irradiation.
NATURE COMMUNICATIONS
(2023)
Article
Multidisciplinary Sciences
Xin Chen, Junxiang Chen, Huayu Chen, Qiqi Zhang, Jiaxuan Li, Jiwei Cui, Yanhui Sun, Defa Wang, Jinhua Ye, Lequan Liu
Summary: In this study, a strategy of promoting water dissociation on Bi2O2CO3 is reported to achieve high solar to formate energy conversion in CO2 electroreduction. The authors identify CO3* as the key surface species for formate formation through electron spin resonance measurements and in situ Raman spectroscopy combined with isotopic labelling. The efficiency of solar to formate energy conversion reaches as high as 13.3% when combined with a photovoltaic device.
NATURE COMMUNICATIONS
(2023)
Article
Chemistry, Physical
Hao Wu, Lei Zhang, Songying Qu, Aijun Du, Junwang Tang, Yun Hau Ng
Summary: Hydrogen dopants and oxygen vacancies are important in BiVO4 photoanodes, but the impact of hydrogenation on charge transport, particularly electron small polaron formation, is not well understood. This study demonstrates that mild hydrogenation of nanoporous BiVO4 reduces the charge transport barrier, as shown by thermally activating photocurrent responses. The hydrogen atoms occupy oxygen vacancies, reducing the activation energy and facilitating electron small polaron transport. A BiVO4 photoanode with NiFeOx cocatalyst achieves an applied-bias photon-to-current efficiency of 1.91% at 0.58 V vs RHE. This study expands the understanding of hydrogen doping beyond conventional donor density/surface chemisorption mediations to include small polaron hopping.
ACS ENERGY LETTERS
(2023)
Article
Chemistry, Physical
Xiaolu Liu, Xinmin Yang, Jiwei Cui, Chenhe Wu, Yanhui Sun, Xuemei Du, Junxiang Chen, Jinhua Ye, Lequan Liu
Summary: This study demonstrates the great potential of using highly stable and active Ni-based photocatalysts for photocatalytic overall water splitting (POWS). Ni nanoparticles encapsulated in a nitrogen-doped ultrathin graphene layer were found to be an active, stable, and low-cost cocatalyst for POWS. The H-2 evolution rate over this cocatalyst was significantly higher than that of typical Pt cocatalyst, and the oxidation of Ni during the reaction was effectively suppressed through N-doped graphene coating. In addition to improving charge carrier dynamics, the introduction of N reduced the apparent activation energy of POWS.
Article
Chemistry, Multidisciplinary
Hao Huang, Shengyao Wang, Xingce Fan, Davin Philo, Liping Fang, Wenguang Tu, Teng Qiu, Zhigang Zou, Jinhua Ye
Summary: Au NPs and TiO2 are integrated via a solid-state dewetting technique, and the plasmonic frequencies range from visible to NIR region. The system allows for the photofixation of N-2 to NH3 under NIR light, offering a carbon-free and sustainable strategy for NH3 production. The Au/TiO2 plasmonic photocatalyst system shows stable performance and has the potential for better utilization of solar energy for nitrogen fixation.
ACS SUSTAINABLE CHEMISTRY & ENGINEERING
(2023)
Article
Chemistry, Applied
Hong Pang, Fumihiko Ichihara, Xianguang Meng, Lijuan Li, Yuqi Xiao, Wei Zhou, Jinhua Ye
Summary: This study investigates the influence of different transition metal ions on the photocatalytic CO2 reduction using copper-doped ZnS nanocrystals as the main catalyst. It was found that Ni2+, Co2+, and Cd2+ enhanced CO2 reduction, while Fe2+ suppressed the photocatalytic activity. The modified ZnS:Cu photocatalysts demonstrated tunable product selectivity, with Ni2+ and Co2+ showing high selectivity for syngas production and Cd2+ displaying remarkable formate selectivity.
JOURNAL OF ENERGY CHEMISTRY
(2023)
Review
Chemistry, Multidisciplinary
Bin Chang, Hong Pang, Fazal Raziq, Sibo Wang, Kuo-Wei Huang, Jinhua Ye, Huabin Zhang
Summary: In this review, the recent progress and challenges in preparing C2+ products are discussed. The recent advancements in carbon-carbon coupling results and proposed mechanisms are elaborated, along with the complex scenarios involved in the initial CO2 activation process, catalyst micro/nanostructure design, and mass transfer conditions optimization. The synergistic realization of high C2+ product selectivity through catalyst design and the influence of electrolytes using theoretical calculation analysis and machine learning prediction are also proposed. The in situ/operando techniques for tracking structural evolution and recording reaction intermediates during electrocatalysis are elaborated, as well as insights into triphasic interfacial reaction systems with improved C2+ selectivity.
ENERGY & ENVIRONMENTAL SCIENCE
(2023)
Article
Chemistry, Physical
Chengcheng Zhang, Yingkui Yan, Hubiao Huang, Xinsheng Peng, Hui Song, Jinhua Ye, Li Shi
Summary: Fe@PCN-222 is an efficient and selective photocatalyst that can oxidize CH4 to liquid oxygenates at room temperature using visible light. The presence of Fe single-atoms promotes the transfer of photogenerated electrons and activates H2O2, resulting in a substantial improvement in the selectivity and activity of liquid oxygenate production.
Review
Chemistry, Physical
Long Yang, Amol U. Pawar, Ramesh Poonchi Sivasankaran, Donkeun Lee, Jinhua Ye, Yujie Xiong, Zhigang Zou, Yong Zhou, Young Soo Kang
Summary: This review focuses on the identification, conversion, reaction kinetics, pathways, and mechanisms of intermediates, as well as the efficiency and selectivity of multicarbon product formations during photocatalytic and electrocatalytic CO2 reduction. Theoretical simulations and calculations provide deeper insights into this process. Future research directions and inspirations are also included to guide the integration of catalytic systems.
JOURNAL OF MATERIALS CHEMISTRY A
(2023)
Review
Chemistry, Multidisciplinary
Dan He, Yawen Li, Fuwen Zhao, Yuze Lin
Summary: High trap density in organic solar cells leads to localized charge carriers and reduced carrier lifetime, limiting device efficiency. This feature article summarizes the recent advances of trap suppression by material design and device engineering.
CHEMICAL COMMUNICATIONS
(2024)
Review
Chemistry, Multidisciplinary
Olivier Monfort, Arshitha Madhusudhan, Martin Motola
Summary: This article presents the advantages of coupling photocatalysis and Fenton-based processes for environmental remediation and discusses their synergy. It critically examines the simultaneous triggering of these two processes and provides insights into research approaches. The study aims to enhance understanding of this complex process and highlight the potential integration of new catalysts in current wastewater treatment technology.
CHEMICAL COMMUNICATIONS
(2024)
Article
Chemistry, Multidisciplinary
Manideepa Dhar, Chittaranjan Mishra, Avijit Das, Uttam Manna
Summary: An approach of 'polymerization of monomers in its aggregated form' has been introduced to tailor the water wettability of fibrous and porous substrates, achieving hydrophobicity to superhydrophobicity transition, as well as patterned wettability. This facile chemical method provides a durable coating with adjustable and patterned wettability for various potential applications.
CHEMICAL COMMUNICATIONS
(2024)
Article
Chemistry, Multidisciplinary
Saswat Ranjan Bhoi, Chhanda Debnath, Shikha Gandhi
Summary: In this article, a novel catalytic reaction using Pd(0) and Bronsted acid is reported for the synthesis of biologically important imidazolidinone-fused N-heterocycles through redox-neutral intramolecular N-allylation of indoles and pyrroles with alkynes. This atom-economical method is applicable to a wide range of substrates and eliminates the need for leaving groups or oxidizing agents commonly used in traditional allylation reactions.
CHEMICAL COMMUNICATIONS
(2024)
Article
Chemistry, Multidisciplinary
Longkun Chen, Mingshuai Zhang, Meichen Liu, Zhuoyuan Liu, Yuetong Qiu, Zhilai Zhang, Fuchao Yu, Jiuzhong Huang
Summary: In this study, an efficient Rh(III)-catalyzed selective mono- and dual-C-H bond functionalization/cyclization with iodonium ylide as the sole coupling partner was demonstrated. Fused benzodiazepine skeletons were obtained in excellent yields, providing an improved approach to dual C-H unsymmetrical functionalization.
CHEMICAL COMMUNICATIONS
(2024)
Article
Chemistry, Multidisciplinary
Alice Kennett, Sven Epple, Gabriella van der Valk, Irene Georgiou, Evelyne Gout, Romain R. Vives, Angela J. Russell
Summary: This study presents the design and synthesis of sulfated disaccharide inhibitors based on IdoA(2S)-GlcNS(6S), which showed potent inhibition of Sulf-2. The results suggest that IdoA(2S)-GlcNS(6S) is the shortest fragment size required for effective inhibition of Sulfs, and a trisulfated disaccharide is identified as the minimal fragment size of heparan sulfate for effective endosulfatase inhibition.
CHEMICAL COMMUNICATIONS
(2024)
Article
Chemistry, Multidisciplinary
Mauro Garbini, Andrea Brunetti, Riccardo Pedrazzani, Magda Monari, Massimo Marcaccio, Giulio Bertuzzi, Marco Bandini
Summary: The self-adaptability of galvanostatic electrolysis was found to be helpful in a multistage chemo- and diastereoselective electrochemically promoted cyclodimerization of chalcones. Through a series of reductive events, densely functionalized cyclopentanes with five contiguous stereocenters were obtained (25 examples, yields up to 95%, dr values up to >20:1). Further experimental and electrochemical investigations indicated the crucial role of dynamic kinetic resolution of the aldol intermediate in the reaction mechanism.
CHEMICAL COMMUNICATIONS
(2024)
Article
Chemistry, Multidisciplinary
Dhananjay S. Nipate, Neha Meena, Prakash N. Swami, Krishnan Rangan, Anil Kumar
Summary: In this study, the synthesis of functionalized benzo[a]phenazines and indazolo[2,3-a]quinolines was achieved through Rh(III)-catalyzed oxidative annulation of 2-arylquinoxalines and 2-aryl-2H-indazoles with allyl alcohols. The method showed a wide substrate scope, excellent functional group tolerance, good to high yields of annulated products, and the capability for scaled-up synthesis. A tentative mechanism of the annulation reaction was proposed based on a preliminary mechanistic investigation.
CHEMICAL COMMUNICATIONS
(2024)
Article
Chemistry, Multidisciplinary
Ruonan Zhang, Abudukadi Tudi, Xia Yang, Xuping Wang, Zhihua Yang, Shujuan Han, Shilie Pan
Summary: A new lead tellurium borate material with a unique fundamental building block [B4O10] was synthesized and found to exhibit high birefringence. The structure-property relationship was discussed using first-principles calculations.
CHEMICAL COMMUNICATIONS
(2024)
Article
Chemistry, Multidisciplinary
Amresh Kumar Singh, Baishali Thakurta, Anupam Giri, Monalisa Pal
Summary: This study introduces three key concepts for the quick synthesis of large-scale high-quality 2D materials films and their utilization in device fabrication.
CHEMICAL COMMUNICATIONS
(2024)
Article
Chemistry, Multidisciplinary
Reina Hagiwara, Shun Nishimura, Kosuke Okeyoshi
Summary: A copolymer-conjugated nanocatalytic system has been developed to improve electron transfer and enhance photoinduced H2 generation.
CHEMICAL COMMUNICATIONS
(2024)