Article
Materials Science, Multidisciplinary
Haihua Zhang, Jiannian Yao, Hongbing Fu
Summary: Atomically thin monolayer Mn2+-alloyed 2D Ruddlesden-Popper perovskite colloidal quantum wells show efficient tunable emitter with wide color gamut. By precisely controlling the chemical compositions, dual color emissions and single-component white emitter with high PLQY are achieved, demonstrating great potential for next generation lighting and display technologies.
ADVANCED OPTICAL MATERIALS
(2021)
Article
Chemistry, Multidisciplinary
He Zhang, Dong-Qing Lin, Yang-Cheng Wang, Zhu-Xin Li, Shu Hu, Lei Huang, Xin-Wen Zhang, Dong Jin, Chuan-Xiang Sheng, Chun-Xiang Xu, Ling-Hai Xie
Summary: Ultrathin 2D organic nanosheets with high luminescence efficiency and flexibility were successfully prepared through the modulation of molecular packing. These ultrathin nanosheets were self-organized into large-scale flexible films and exhibited electroluminescence performances. They provide a new avenue for the realization of flexible electrically pumping lasers and intelligent quantum tunneling systems.
Article
Chemistry, Multidisciplinary
Johannes Menath, Reza Mohammadi, Jens Christian Grauer, Claudius Deters, Maike Boehm, Benno Liebchen, Liesbeth M. C. Janssen, Hartmut Loewen, Nicolas Vogel
Summary: 2D colloidal crystallization is a simple strategy for producing defined nanostructure arrays over large areas. The study introduces a loudspeaker setup for the acoustic crystallization of 2D colloidal crystals at liquid interfaces, which increases the average grain size significantly. The process is optimized using frequency and amplitude of sound waves, and computer simulations show the mechanisms behind defect removal. The experimentally simple process provides access to highly defined nanostructure arrays for various research communities.
ADVANCED MATERIALS
(2023)
Article
Multidisciplinary Sciences
Patrick Loch, Dominik Schuchardt, Gerardo Algara-Siller, Paul Markus, Katharina Ottermann, Sabine Rosenfeldt, Thomas Lunkenbein, Wilhelm Schwieger, Georg Papastavrou, Josef Breu
Summary: In order to fully utilize layered materials for various applications, they need to be delaminated into functional nanosheets. Delamination via repulsive osmotic swelling, which is driven by thermodynamics, allows obtaining nematic liquid crystals consisting solely of single-layer nanosheets. However, this mechanism has been limited to only a few compounds. This study presents a scalable, eco-friendly, and complete delamination method, extending this mechanism to the class of layered zeolites.
Article
Chemistry, Physical
Yimo Qin, Kui He, Beibei Chen, Zhiheng Ji, Juan Wang
Summary: This study presents an electrochemical nitrite sensor using an ultrathin 2D/2D hematene/GO nanohybrid that has a few nanometers of thickness and face-to-face contact. The sensor exhibits remarkable electrochemical sensing performance towards nitrite, with a linear response up to 1000 μM and a low detection limit of 2 μM. It also demonstrates good selectivity, stability, and reproducibility, and successfully detects nitrite in various water samples.
APPLIED SURFACE SCIENCE
(2023)
Article
Chemistry, Multidisciplinary
Yuqiao Wang, Chuanyong Jian, Wenting Hong, Wei Liu
Summary: A new scalable strategy for synthesizing nonlayered ultrathin two-dimensional molybdenum nitride on a SiO2/Si substrate has been reported. The edge of MoN demonstrates higher performance in both acidic and alkaline solutions compared to the basal plane.
CHEMICAL COMMUNICATIONS
(2021)
Article
Chemistry, Physical
Yujie Li, Yuanyuan Liu, Danning Xing, Jiajia Wang, Liren Zheng, Zeyan Wang, Peng Wang, Zhaoke Zheng, Hefeng Cheng, Ying Dai, Baibiao Huang
Summary: The research found that BiVO4 ultrathin nanosheets can simultaneously disintegrate pure water into hydrogen and oxygen under simulated solar light irradiation without sacrificial reagents. A novel 2D/2D BiVO4/Ti3C2 composite was successfully synthesized through electrostatic interaction, showing higher photoexcited carrier transfer and separation efficiency for remarkable photocatalytic overall water splitting activity.
APPLIED CATALYSIS B-ENVIRONMENTAL
(2021)
Article
Environmental Sciences
Yongchao Bao, Yicai Liu, Zishang Zhang, Junkai Pan, Xiaoya Li, Botao Zhao, Runyu Wang, Juan Liu
Summary: In this article, a novel 2D/2D ultrathin Ti3C2/SnS2 Schottky heterojunctions have been prepared and characterized. Compared with single SnS2, 3% Ti3C2/SnS2 displayed better photocatalytic activity with a removal rate and kinetic rate constant about 2.7 times and 87.7% higher than bare SnS2, respectively.
Article
Chemistry, Multidisciplinary
Huajie Huang, Di Xiao, Zihan Zhu, Chi Zhang, Lu Yang, Haiyan He, Jungmok You, Quanguo Jiang, Xingtao Xu, Yusuke Yamauchi
Summary: In this study, a novel 2D/2D heterojunction was designed and fabricated by growing ultrathin Pd nanosheets on the surface of MXene. The resulting heterojunction showed exceptional catalytic properties for methanol oxidation, with a large electrochemically active surface area, high mass and specific activities, and a long operating life. Theoretical simulations revealed strong electronic interactions between the Pd nanosheet and MXene, which improved the adsorption energy of the Pd component and reduced its susceptibility to CO poisoning.
Article
Chemistry, Multidisciplinary
Huajie Huang, Di Xiao, Zihan Zhu, Chi Zhang, Lu Yang, Haiyan He, Jungmok You, Quanguo Jiang, Xingtao Xu, Yusuke Yamauchi
Summary: This study presents the rational design and controllable fabrication of a novel 2D/2D heterojunction consisting of ultrathin Pd nanosheets grown on the MXene surface, which exhibits superior catalytic performance for methanol oxidation compared to traditional catalysts. The heterojunction possesses an optimized electronic structure and intimate Pd/MXene interfacial interaction, resulting in enhanced stability and activity.
Article
Chemistry, Physical
Zahid Nazir, Yingzhuo Lun, Jialu Li, Gaoling Yang, Mingrui Liu, Shuqi Li, Gang Tang, Guofeng Zhang, Jiawang Hong, Liantuan Xiao, Haizheng Zhong
Summary: Twist provides a new degree of freedom for nanomaterial modifications, which can lead to novel physical properties. By combining experiments and theoretical analyses, the length-dependent relationships between surface energy and twist have been established, with a critical lateral dimension of 30 nm. The geometric asymmetry of twisted nanoplatelets allows for a dissymmetry factor of up to 0.334, and quantum coupling occurs in middle-twisted nanoplatelets. This work deepens our understanding of the twist mechanism of 2D nanoplatelets and opens up possibilities for twistronics and quantum technology applications.
Article
Chemistry, Multidisciplinary
Lei Yin, Ruiqing Cheng, Yao Wen, Baoxing Zhai, Jian Jiang, Hao Wang, Chuansheng Liu, Jun He
Summary: Copper chalcogenides, with unique crystal structures and properties, are promising materials for various applications. In this study, ultrathin copper chalcogenide nanosheets were successfully synthesized and their memristive behavior was investigated for the first time. The results showed that these nanosheets exhibited small switching voltage, fast switching speed, high switching uniformity, stable retention, and good cyclic endurance.
ADVANCED MATERIALS
(2022)
Article
Chemistry, Multidisciplinary
Jose Martin-Roca, Manuel Horcajo-Fernandez, Chantal Valeriani, Francisco Gamez, Fernando Martinez-Pedrero
Summary: The quality of two-dimensional colloidal crystals can be improved by adjusting interparticle interactions through magnetic field pulses.
Article
Chemistry, Multidisciplinary
Yuemei Wang, Wei Feng, Meiqi Chang, Jiacai Yang, Yuedong Guo, Li Ding, Luodan Yu, Hui Huang, Yu Chen, Jianlin Shi
Summary: 2D monoelemental nanomaterials (Xenes), particularly bismuthene, have shown great potential for versatile biomedical applications due to their unique optical performance, high biocompatibility, stability, and relatively low cost. A novel strategy to intercalate and delaminate bulk bismuth for generating few-layered 2D bismuthene has been proposed, enabling applications in photonic cancer nanomedicine settings such as photothermal hyperthermia and photodynamic therapy. The research also explores the use of bismuthene for dual photonic therapy under the guidance of multimodal imaging techniques.
ADVANCED FUNCTIONAL MATERIALS
(2021)
Article
Mechanics
Rajkumar Biswas, Debasish Saha, Ranjini Bandyopadhyay
Summary: This study investigates the settling dynamics of falling spheres in Laponite suspensions through experiments and mathematical modeling, revealing that larger diameter balls fail to reach terminal velocity. The proposed mathematical model accurately predicts the time dependence of ball velocity and allows estimation of the rates of destructuring of the thixotropic suspensions.
Article
Chemistry, Multidisciplinary
Ang Li, Yuyan Zhang, Christopher J. J. Heard, Kinga Golabek, Xiaohui Ju, Jiri Cejka, Michal Mazur
Summary: The silanol-rich layered zeolite IPC-1P is used to stabilize ultra-small Rh nanoparticles, preventing sintering at high temperatures. Different architectures, such as microporous and mesoporous, can be prepared by adjusting IPC-1P interlayer space through swelling.
ANGEWANDTE CHEMIE-INTERNATIONAL EDITION
(2023)
Article
Chemistry, Physical
Dmitry Kogolev, Oleg Semyonov, Nadezhda Metalnikova, Maxim Fatkullin, Raul D. D. Rodriguez, Petr Slepicka, Yusuke Yamauchi, Olga Guselnikova, Rabah Boukherroub, Pavel S. S. Postnikov
Summary: We propose utilizing laser-assisted carbonization of surface-grown UiO-66 to diversify the upcycling of waste PET into materials with enhanced photothermal properties. A solvo-thermal procedure was used to form a homogeneous UiO-66 layer on recycled PET sheets. Treatment with a 405 nm laser system enabled the formation of a carbonaceous layer with improved electrical conductivity and photothermal properties due to the presence of zirconium carbide and graphene. This approach presents new possibilities for the application of upcycled PET-based materials.
JOURNAL OF MATERIALS CHEMISTRY A
(2023)
Article
Chemistry, Physical
Mohammed G. Kotp, Nagy L. Torad, Johann Luder, Ahmed A. M. El-Amir, Watcharop Chaikittisilp, Yusuke Yamauchi, Ahmed F. M. EL-Mahdy
Summary: In this study, two novel phenazine-based CMPs, TPT-QP CMPs and Py-QP CMPs, were successfully synthesized through the Suzuki coupling condensation reaction. These CMPs have high surface areas and good thermal stabilities. TPT-QP CMPs, in particular, have abundant hydrogen-bonding sites and demonstrate high sensitivity and selectivity in detecting sub-ppm levels of volatile acidic hydrocarbons. Additionally, a quartz crystal microbalance (QCM) sensor based on TPT-QP CMPs was fabricated for the first time, showing excellent performance in detecting trace amounts of formaldehyde.
JOURNAL OF MATERIALS CHEMISTRY A
(2023)
Article
Chemistry, Physical
Ruijing Xin, Minjun Kim, Ping Cheng, Aditya Ashok, Silvia Chowdhury, Teahoon Park, Azhar Alowasheeir, Md Shahriar Hossain, Jing Tang, Jin Woo Yi, Yusuke Yamauchi, Yusuf Valentino Kaneti, Jongbeom Na
Summary: Hierarchically porous bimetallic zeolitic imidazolate framework (ZIF) particles (etched Zn33Co67-ZIF) were designed and prepared through an ethylene glycol-assisted aqueous etching method, which effectively increased their pore size and surface area. After thermal treatment, the etched Zn33Co67-ZIF particles transformed into cobalt and nitrogen co-doped hierarchically porous carbon (etched Zn33Co67-C), which exhibited increased mesoporosity and specific capacitance compared to the unetched one. The presented ethylene glycol-assisted aqueous etching process provides a facile template-free strategy for improving the energy storage performance of MOFs and their corresponding porous carbons.
JOURNAL OF MATERIALS CHEMISTRY A
(2023)
Article
Chemistry, Inorganic & Nuclear
Wieslaw J. Roth, Takayoshi Sasaki, Karol Wolski, Barbara Gil, Szczepan Zapotoczny, Jiri Cejka, Martin Kubu, Michal Mazur, Yasuo Ebina, Nobuyuki Sakai, Dai-Ming Tang, Renzhi Ma
Summary: This article introduces a soft-chemical treatment method that can exfoliate layered zeolite MFI into nanosheets, which can be used for the synthesis of layer-based hierarchical and nanocomposite materials. The obtained nanosheets have uniform hydrated thickness and can be reassembled into self-standing discs or films, preserving high acid site concentration and porosity. The oriented MFI films formed by this method can be applied in catalysis and separations.
INORGANIC CHEMISTRY FRONTIERS
(2023)
Review
Chemistry, Multidisciplinary
Chao Liu, Yifan Liu, Renzhi Ma, Takayoshi Sasaki, Xin Wang, Pan Xiong, Junwu Zhu
Summary: Two-dimensional (2D) nanosheets derived from layered parent crystals have great potential in energy applications due to their unique 2D features. Improving the performance of pristine 2D nanosheets is crucial, and cation-vacancy engineering is an effective method. This review summarizes recent progress in atomic cation-vacancy engineering of various 2D nanosheets and discusses their superior electrochemical performances in energy-related applications.
MATERIALS CHEMISTRY FRONTIERS
(2023)
Article
Chemistry, Applied
Karolina Ogorzaly, Gabriela Jajko, Aleksandra Korzeniowska, Michal Mazur, Ang Li, Wieslaw J. Roth, Barbara Gil, Waclaw Makowski
Summary: The efficient delamination of zeolite MCM-56 to produce colloidal suspensions of MWW monolayers in the liquid phase opens up new possibilities for zeolite catalyst synthesis. This study explores the use of MWW monolayers to prepare silica-supported zeolite nanosheet catalysts for large organic molecule transformations. The synthesized materials showed promising catalytic properties, with high specific catalytic activity despite the presence of a high content of inactive amorphous silica support.
JOURNAL OF POROUS MATERIALS
(2023)
Article
Chemistry, Multidisciplinary
Qiudi Yue, Gwladys Steciuk, Michal Mazur, Jin Zhang, Oleg Petrov, Mariya Shamzhy, Mingxiu Liu, Lukas Palatinus, Jiri Cejka, Maksym Opanasenko
Summary: Zeolites are important materials for research and industry, but current synthesis methods are limited. Harsh hydrothermal conditions are required for classical procedures, and post-synthesis methods are only suitable for certain parent materials. However, by stopping degradation at intermediate structures, a new highly crystalline zeolite, IPC-20, was obtained from the parent zeolite IWV through seed-assisted crystallization and gentle transformation. This approach can be applied to any labile material with a staged structure.
JOURNAL OF THE AMERICAN CHEMICAL SOCIETY
(2023)
Article
Chemistry, Physical
Chao Liu, Caichao Ye, Yunyan Wu, Yifan Liu, Zhihang Liu, Zhaotian Chen, Renzhi Ma, Nobuyuki Sakai, Liang Xue, Jingwen Sun, Wenyao Zhang, Wenqing Zhang, Xin Wang, Takayoshi Sasaki, Pan Xiong, Junwu Zhu
Summary: Water evaporation-induced electricity generation is an emerging technology that can harvest electricity directly from natural water evaporation process. However, the low power density and conversion efficiency have hindered its practical applications, mainly due to weak water-solid interaction between evaporation-induced water flow and nanostructured materials. In this study, we propose a regulatory approach by introducing Ti vacancies at the atomic scale in two-dimensional nanostructures to enhance water-solid interaction for efficient electricity generation.
Article
Chemistry, Multidisciplinary
Vasilios Karanikolas, Takuya Iwasaki, Joel Henzie, Naoki Ikeda, Yusuke Yamauchi, Yutaka Wakayama, Takashi Kuroda, Kenji Watanabe, Takashi Taniguchi
Summary: High-quality emission centers in two-dimensional materials, such as carbon-enriched hexagonal boron nitride (hBN:C) layers, are promising for future photonic and optoelectronic applications. By placing hBN:C layers on Ag triangle nanoparticles (NPs), the decay time of atom-like color-center (CC) defects is accelerated to 46 ps from their bulk value of 350 ps, due to efficient excitation of plasmon modes. Simulations suggest higher Purcell values, and analysis reveals the influence of NP thickness on the Purcell factor of CCs. The ultrafast operation of CCs in hBN:C layers enables their use in demanding applications like single-photon emitters and quantum devices.
Review
Chemistry, Multidisciplinary
Wieslaw J. Roth, Maksym Opanasenko, Michal Mazur, Barbara Gil, Jiri Cejka, Takayoshi Sasaki
Summary: This article provides an overview of the latest research progress on the exfoliation of zeolites into monolayers. It highlights three main challenges in the field, discusses the feasibility of exfoliation, uniform layer thickness, and potential applications. Four zeolites have been confirmed to directly exfoliate into monolayers, and their characterization methods are introduced. The future directions include the preparation of oriented films and membranes, hierarchical nanocomposites with other active species, and intimate mixtures with other materials.
ADVANCED MATERIALS
(2023)
Article
Materials Science, Multidisciplinary
Chenhui Wang, Nobuyuki Sakai, Yasuo Ebina, Daiming Tang, Renzhi Ma, Takayoshi Sasaki
Summary: Zinc-based aqueous energy storage technology has attracted widespread interest due to its low cost, high energy density, high safety, and environmentally friendly manufacturing process. However, the generation of hydrogen gas and zinc dendrite formation have impeded its progress. This study introduces a promising interfacial engineering strategy by depositing molecularly thin Ti0.87O2 nanosheets on a zinc electrode surface, which effectively suppresses hydrogen gas evolution and reduces the nucleation potential of zinc. The improved electrode performance leads to a drastically increased cycle life of over 1400 hours at 1 mA cm(-2)/1 mAh cm(-2), enabling practical applications of zinc metal electrodes and showing potential for other metal batteries.
ACS MATERIALS LETTERS
(2023)
Article
Chemistry, Inorganic & Nuclear
Tosapol Maluangnont, Phieraya Pulphol, Kanisorn Klangvijit, Khemjiranee Bowornthommatadsana, Narong Chanlek, Makoto Ogawa, Winadda Wongwiriyapan
Summary: Ball milling of solids under benign conditions can lead to surface functionalization without altering the crystal structure and morphology. However, these surface functional groups are rarely fixed and instead migrate across the ball milled solids. This phenomenon, and its effects on electrochemical and electrical properties, have been limitedly studied.
DALTON TRANSACTIONS
(2023)
Article
Materials Science, Multidisciplinary
Thanasee Thanasarnsurapong, Panyalak Detrattanawichai, Klichchupong Dabsamut, Kodchakorn Simalaotao, Tosapol Maluangnont, Adisak Boonchun
Summary: Researchers are interested in two-dimensional materials with a pentagonal atomic structure for improving Li-ion batteries. Recent theoretical descriptions have been made for penta-graphene, penta-B2C, and penta-BN2, which have high storage capacities. The introduction of defect doping, such as incorporating an Al atom into penta-BN2, can enhance the storage capacity and strengthen the affinity for Li. The Al-doped penta-BN2 shows metallic conductivity during Li adsorption and has a higher storage capacity compared to penta-BN2.
JOURNAL OF MATERIALS CHEMISTRY C
(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)