Review Articles


  • Review Article |

    Natural photosynthetic systems harvest light to perform selective chemistry on atmospheric molecules such as CO2. This Review discusses the implementation of bioinspired concepts in engineered light harvesting and catalysis.

    • Andrew H. Proppe
    • , Yuguang C. Li
    • , Alán Aspuru-Guzik
    • , Curtis P. Berlinguette
    • , Christopher J. Chang
    • , Richard Cogdell
    • , Abigail G. Doyle
    • , Johannes Flick
    • , Nathaniel M. Gabor
    • , Rienk van Grondelle
    • , Sharon Hammes-Schiffer
    • , Shaffiq A. Jaffer
    • , Shana O. Kelley
    • , Mario Leclerc
    • , Karl Leo
    • , Thomas E. Mallouk
    • , Prineha Narang
    • , Gabriela S. Schlau-Cohen
    • , Gregory D. Scholes
    • , Aleksandra Vojvodic
    • , Vivian Wing-Wah Yam
    • , Jenny Y. Yang
    •  & Edward H. Sargent
  • Review Article |

    The surface features of metal halide perovskites have a crucial role in determining their properties. This Review introduces the recent advances in the understanding of perovskite surfaces and surveys the surface strategies towards improving the properties of perovskite materials and the performance of perovskite optoelectronic devices.

    • Jingjing Xue
    • , Rui Wang
    •  & Yang Yang
  • Review Article |

    The development of efficient, high-energy and high-power electrochemical energy-storage devices requires a systems-level holistic approach, rather than focusing on the electrode or electrolyte separately. In this Review, we discuss the interfacial reactions and ion transport in ionic-liquid-based Li-ion batteries and supercapacitors, and summarize their impact on device performance.

    • Xuehang Wang
    • , Maryam Salari
    • , De-en Jiang
    • , Jennifer Chapman Varela
    • , Babak Anasori
    • , David J. Wesolowski
    • , Sheng Dai
    • , Mark W. Grinstaff
    •  & Yury Gogotsi
  • Review Article |

    When single layers of 2D materials are stacked on top of one another with a small twist, the resulting moiré pattern introduces new electronic properties. This Review surveys and compares the modelling techniques used in this emerging field of twistronics.

    • Stephen Carr
    • , Shiang Fang
    •  & Efthimios Kaxiras
  • Review Article |

    Collagen subtypes contribute to the function of many tissues, but most studies on collagen focus on one or two subtypes only. This Review surveys the roles of collagen subtypes and crosslinks, their structure–function relationships and the possibility of using the resulting insight to engineer better neotissues.

    • Benjamin J. Bielajew
    • , Jerry C. Hu
    •  & Kyriacos A. Athanasiou
  • Review Article |

    Gradient nanostructured metals and alloys are an emerging class of materials that exhibit a combination of excellent mechanical properties that are not possessed by their homogeneous counterparts. This Review assesses the fabrication, characterization and deformation behaviour of these materials, as well as the challenges and future directions of the field.

    • Xiaoyan Li
    • , Lei Lu
    • , Jianguo Li
    • , Xuan Zhang
    •  & Huajian Gao
  • Review Article |

    Nonreciprocal acoustic and elastic wave propagation may enable the creation of devices such as acoustic one-way mirrors, isolators and topological insulators. This Review presents advances in the creation of materials that break reciprocity and realize robust, unidirectional acoustic and elastic wave steering.

    • Hussein Nassar
    • , Behrooz Yousefzadeh
    • , Romain Fleury
    • , Massimo Ruzzene
    • , Andrea Alù
    • , Chiara Daraio
    • , Andrew N. Norris
    • , Guoliang Huang
    •  & Michael R. Haberman
  • Review Article |

    In situ tissue regeneration harnesses the body’s regenerative potential for tissue repair using engineered biomaterials. In this Review, we outline various biomaterials approaches to control the body’s regenerative capacity for tissue-specific regeneration by modulating the extracellular microenvironment or driving cellular reprogramming.

    • Akhilesh K. Gaharwar
    • , Irtisha Singh
    •  & Ali Khademhosseini
  • Review Article |

    Weyl fermions in solids exhibit unique features such as spin–momentum locking and a diverging Berry curvature corresponding to a magnetic monopole in momentum space. This Review surveys the transport phenomena, magnetic excitations and nonlinear optical effects observed in these systems.

    • Naoto Nagaosa
    • , Takahiro Morimoto
    •  & Yoshinori Tokura
  • Review Article |

    Flat metasurface optics provides an emerging platform for combining semiconductor foundry methods of manufacturing and assembling with nanophotonics to produce high-end and multifunctional optical elements. This Review highlights the design of metasurfaces, recent advances in the field and initial promising applications.

    • Wei Ting Chen
    • , Alexander Y. Zhu
    •  & Federico Capasso
  • Review Article |

    Design of bone-tissue-engineering materials involves consideration of multiple, often conflicting, requirements. This Review discusses these considerations and highlights scalable technologies that can fabricate natural and synthetic biomaterials (polymers, bioceramics, metals and composites) into forms suitable for bone-tissue-engineering applications in human therapies and disease models.

    • Gerry L. Koons
    • , Mani Diba
    •  & Antonios G. Mikos
  • Review Article |

    Self-healable polymers are materials that recover after physical damage. In this Review, we discuss the physical and chemical approaches to make self-healing polymers, with a focus on similarities with biological systems.

    • Siyang Wang
    •  & Marek W. Urban
  • Review Article |

    Matrigel is widely used for cell culture. However, its ill-defined composition, batch-to-batch variability and animal-derived nature lead to experimental uncertainty and a lack of reproducibility. In this Review, we discuss the limitations of Matrigel and highlight synthetic alternatives for stem-cell culture, regenerative medicine and organoid assembly.

    • Elizabeth A. Aisenbrey
    •  & William L. Murphy
  • Review Article |

    Reducible oxides are tunable, multifunctional materials used in many applications, particularly in catalysis; their attractive properties arise from their interacting charge carriers, complex electronic structure and propensity to form mobile defects. This Review surveys theoretical methods to model and understand reducible oxides, using TiO2 as a prototypical example.

    • Roger Rousseau
    • , Vassiliki-Alexandra Glezakou
    •  & Annabella Selloni
  • Review Article |

    The porous hierarchical structure and anisotropy of wood make it a strong candidate for the design of materials with various functions, including load bearing, multiscale mass transport, and optical and thermal management. In this Review, the composition, structure, characterization methods, modification strategies, properties and applications of natural and modified wood are discussed.

    • Chaoji Chen
    • , Yudi Kuang
    • , Shuze Zhu
    • , Ingo Burgert
    • , Tobias Keplinger
    • , Amy Gong
    • , Teng Li
    • , Lars Berglund
    • , Stephen J. Eichhorn
    •  & Liangbing Hu
  • Review Article |

    Unrecycled post-consumer plastic waste is an enormous, growing problem. Chemical recycling to monomer (CRM) delivers recycled material without degradation in properties. This Review assesses the viability of commercial polymer CRM, the flourishing of CRM with new polymers and opportunities for the field.

    • Geoffrey W. Coates
    •  & Yutan D. Y. L. Getzler
  • Review Article |

    Owing to their layered structure, the properties of 2D perovskites can be controlled by tuning their thickness. This Review surveys how fine-tuning the thickness of 2D perovskites from the sub-micrometre to the molecularly thin regime helps to optimize their electrical and optical properties for use in different applications.

    • Kai Leng
    • , Wei Fu
    • , Yanpeng Liu
    • , Manish Chhowalla
    •  & Kian Ping Loh
  • Review Article |

    Engineering the phase of metal nanocrystals while simultaneously achieving shape-controlled synthesis can enable new and desirable properties. This Review highlights the synthetic strategies for generating Ru nanocrystals with different crystal phases and surface structures, and outlines their implementation in catalytic applications.

    • Ming Zhao
    •  & Younan Xia
  • Review Article |

    Chiral hybrid organic–inorganic perovskites combine the remarkable optical, electrical and spintronic properties of perovskites with chirality. This Review systematically introduces the latest advances in chiral perovskites, surveys their structure–property relationships and details their chiroptical and ferroelectric applications.

    • Guankui Long
    • , Randy Sabatini
    • , Makhsud I. Saidaminov
    • , Girish Lakhwani
    • , Abdullah Rasmita
    • , Xiaogang Liu
    • , Edward H. Sargent
    •  & Weibo Gao
  • Review Article |

    Materials engineering enables the control of water–material interactions in solar vapour generators, which aim to efficiently utilize solar energy for the cost-effective production of clean water. This Review discusses material-design principles for solar evaporators, spanning from macrostructures to molecular configurations.

    • Fei Zhao
    • , Youhong Guo
    • , Xingyi Zhou
    • , Wen Shi
    •  & Guihua Yu
  • Review Article |

    Over the past five years, advances in materials science, chemistry, engineering and artificial intelligence have yielded a new class of affordable image cytometers for automated single-cell phenotyping of scant samples. In this Review, these technologies are introduced and their potential molecular-diagnostic roles in resource-limited oncology settings are discussed.

    • Ralph Weissleder
    •  & Hakho Lee
  • Review Article |

    To design and construct tissue adhesives tailored for site-specific actions, it is necessary to understand the interaction between the adhesive and the targeted tissue. In this Review, the development of adhesives for soft tissues is outlined, including discussions of in vivo properties and biocompatibility, as well as the key design criteria for accelerating their translation into clinical practice.

    • Gonzalo Munoz Taboada
    • , Kisuk Yang
    • , Maria J. N. Pereira
    • , Sophie S. Liu
    • , Yangshuo Hu
    • , Jeffrey M. Karp
    • , Natalie Artzi
    •  & Yuhan Lee
  • Review Article |

    Molecular clusters can be used as tuneable, superatomic building blocks to create new functional materials. This Review outlines the synthesis and assembly of superatoms into superatomic crystals and the resulting collective material properties.

    • Evan A. Doud
    • , Anastasia Voevodin
    • , Taylor J. Hochuli
    • , Anouck M. Champsaur
    • , Colin Nuckolls
    •  & Xavier Roy
  • Review Article |

    The complexity of biological tissue presents a challenge for engineering of mechanically compatible materials. In this Review, the stiffness of tissue components — from extracellular matrix and single cells to bulk tissue — is outlined, and how this understanding facilitates the engineering of materials with lifelike properties is discussed.

    • Carlos F. Guimarães
    • , Luca Gasperini
    • , Alexandra P. Marques
    •  & Rui L. Reis
  • Review Article |

    The scalable fabrication of perovskite solar cells and solar modules requires the development of new materials and coating methods. In this Review, we discuss solution-based and vapour-phase coating methods for large-area perovskite films and examine the progress in performance and the parameters affecting large-area coatings.

    • Nam-Gyu Park
    •  & Kai Zhu
  • Review Article |

    The valuable combination of disorder and non-metallic bonding gives rise to high-entropy ceramics. This Review explores the structures and chemistries of these versatile materials, and their applications in catalysis, water splitting, energy storage, thermoelectricity and thermal, environmental and wear protection.

    • Corey Oses
    • , Cormac Toher
    •  & Stefano Curtarolo
  • Review Article |

    Increasing demand for energy-storage systems will inevitably stress the Earth’s lithium supply; thus, the research focus is shifting towards other alkali and alkali earth metals. This Review compares and connects strategies to enable different multivalent and monovalent metal-ion battery anodes, including metal anodes and intercalation-based, alloy-based and conversion-reaction-based anodes.

    • Matthew Li
    • , Jun Lu
    • , Xiulei Ji
    • , Yanguang Li
    • , Yuyan Shao
    • , Zhongwei Chen
    • , Cheng Zhong
    •  & Khalil Amine
  • Review Article |

    Solid-state batteries based on electrolytes with low or zero vapour pressure provide a promising path towards safe, energy-dense storage of electrical energy. In this Review, we consider the requirements and design rules for solid-state electrolytes based on inorganics, organic polymers and organic–inorganic hybrids.

    • Qing Zhao
    • , Sanjuna Stalin
    • , Chen-Zi Zhao
    •  & Lynden A. Archer
  • Review Article |

    Fire endangers lives and property worldwide. Significant efforts are underway to develop flame-retardant surface treatments that minimize the weight added to a given object and preserve its intrinsic mechanical properties. This review summarizes the history and latest developments in flame-retardant treatments, as well as outlining the challenges ahead.

    • Simone T. Lazar
    • , Thomas J. Kolibaba
    •  & Jaime C. Grunlan
  • Review Article |

    The preparation of multiphase nanodroplets has enabled the fabrication of emulsions with novel structures and functions for nanomaterials design and formulation. In this Review, the strategies and challenges to produce, stabilize and characterize such multiple nanoemulsions are discussed, as well as the applications they enable.

    • Tanvi Sheth
    • , Serena Seshadri
    • , Tamás Prileszky
    •  & Matthew E. Helgeson
  • Review Article |

    Compounds that adopt the ReO3-type structure, like their perovskite counterparts, are both numerous and wide ranging in their chemistries and their properties. In this Review, the similarities between the subfamilies of this exciting class of materials are illustrated, showing that often the materials are more alike than they are different.

    • Hayden A. Evans
    • , Yue Wu
    • , Ram Seshadri
    •  & Anthony K. Cheetham
  • Review Article |

    Resistive switching materials enable novel, in-memory information processing, which may resolve the von Neumann bottleneck. This Review focuses on how the switching mechanisms and the resultant electrical properties lead to various computing applications.

    • Zhongrui Wang
    • , Huaqiang Wu
    • , Geoffrey W. Burr
    • , Cheol Seong Hwang
    • , Kang L. Wang
    • , Qiangfei Xia
    •  & J. Joshua Yang
  • Review Article |

    Multifunctional materials are critical to enable next-generation implantable and wearable photonic healthcare devices. This Review examines these emerging materials and discusses the path for their clinical translation, along with the future research directions for the field, particularly regarding mobile healthcare and personalized medicine.

    • Geon-Hui Lee
    • , Hanul Moon
    • , Hyemin Kim
    • , Gae Hwang Lee
    • , Woosung Kwon
    • , Seunghyup Yoo
    • , David Myung
    • , Seok Hyun Yun
    • , Zhenan Bao
    •  & Sei Kwang Hahn
  • Review Article |

    New materials, beyond those that have already obtained regulatory approval, are needed to improve the bioavailability of orally administered proteins. In this Review, barriers to the oral delivery of protein-based therapies are discussed, along with the current translational landscape and state of the art of materials for oral protein delivery.

    • Tyler D. Brown
    • , Kathryn A. Whitehead
    •  & Samir Mitragotri
  • Review Article |

    The reliable operation of solid-state batteries requires stable or passivating interfaces between solid components. In this Review, we discuss models for interfacial reactions and relate the predictions to experimental findings, aiming to provide a deeper understanding of interface stability.

    • Yihan Xiao
    • , Yan Wang
    • , Shou-Hang Bo
    • , Jae Chul Kim
    • , Lincoln J. Miara
    •  & Gerbrand Ceder
  • Review Article |

    Clinical outcomes with implantable and degradable devices largely depend on host response. This Review surveys material options and degradation mechanisms relevant to host responses to biodegradable devices, examines clinical translation of leading biodegradable materials and proposes updated material-design strategies to improve device performance.

    • Chunmei Li
    • , Chengchen Guo
    • , Vincent Fitzpatrick
    • , Ahmed Ibrahim
    • , Myrthe Jasmijn Zwierstra
    • , Philip Hanna
    • , Aron Lechtig
    • , Ara Nazarian
    • , Samuel J. Lin
    •  & David L. Kaplan
  • Review Article |

    Recently, scaling relationships have been established between certain physical or chemical properties of heterogeneous catalytic reactions. These properties, or reactivity descriptors, can describe and predict catalytic performance, and thus enable the rational design of new catalysts.

    • Zhi-Jian Zhao
    • , Sihang Liu
    • , Shenjun Zha
    • , Dongfang Cheng
    • , Felix Studt
    • , Graeme Henkelman
    •  & Jinlong Gong
  • Review Article |

    Non-radiative recombination losses hinder the performance of perovskite solar cells, preventing them from reaching the Shockley–Queisser limit. This Review systematically analyses the origin and impact of non-radiative recombination losses and highlights notable advances in their characterization and mitigation.

    • Deying Luo
    • , Rui Su
    • , Wei Zhang
    • , Qihuang Gong
    •  & Rui Zhu
  • Review Article |

    Hydrogel microparticles are used for numerous biomedical applications, owing to their unique multiscale properties and design versatility. This Review discusses various hydrogel microparticle fabrication techniques and their diverse applications, ranging from cell and drug delivery to 3D printing.

    • Andrew C. Daly
    • , Lindsay Riley
    • , Tatiana Segura
    •  & Jason A. Burdick
  • Review Article |

    This Review discusses the expansion of the field of molecular magnetism from the chemical design and physical study of single-molecule magnets and multifunctional magnetic materials towards physics- and nanotechnology-driven areas, in particular molecular spintronics, quantum technologies, metal–organic frameworks and 2D materials.

    • Eugenio Coronado
  • Review Article |

    Functional mesoporous materials with architectures ranging from 0D to 3D are typically prepared using surfactant-templating methods. This Review outlines the single-micelle-directed synthesis of mesoporous materials, including low-dimensional and 3D mesoporous structures, as well as hierarchical and asymmetric mesoporous structures.

    • Tiancong Zhao
    • , Ahmed Elzatahry
    • , Xiaomin Li
    •  & Dongyuan Zhao
  • Review Article |

    In vivo genome editing requires delivery systems that are efficient, safe and tissue specific. This Review outlines the materials and delivery strategies currently used, and the challenges and potential solutions in in vivo genome editing, aiming to stimulate further development of engineered materials for in vivo delivery of genome-editing machinery.

    • Sheng Tong
    • , Buhle Moyo
    • , Ciaran M. Lee
    • , Kam Leong
    •  & Gang Bao
  • Review Article |

    Pseudocapacitive materials can bridge the gap between high-energy-density battery materials and high-power-density electrochemical capacitor materials. In this Review, we examine the electrochemistry and physical signatures of pseudocapacitive charge-storage processes and discuss existing pseudocapacitive materials.

    • Christopher Choi
    • , David S. Ashby
    • , Danielle M. Butts
    • , Ryan H. DeBlock
    • , Qiulong Wei
    • , Jonathan Lau
    •  & Bruce Dunn
  • Review Article |

    Controlling polymerization is required to fully understand and tune the function of a polymer. Alongside variables such as dispersity, molecular weight and chemical composition, the shape of the molecular-weight distribution has substantial influence on polymer properties. In this Review, we discuss methods to systematically control the shape of a polymer’s molecular-weight distribution, as well as explore the profound effects of shape on polymer properties.

    • Dillon T. Gentekos
    • , Renee J. Sifri
    •  & Brett P. Fors
  • Review Article |

    Materials with a near-zero optical refractive index have stimulated much interest, as they can be used to investigate fundamental light–matter interactions. This Review surveys the wide range of near-zero-index homogeneous materials that have been explored and highlights the key experimental advancements they have enabled.

    • Nathaniel Kinsey
    • , Clayton DeVault
    • , Alexandra Boltasseva
    •  & Vladimir M. Shalaev
  • Review Article |

    Metal–organic frameworks, when evacuated, are metastable with respect to a dense phase of the same components. Here, we review methods for kinetic stabilization of the porous phase and discuss progress in designing stable frameworks for the capture of corrosive and coordinating gases.

    • Adam J. Rieth
    • , Ashley M. Wright
    •  & Mircea Dincă
  • Review Article |

    The charge-transfer electronic states that form at the interfaces between electron-donor and electron-acceptor components have a key role in the electronic processes in organic solar cells. This Review describes the current understanding of how these charge-transfer states affect device performance.

    • Veaceslav Coropceanu
    • , Xian-Kai Chen
    • , Tonghui Wang
    • , Zilong Zheng
    •  & Jean-Luc Brédas
  • Review Article |

    2D materials exhibit diverse properties and can be integrated in heterostructures: this makes them ideal platforms for quantum information science. This Review surveys recent progress and identifies future opportunities for 2D materials as quantum-dot qubits, single-photon emitters, superconducting qubits and topological quantum computing elements.

    • Xiaolong Liu
    •  & Mark C. Hersam
  • Review Article |

    Organoids are 3D cell culture systems that mimic the structural and functional characteristics of organs. In this Review, the authors discuss the biochemical and mechanical material properties relevant for organoid formation and highlight materials designed with the aim to establish organoid cultures as powerful research platforms.

    • Michael J. Kratochvil
    • , Alexis J. Seymour
    • , Thomas L. Li
    • , Sergiu P. Paşca
    • , Calvin J. Kuo
    •  & Sarah C. Heilshorn