Blog

Nature Energy, Mayo 2021

Volume 6 Issue 5, May 2021

Preventing the cross-over

Polysulfide-based redox flow batteries have great potential for grid-scale storage, but they suffer from performance deterioration primarily due to active species cross-over through membranes. Yi-Chun Lu and team develop a Nafion-based membrane that prevents the cross-over and enables these batteries to achieve long-term operational stabilities.

See Lu et al.

Image: Yi-Chun Lu, The Chinese University of Hong Kong. Cover Design: Thomas Phillips.

Editorial

Editorial | 21 May 2021

Moving forward with fuel cells

For hydrogen to make a greater impact in our energy systems, attention is required on the integration of new catalysts into fuel cells and their needs in emerging applications, such as heavy-duty transport.

News & Views

News & Views | 01 April 2021

A membrane with repelling power

Flow batteries based on, for example, polysulfide suffer severe performance deterioration due to active species crossover in membranes. Now, a charge-reinforced ion-selective membrane is designed to support long-term cycling of polysulfide redox flow batteries by blocking the crossover.

• Wei Wang

News & Views | 03 May 2021

Looking forward and back

Wind energy’s contribution to primary energy supply has increased in the past decade, while technology costs have decreased faster than predicted. New work finds that recent expert estimates of wind technology costs by 2050 are around half what they were in 2015, implying a bigger role for wind energy in low-carbon development pathways.

• Elena Verdolini

News & Views | 06 May 2021

Reflections on surface morphology

Electrochromic windows can reduce buildings’ energy demand and improve occupants’ comfort, yet they struggle to fully meet market needs. Now, researchers demonstrate that polymer additives improve light and solar heat modulation of reflective electrochromic windows, with potential for durable, large-scale and low-cost manufacturing.

• Stephen Selkowitz

News & Views | 18 May 2021

From early adopters to early quitters

Research has studied what makes people adopt electric vehicles since before they were commercially available. Now, a new study examines the next important issue for the future of electrification of personal transportation: what makes electric vehicle owners ditch them.

• Bradley W. Lane

News & Views | 07 May 2021

Beyond short-duration energy storage

Long-duration energy storage technologies can be a solution to the intermittency problem of wind and solar power but estimating technology costs remains a challenge. New research identifies cost targets for long-duration storage technologies to make them competitive against different firm low-carbon generation technologies.

• Omar J. Guerra

Reviews

Review Article | 25 March 2021

New roads and challenges for fuel cells in heavy-duty transportation

Fuel cells are increasingly being considered for powertrains of heavy-duty transportation. Cullen et al. survey the technical challenges of fuel cells at both the system and materials level for transportation application and outline the roadmap for future development.

• David A. Cullen
• K. C. Neyerlin
• Ahmet Kusoglu

Review Article | 21 May 2021

Bridging the gap between highly active oxygen reduction reaction catalysts and effective catalyst layers for proton exchange membrane fuel cells

The promising performance of low-platinum-loading oxygen reduction reaction catalysts in preliminary electrochemical tests is rarely translated into similarly impressive performance in real fuel cells. In this Review, Li and colleagues explore the underlying reasons for this issue and outline strategies to overcome it.

• Jiantao Fan
• Ming Chen
• Hui Li

Research

Article | 22 March 2021

Corrosion of lithium metal anodes during calendar ageing and its microscopic origins

Batteries keep degrading even when they are not in operation, but their calendar life is rarely studied in advanced batteries that are still in the development stage. Here the authors quantify the calendar ageing of Li metal anodes and report its underlying mechanisms.

• David T. Boyle
• William Huang
• Yi Cui

Article | 25 March 2021

Ultra-high-voltage Ni-rich layered cathodes in practical Li metal batteries enabled by a sulfonamide-based electrolyte

Charging at high voltages in principle makes batteries energy dense, but this is often achieved at the cost of the cycling stability. Here the authors design a sulfonamide-based electrolyte to enable a Li metal battery with a state-of-the-art cathode at an ultra-high voltage of 4.7 V while maintaining cyclability.

• Weijiang Xue
• Mingjun Huang
• Ju Li

Article | 29 March 2021

The design space for long-duration energy storage in decarbonized power systems

Wind and solar energy must be complemented by a combination of energy storage and firm generating capacity. Here, Sepulveda et al. assess the economic value and system impact of a wide range of possible long-duration energy storage technologies, providing insights to guide innovation and policy.

• Nestor A. Sepulveda
• Jesse D. Jenkins
• Richard K. Lester

Article | 01 April 2021

Polysulfide-based redox flow batteries with long life and low levelized cost enabled by charge-reinforced ion-selective membranes

The development of aqueous redox flow batteries (ARFBs) has been plagued by high material costs and poor operating stability. Here the authors report a membrane design to enable polysulfide-based ARFBs with minimal capacity decay over long cycles and durations as well as competitive cost-effectiveness.

• Zhejun Li
• Yi-Chun Lu

Article | 15 April 2021 |

A silicon carbide-based highly transparent passivating contact for crystalline silicon solar cells approaching efficiencies of 24%

Passivating contacts hold promise for silicon solar cells yet the simultaneous optimization of conductivity, defect passivation and optical transparency remains challenging. Now Köhler et al. devise a passivating contact based on a double layer of nanocrystalline silicon carbide that overcomes these trade-offs.

• Malte Köhler
• Manuel Pomaska
• Kaining Ding

Article | 26 April 2021

Understanding discontinuance among California’s electric vehicle owners

An often-overlooked aspect of vehicle electrification is how often and why owners give up on electric vehicles. Using surveys of California electric vehicle owners, Hardman and Tal find discontinuance rates of 20% and 18% among plug-in hybrid and battery electric vehicle owners, and examine the motivations behind discontinuance.

• Scott Hardman
• Gil Tal

Article | 26 April 2021

Polymer inhibitors enable >900 cm2 dynamic windows based on reversible metal electrodeposition with high solar modulation

Dynamic windows can reduce a building’s energy demand, yet the control of light and heat transmission remains challenging. Strand et al. show that polymer inhibitors improve the morphology of metal films allowing a wide modulation of light and heat flow in windows based on reversible metal electrodeposition.

• Michael T. Strand
• Tyler S. Hernandez
• Michael D. McGehee

Analysis | 15 April 2021

Expert elicitation survey predicts 37% to 49% declines in wind energy costs by 2050

Costs of renewable energy generation have fallen rapidly in recent years, often faster than predicted. Wiser et al. undertake an expert elicitation survey to project wind power costs to 2050, finding substantial continued cost reductions, and compare back to a previous survey to understand what has changed.

• Ryan Wiser
• Joseph Rand
• Patrick Gilman

Tales of Invention

Tales of Invention | 21 May 2021

LiMn2O4 spinel and substituted cathodes

LiMn2O4 spinel has a robust structure with a three-dimensional network of channels for fast Li+ conduction. Despite its relatively low electrochemical capacity, LiMn2O4 has found success as a cost-effective and high-power cathode for the Li-ion battery industry.

• Michael M. Thackeray
• Khalil Amine