Your search keyword '"Zhang, Huafan"' showing total 14 results

1. Solar‐Powered Gram‐Scale Ammonia Production from Nitrate.

Author

Gnanasekar, Paulraj, Peramaiah, Karthik, Zhang, Huafan, Alsayoud, Ibrahim G., Subbiah, Anand S., Babics, Maxime, Ng, Tien Khee, Gan, Qiaoqiang, De Wolf, Stefaan, Huang, Kuo‐Wei, and Ooi, Boon S.

Published

2024

2. Maternal BMI changes from the prepregnancy to postpartum period are associated with postpartum cardiometabolic risk factors: a longitudinal study.

Author

Zhang, Huafan, Wu, Linlin, Wu, Xiaoxia, Chen, Yixuan, Tian, Fu-Ying, Yin, Aiqi, Hu, Fengqiao, Tong, Jianing, Huang, Xuna, Wan, Yanmei, and Niu, Jianmin

Subjects

PUERPERIUM, HDL cholesterol, LONGITUDINAL method, BODY mass index, INSULIN resistance, OBESITY

Abstract

Purpose: This study aimed at investigating the associations between the total body mass index (BMI) change at 3 or 4 years postpartum compared to the prepregnancy and cardiometabolic risk factors. Methods: This longitudinal study included 1305 participants. Based on the total postpartum BMI changes, they were divided into < 0 units, 0–1.7 units, and > 1.7 units groups using the interquartile range. Multiple linear regression models were used to analyze the associations. Results: Compared to the reference group, there was a progressive increase in the βcoefficient (βcoef) of homeostasis model assessment of insulin resistance (HOMA-IR) of cardiometabolic risk in the following groups: the '0–1.7 units' group with the 'overweight traj' [βcoef 0.33; 95% confidence intervals (CI) 0.22, 0.44)] or the 'obesity traj' [0.66; (0.45, 0.88)] and the '> 1.7 units' group with the 'normal traj' [0.33; (0.22, 0.44)], the 'overweight traj' [0.54; (0.41, 0.67)] or the 'obesity traj' [0.97; (0.79, 1.15)]. The same increasing trend of βcoef was also found in DBP, FPG, LDL, WHR, BF%. However, the '< 0 units' group with the 'low traj' [0.13; (0.06, 0.21)] and the '0–1.7 units' group with the 'low traj' [0.08; (0.03, 0.13)] had higher high-density lipoprotein cholesterol (HDL-C) level than the reference group. Conclusion: Women with a postpartum BMI gain > 1.7 units are positively associated with cardiometabolic risk factors, especially for those in the 'obesity traj' or 'traj D'. Conversely, women with a postpartum BMI loss > 0 units have negative association with cardiometabolic risk factors, especially for those in the 'low traj' or 'traj B'. [ABSTRACT FROM AUTHOR]

Published

2024

3. InGaN-based nanowires development for energy harvesting and conversion applications.

Author

Zhang, Huafan, Min, Jung-Wook, Gnanasekar, Paulraj, Ng, Tien Khee, and Ooi, Boon S.

Subjects

ENERGY conversion, ENERGY development, NANOWIRES, SEMICONDUCTOR nanowires, SEMICONDUCTORS

Abstract

This Tutorial teaches the essential development of nitrogen-plasma-assisted molecular-beam-epitaxy grown InGaN nanowires as an application-inspired platform for energy harvesting and conversion applications by growing dislocation- and strain-relieved axial InGaN-based nanowires. The Tutorial aims to shed light on the interfacial, surface, electrical, and photoelectrochemical characteristics of InGaN nanowires through nanoscale and ultrafast characterizations. Understanding the interrelated optical-physical properties proved critical in the development of renewable-energy harvesting and energy conversion devices. Benefiting from their unique aspect ratio and surface-to-volume ratio, semiconductor properties, and piezoelectric properties, the group-III-nitride nanowires, especially InGaN nanowires, are promising for clean energy conversion applications, including piezotronic/piezo-phototronic and solar-to-clean-fuel energy-conversion. [ABSTRACT FROM AUTHOR]

Published

2021

4. Mediation effect of maternal triglyceride and fasting glucose level on the relationship between maternal overweight/ obesity and fetal growth: a prospective cohort study.

Author

Wan, Yanmei, Chen, Yixuan, Wu, Xiaoxia, Yin, Aiqi, Tian, Fuying, Zhang, Huafan, Huang, Xuna, Wu, Linlin, and Niu, Jianmin

Subjects

FETAL development, COHORT analysis, LONGITUDINAL method, BLOOD sugar, LOGISTIC regression analysis

Abstract

Background: Previous studies have suggested that maternal overweight/obesity is asscociated with macrosomia. The present study aimed to investigate the mediation effects of fasting plasma glucose (FPG) and maternal triglyceride (mTG) in the relationship between maternal overweight/obesity and large for gestational age (LGA) among non-diabetes pregnant women. Methods: This prospective cohort study was conducted in Shenzhen from 2017 to 2021. A total of 19,104 singleton term non-diabetic pregnancies were enrolled form a birth cohort study. FPG and mTG were measured at 24–28 weeks. We analyzed the association of maternal prepregancy overweight/obesity with LGA and mediation effects of FPG and mTG. Multivariable logistic regression analysis and serial multiple mediation analysis were performed. The odds ratio (OR) and 95% confidence intervals (CIs) were calculated. Results: Mothers who were overweight or obese had higher odds of giving birth to LGA after adjusting potential confounders (OR:1.88, 95%CI: 1.60–2.21; OR:2.72, 95%CI: 1.93–3.84, respectively). The serial multiple mediation analysis found prepregnancy overweight can not only have a direct positive effect on LGA (effect = 0.043, 95% CI: 0.028–0.058), but also have an indirect effect on the LGA through two paths: the independent mediating role of FPG (effect = 0.004, 95% CI: 0.002–0.005); the independent mediating role of mTG (effect = 0.003,95% CI: 0.002–0.005). The chain mediating role of FPG and mTG has no indirect effect. The estimated proportions mediated by FPG and mTG were 7.8% and 5.9%. Besides, the prepregnancy obesity also has a direct effect on LGA (effect = 0.076; 95%CI: 0.037–0.118) and an indirect effect on LGA through three paths: the independent mediating role of FPG (effect = 0.006; 95%CI: 0.004–0.009); the independent mediating role of mTG (effect = 0.006; 95%CI: 0.003–0.008), and the chain mediating role of FPG and mTG (effect = 0.001; 95%CI: 0.000-0.001). The estimated proportions were 6.7%, 6.7%, and 1.1%, respectively. Conclusion: This study found that in nondiabetic women, maternal overweight/obesity was associated with the occurence of LGA, and this positive association was partly mediated by FPG and mTG, suggesting that FPG and mTG in overweight/obese nondiabetic mothers deserve the attention of clinicians. [ABSTRACT FROM AUTHOR]

Published

2023

5. Nanostructured Gallium Nitride Membrane at Wafer Scale for Photo(Electro)catalytic Polluted Water Remediation.

Author

Zhang, Huafan, Min, Jung‐Hong, Chung, Tae‐Hoon, Lee, Kwangjae, Gnanasekar, Paulraj, Min, Jung‐Wook, Park, Tae‐Yong, Wang, Yue, Ng, Tien Khee, Schwingenschlögl, Udo, Gan, Qiaoqiang, and Ooi, Boon S.

Subjects

GALLIUM nitride, ELECTRIC contacts, LIGHT absorption, NANOPOROUS materials, WASTEWATER treatment, HYDROXYL group, COLOR removal in water purification, SILICON solar cells

Abstract

Photo(electro)catalysis methods have drawn significant attention for efficient, energy‐saving, and environmental‐friendly organic contaminant degradation in wastewater. However, conventional oxide‐based powder photocatalysts are limited to UV‐light absorption and are unfavorable in the subsequent postseparation process. In this paper, a large‐area crystalline‐semiconductor nitride membrane with a distinct nanoporous surface is fabricated, which can be scaled up to a full wafer and easily retrieved after photodegradation. The unique nanoporous surface enhances broadband light absorption, provides abundant reactive sites, and promotes the dye‐molecule reaction with adsorbed hydroxyl radicals on the surface. The superior electric contact between the nickel bottom layer and nitride membrane facilitates swift charge carrier transportation. In laboratory tests, the nanostructure membrane can degrade 93% of the dye in 6 h under illumination with a small applied bias (0.5 V vs Ag/AgCl). Furthermore, a 2 inch diameter wafer‐scale membrane is deployed in a rooftop test under natural sunlight. The membrane operates stably for seven cycles (over 50 h) with an outstanding dye degradation efficiency (>92%) and satisfied average total organic carbon removal rate (≈50%) in each cycle. This demonstration thus opens the pathway toward the production of nanostructured semiconductor layers for large‐scale and practical wastewater treatment using natural sunlight. [ABSTRACT FROM AUTHOR]

Published

2023

6. Enhanced photoelectrochemical performance of InGaN-based nanowire photoanodes by optimizing the ionized dopant concentration.

Author

Zhang, Huafan, Ebaid, Mohamed, Min, Jung-Wook, Ng, Tien Khee, and Ooi, Boon S.

Subjects

PHOTOELECTROCHEMICAL cells, DOPING agents (Chemistry), WATER electrolysis, NANOWIRES, ELECTRIC wire

Abstract

InGaN-based nanowires (NWs) have been extensively studied for photoelectrochemical (PEC) water splitting devices owing to their tunable bandgap and good chemical stability. Here, we further investigated the influence of Si doping on the PEC performance of InGaN-based NW photoanodes. The Si dopant concentration was controlled by tuning the Si effusion cell temperature (TSi) during plasma-assisted molecular beam epitaxy growth and further estimated by Mott-Schottky electrochemical measurements. The highest Si dopant concentration of 2.1 × 1018 cm−3 was achieved at TSi = 1120 °C, and the concentration decreased with further increases in TSi. The flat-band potential was calculated and used to estimate the conduction and valence band edge potentials of the Si-doped InGaN-based NWs. The band edge potentials were found to seamlessly straddle the redox potentials of water splitting. The linear scan voltammetry results were consistent with the estimated carrier concentration. The InGaN-based NWs doped with Si at TSi = 1120 °C exhibited almost 9 times higher current density than that of the undoped sample and a stoichiometric evolution of hydrogen and oxygen gases. Our systematic findings suggest that the PEC performance can be significantly improved by optimizing the Si doping level of InGaN-based NW photoanodes. [ABSTRACT FROM AUTHOR]

Published

2018

7. Sustainable and Inexpensive Polydimethylsiloxane Sponges for Daytime Radiative Cooling.

Author

Zhou, Lyu, Rada, Jacob, Zhang, Huafan, Song, Haomin, Mirniaharikandi, Seyededriss, Ooi, Boon S., and Gan, Qiaoqiang

Subjects

HAZARDOUS substances, HAZARDOUS wastes, POLYDIMETHYLSILOXANE, COOLING, THERMAL insulation, STRUCTURAL engineering, BUILDING envelopes

Abstract

Radiative cooling is an emerging cooling technology that can passively release heat to the environment. To obtain a subambient cooling effect during the daytime, chemically engineered structural materials are widely explored to simultaneously reject sunlight and preserve strong thermal emission. However, many previously reported fabrication processes involve hazardous chemicals, which can hinder a material's ability to be mass produced. In order to eliminate the hazardous chemicals used in the fabrication of previous works, this article reports a white polydimethylsiloxane (PDMS) sponge fabricated by a sustainable process using microsugar templates. By substituting the chemicals for sugar, the manufacturing procedure produces zero toxic waste and can also be endlessly recycled via methods widely used in the sugar industry. The obtained porous PDMS exhibits strong visible scattering and thermal emission, resulting in an efficient temperature reduction of 4.6 °C and cooling power of 43 W m−2 under direct solar irradiation. In addition, due to the air‐filled voids within the PDMS sponge, its thermal conductivity remains low at 0.06 W (m K)−1. This unique combination of radiative cooling and thermal insulation properties can efficiently suppress the heat exchange with the solar‐heated rooftop or the environment, representing a promising future for new energy‐efficient building envelope material. [ABSTRACT FROM AUTHOR]

Published

2021

8. Group-III-nitride and halide-perovskite semiconductor gain media for amplified spontaneous emission and lasing applications.

Author

Ng, Tien Khee, Holguin-Lerma, Jorge A, Kang, Chun Hong, Ashry, Islam, Zhang, Huafan, Bucci, Giada, and Ooi, Boon S

Subjects

ACTIVE medium, SEMICONDUCTORS, OPTICAL devices, OXIDE minerals, WAVELENGTHS

Abstract

Group-III-nitride optical devices are conventionally important for displays and solid-state lighting, and recently have garnered much interest in the field of visible-light communication. While visible-light laser technology has become mature, developing a range of compact, small footprint, high optical power components for the green-yellow gap wavelengths still requires material development and device design breakthroughs, as well as hybrid integration of materials to overcome the limitations of conventional approaches. The present review focuses on the development of laser and amplified spontaneous emission (ASE) devices in the visible wavelength regime using primarily group-III-nitride and halide-perovskite semiconductors, which are at disparate stages of maturity. While the former is well established in the violet-blue-green operating wavelength regime, the latter, which is capable of solution-based processing and wavelength-tunability in the green-yellow-red regime, promises easy heterogeneous integration to form a new class of hybrid semiconductor light emitters. Prospects for the use of perovskite in ASE and lasing applications are discussed in the context of facile fabrication techniques and promising wavelength-tunable light-emitting device applications, as well as the potential integration with group-III-nitride contact and distributed Bragg reflector layers, which is promising as a future research direction. The absence of lattice-matching limitations, and the presence of direct bandgaps and excellent carrier transport in halide-perovskite semiconductors, are both encouraging and thought-provoking for device researchers who seek to explore new possibilities either experimentally or theoretically. These combined properties inspire researchers who seek to examine the suitability of such materials for potential novel electrical injection devices designed for targeted applications related to lasing and operating-wavelength tuning. [ABSTRACT FROM AUTHOR]

Published

2021

9. 7.4-Gbit/s Visible-Light Communication Utilizing Wavelength-Selective Semipolar Micro-Photodetector.

Author

Alkhazragi, Omar, Kang, Chun Hong, Kong, Meiwei, Liu, Guangyu, Lee, Changmin, Li, Kuang-Hui, Zhang, Huafan, Wagstaff, Jonathan M., Alhawaj, Fatimah, Ng, Tien Khee, Speck, James S., Nakamura, Shuji, DenBaars, Steven P., and Ooi, Boon S.

Abstract

Visible light communication (VLC) has drawn significant attention in recent years. Though high-speed visible-light sources have seen significant advances, commercially available photodetectors have low wavelength selectivity and modulation bandwidth in the near-violet-blue wavelengths, making them a bottleneck in VLC links. Here we show a record 7.4-Gbit/s visible-light communication link using a wavelength-selective, ($\mathbf {20}\overline {21}$)-oriented, semipolar InGaN/GaN multiple-quantum-well micro-photodetector ($\mu $ PD) on GaN substrate. This is achieved by leveraging on the unique photodetection properties of semipolar $\mu $ PDs, combined with an optimized communication system utilizing bit- and power-loading schemes in orthogonal frequency-division multiplexing (OFDM) modulation over a 2-GHz bandwidth. We used a 405-nm violet laser diode transmitter as the responsivity of the $\mu $ PD was highest within the responsivity range of 360 - 420 nm. The investigation fully demonstrated the feasibility and favorable choice of semipolar InGaN/GaN $\mu $ PDs for multi-Gbit/s optical wireless communication. [ABSTRACT FROM AUTHOR]

Published

2020

10. Piezotronic AlGaN nanowire Schottky junctions grown on a metal substrate.

Author

Al-Maghrabi, Latifah, Huang, Chen, Priante, Davide, Tian, Meng, Min, Jung-Wook, Zhao, Chao, Zhang, Huafan, Subedi, Ram Chandra, Alhashim, Hala H., Sun, Haiding, Ng, Tien Khee, and Ooi, Boon S.

Subjects

HETEROJUNCTIONS, SCHOTTKY barrier, SCIENTIFIC community, CRYSTAL structure, SEMICONDUCTOR nanowires, METALS, SILICON nanowires, MOLYBDENUM

Abstract

The non-centrosymmetric crystal structures of polar-semiconductors comprising GaN, InN, AlN, and ZnO intrigued the scientific community in investigating their potential for a strain-induced nano-energy generation. The coupled semiconducting and piezoelectric properties produce a piezo-potential that modulates the charge transport across their heterostructure interfaces. By using conductive-atomic force microscopy, we investigate the mechanism that gives rise to the piezotronic effect in AlGaN nanowires (NWs) grown on a molybdenum (Mo) substrate. By applying external bias and force on the NWs/Mo structure using a Pt–Ir probe, the charge transport across the two adjoining Schottky junctions is modulated due to the change in the apparent Schottky barrier heights (SBHs) that result from the strain-induced piezo-potential. We measured an increase in the SBH of 98.12 meV with respect to the background force, which corresponds to an SBH variation ∂ ϕ ∂ F of 6.24 meV/nN for the semiconductor/Ti/Mo interface. The SBH modulation, which is responsible for the piezotronic effect, is further studied by measuring the temperature-dependent I–V curves from room temperature to 398 K. The insights gained from the unique structure of AlGaN NWs/Mo shed light on the electronic properties of the metal-semiconductor interfaces, as well as on the potential application of AlGaN NW piezoelectric nanomaterials in optoelectronics, sensors, and energy generation applications. [ABSTRACT FROM AUTHOR]

Published

2020

11. Quantified hole concentration in AlGaN nanowires for high-performance ultraviolet emitters.

Author

Zhao, Chao, Ebaid, Mohamed, Zhang, Huafan, Priante, Davide, Janjua, Bilal, Zhang, Daliang, Wei, Nini, Alhamoud, Abdullah A., Shakfa, Mohammad Khaled, Ng, Tien Khee, and Ooi, Boon S.

Published

2018

12. Nanostructured Gallium Nitride Membrane at Wafer Scale for Photo(Electro)catalytic Polluted Water Remediation (Adv. Sci. 6/2023).

Author

Zhang, Huafan, Min, Jung‐Hong, Chung, Tae‐Hoon, Lee, Kwangjae, Gnanasekar, Paulraj, Min, Jung‐Wook, Park, Tae‐Yong, Wang, Yue, Ng, Tien Khee, Schwingenschlögl, Udo, Gan, Qiaoqiang, and Ooi, Boon S.

Subjects

GALLIUM nitride, LIQUID carbon dioxide, CARBON dioxide in water, NITRIDES

Abstract

B Solar-Driven Wastewater Remediation b In article number 2205612 by Boon S. Ooi and co-workers, a wafer-scale nanostructured semiconductor membrane is fabricated for photo(electro)catalytic wastewater remediation. Driven by natural sunlight, the reusable semiconductor device effectively decomposes organic pollutants in liquid into carbon dioxide and clean water. [Extracted from the article]

Published

2023

13. Characterization of deoxyribozymes with site-specific oxidative cleavage activity against DNA obtained by in vitro selection.

Author

Wang, Ming-Qi, Dong, Juan, Zhang, Huafan, and Tang, Zhuo

Published

2016

14. In vitro selection of DNA-cleaving deoxyribozyme with site-specific thymidine excision activity.

Author

Wang, Mingqi, Zhang, Huafan, Zhang, Wei, Zhao, Yongyun, Yasmeen, Afshan, Zhou, Li, Yu, Xiaoqi, and Tang, Zhuo

Published

2014