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多刊征稿合集 | Geofluids、Nanotechnology、Optics、Spectroscopy征稿

已有 286 次阅读 2025-10-11 17:35 |系统分类:科研笔记

征稿特刊1

地下水化学成分对地质及环境过程的影响

Impact of Groundwater Chemistry on Geological and Environmental Processes

特刊简介：

地下水化学决定其饮用、农业及工业适用性。矿物溶解、水岩作用、地球化学循环等自然过程，以及工业排放、农业径流和城市化等人为活动，均会显著改变地下水化学成分，进而影响矿物形成与演化等地质过程，并引发生态系统退化、水源污染等环境问题。本期特刊聚焦地下水化学与地质、环境过程的复杂关联，重点探讨自然与人为因素如何影响地下水资源的品质与可持续性。

我们欢迎运用先进地学技术、地球化学模型、统计分析及风险评估方法的研究，旨在推动地下水污染治理，制定有效管理与修复策略。本刊接受原创研究与综述投稿。

本期特刊议题包括但不限于：

The role of groundwater chemistry in geologic processes, including mineral formation and weathering
The assessment of the impact of anthropogenic activities on groundwater quality and associated environmental risks
Geospatial and geochemical modeling techniques to understand groundwater contamination pathways
Innovative strategies for groundwater management and pollution reduction
Interactions between groundwater chemistry and environmental processes such as ecosystem health and biodiversity
Studies of the impact of groundwater contamination on public health and remediation efforts
Groundwater vulnerability assessment and risk assessment methods for water resource protection

客座编辑：

Senpathi Venkatramanan

National College

Tiruchirappalli, India

Abu Reza Md. Towfiqul Islam

Begum Rokeya University

Rangpur

Xiaolang Zhang

Florida Atlantic University

Boca Raton, USA

Yong Xiao

Southwest Jiaotong University

Chengdu, China

📌本期特刊截稿日期：

03 November 2025

征稿特刊2

深地工程中流体地质灾害的机制及预防措施

Mechanisms and Prevention of Fluid Geological Disasters in Deep Engineering

特刊简介：

随着采矿深度增加，煤岩体应力持续上升。深部地下环境具有高水压、高地压、高地温的典型特征，而采矿扰动作用强烈且具有时效性，这些因素使地下工程开发面临持续挑战，并增加动力灾害风险。

本特刊旨在聚焦高温、高地应力、高水压耦合作用下深部工程地质灾害机理与控制研究，同时关注掘进过程中水气防治涉及的多相、多尺度、多场耦合复杂问题。我们欢迎原创研究与综述投稿。

本期特刊议题包括但不限于：

Nonlinear fluid mechanics and aging characteristics of deep rock mass
Damage behavior of deep rock mass with hydromechanical properties
Studies on multi-field coupling failure mechanisms of fluid in deep rock mass
Mechanisms and geological models of rock burst
Mechanisms and models of large deformation in fluid geology
Prediction methods for deep geological disasters
Active control technology for deep geological disasters
Mechanisms of structure deterioration

客座编辑：

He Yongliang

Taiyuan University of Science and Technology

Taiyuan, China

Yuping Fu

Taiyuan University of Science and Technology

Taiyuan, China

Liying Sun

Taiyuan University of Science and Technology

Taiyuan, China

本期特刊截稿日期：

26 December 2025

期刊简介

Geofluids是一本开放获取期刊，刊载有关流体在地球地壳的矿物学、化学及结构演变过程中的作用方面的研究成果。

Citation Impact

2024 CiteScore:	3.6
2024 Journal Impact Factor :	1.2
Submission to the First Decision	57 days

征稿特刊3

等离子体纳米粒子阵列的制备与应用

Fabrication and application of plasmonic nanoparticle array

特刊简介：

等离激元金属纳米颗粒可通过局域表面等离激元共振增强近场，广泛应用于传感器、结构色、纳米激光器等领域。但单颗粒的辐射能量损耗导致共振谱线宽大、品质因子低，限制其应用潜力。

近期研究发现，周期性纳米颗粒阵列可通过表面晶格共振实现窄线宽、高Q值共振，其由单个颗粒LSPR与阵列衍射模式耦合产生。然而，现有制备技术成本高、流程复杂或难以精确调控晶格参数。

本特刊邀稿聚焦可调控参数（如尺寸、周期、对称性）的等离激元纳米阵列制备新方法，同时欢迎综述其制备技术、光学特性与应用前景的研究，以及在光电、催化、超材料等领域的创新应用。

本期特刊议题包括但不限于：

Development of high precision, cost-effective, scalable manufacturing methods (e.g., interfacial self-assembly, polymeric template directed synthesis, hybrid top down/bottom-up approaches) or plasmonic nanoarray
Tunable optical properties of plasmonic nanoarray (e.g., enhanced Q factor, near field amplification, and spectral tunability)
Plasmonic nanoarray for sensors, structural/ plasmonic colors, nanophotonics, nano lasering, catalysis, optical metamaterials, and plasmon-enhanced spectroscopies applications
Functional devices leveraging plasmonic array-specific optical responses
New physical properties and applications

客座编辑：