科研成果
学院拥有一支学识渊博、学术水平较高、创新能力较强的学科带头人和学术骨干队伍。学院瞄准国家重大需求和地方经济建设,在稀土材料、新能源材料、智能显示技术、智能制造、集成电路设计、半导体器件等方向开展科学和技术研究,建立了稀土材料及应用研究中心、先进显示技术与材料研发中心、智能控制工程技术研究中心等科研平台,成立了稀土功能材料、高光谱成像技术应用、等离子体技术与应用以及智能控制技术等4个校级重点学科协同创新团队,近年来学院教师共发表SCI收录论文100余篇,其中在PRL、PR系列等权威期刊发表高水平论文(SCI一区、二区论文)40余篇,各类科研课题90余项,其中国家级项目23项,科研总经费1100多万元。
科研机构
1、稀土材料及利用研究中心
为进一步加强对稀土材料的基础性研究,提高稀土资源的绿色、高效、高值化利用,为赣州当地经济和社会发展服务,2019年4月经学校研究决定成立稀土材料及利用研究中心,挂靠在物理与电子信息学院。研究中心设立稀土发光材料及其应用、稀土磁性材料研究、稀土功能陶瓷材料及其应用、稀土镁合金的研制等四个研究方向。中心现有科研人员20人,其中正高级职称6人,副高级9人,具有博士学位的人员15人。现有实验室面积300余平方米,拥有500余万元与中心研究领域相关的科研仪器设备。目前中心与中科院长春应用化学研究所张洪杰院士团队紧密合作,在稀土上转换发光材料、稀土白光LED荧光粉及稀土激光晶体等方面得到该团队的大力支持。
2、先进显示技术与材料研发中心
主要致力于教育信息化物联网显示终端的软、硬件研发和整机产业化。重点围绕超短焦成像、新型投影光学引擎、人机交互技术等面向教育产业现代化和智慧校园应用。主要建设内容包括整机安卓系统开发;成像系统研发;固态光源开发及应用;基于TFT-LCD微显示图像芯片和主动发光芯片的投影系统开发;智慧校园管理软件开发等。通过相关技术转化,协助省内企业产业化,培养专业人才,助力全省电子信息显示产业链发展。中心现有科研人员14人,其中正高级职称3人,副高级9人,具有博士学位的人员13人。
3、低温等离子体技术研究所
赣南师范大学“低温等离子体技术研究所”于2018年获批成立。研究所依托物理与电子信息学院,已经建立了一支业务能力较强、综合素质较高、具有发展潜力的学术队伍。研究所现有科研人员10余人,其中教授2人,副教授2人,具有博士学位人员7人,硕士研究生导师5人。研究所拥有多种规格等离子体电源、多种规格等离子体发生器、四通道示波器、混合域示波器、快脉冲高压探头、电流探头、便携式紫外-可见光纤光谱仪、气体分析仪、接触角测量仪、BOD测定仪、水质分析仪、生物显微镜、ICCD光谱成像系统等一批先进的利学仪器设备。研究所主要进行低温等离子体放电技术及其应用相关基础研究,包括大功率半导体开关驱动电路开发、中频高压逆变技术及等离子体电源技术研发;脉冲放电、强电离放电等新型放电技术;等离子体放电技术在生物医学、环境治理、材料制备等领域的交叉应用研究。
4、智能控制工程技术研究中心
赣南师范大学智能控制工程技术研究中心下设智能感知与自主控制、智能农业监测与大数据、检测技术与自动化装置、智能电网与非线性控制等4个研究方向。中心现有研究人员20余人,其中正高级职称6人,副高级职称14人,具有博士学位的研究人员19人。在面向农业、环境、生态等应用的检测技术及自动化装置,以及血吸虫尾蚴监测、雷达目标成像、目标识别与跟踪、农作物病虫害监测、农业生产高光谱遥感等等方面形成了自己的研究特色。
科研奖励
[1]开放系统中的弱测量调控技术和量子参数估计研究,江西省自然科学奖三等奖,肖兴
[2] 大气压DBD等离子体放电机制及其相关应用研究,江西省自然科学奖三等奖,黄骏、陈维、王兴权、陈光良
2023年在研国家级课题
[1]卢天祥,腔磁振子杂化系统中奇异点辅助的阻塞效应理论研究,30万,2023.01-2025.12
[2]孟军霞,有序层状/无序岩盐富锂锰基正极材料精准构筑及锰电化学活性机理研究,30万,2023.01-2025.12
[3]肖兴,噪声下的分布式量子参数估计研究,34万,2023.01-2026.12
[4]余意,化学单元共取代策略下多离子协同作用构筑新型~2.7μm中红外激光晶体结构及其光谱性能调控研究,32万,2023.01-2026.12
[5]刘柳成,三明治结构碳化钼/钯铜/碳化钼复合膜界面调控对氢渗透性能的影响及其机理,12万,2022.01-2025.12
[6]张宪科,钙钛矿型稀土铁酸盐微纳结构的构筑及室温自发交换偏置效应的研究,22.8万,2022.01-2025.12
[7]陈维,大气压等离子体射流辅助单层过渡族金属硫化物选择性区域化掺杂的机理研究,40万,2021.01-2024.12
[8]管立新,柑橘黄龙病的生理生化组分高光谱特征响应及大尺度监测研究,35万,2021.01-2024.12
[9]黄骏,等离子体辅助富缺陷三元过渡金属硫化物纳米结构的构筑及电催化性能研究,36万,2021.01-2024.12
[10]李孟山,大规模粒子并行演化溶解行为多尺度模型的关键技术研究,35万,2021.01-2024.12
[11]匡芳光,低维氧化镁体系d0铁磁性的理论研究,38万,2020.01-2023.12
[12]王凤鹏,基于计算散射传输矩阵的无参考光全息成像方法研究,39万,2020.01-2023.12
[13]康书英, 极性双原子分子精细结构及激光冷却的研究:以GaH分子为例,38万,2019.01-2022.12
近年发表二区以上SCI论文
[1]陈思.Femtosecond Pulsed Fiber Laser by an Optical Device Based on NaOH-LPE Prepared WSe2 Saturable Absorber.nanomaterials.Aug-22
[2]陈思.Highly Sensitive Photothermal Fiber Sensor Based on MXene Device and Vernier Effect.nanomaterials.Feb-22
[3]陈维.High-efficiency oxygen evolution catalyzed by Sn-Co-Ni phosphide with oriented crystal phases.Journal of Materials Chemistry A.Jun-22
[4]陈维.In-situ engineered heterostructured nickel tellur-selenide nanosheets for robust overall water splitting.Chemical Engineering Journal.May-22
[5]陈维.Multiphase nanosheet-nanowire cerium oxide and nickel-cobalt phosphide for highly-efficient electrocatalytic overall water splitting.Applied Catalysis B: Environmental.Jun-22
[6]陈维.One-step in-situ sprouting high-performance NiCoSxSey bifunctional catalysts for water electrolysis at low cell voltages and high current densities.Chemical Engineering Journal.Jan-22
[7]黄骏.Heterostructured palladium-nickel sulfide on plasma-activated nickel foil for robust hydrogen evolution.ACS Sustainable Chemistry & Engineering.Jun-22
[8]黄骏.High-performance CoNb phosphide water splitting electrocatalyst on plasma-defect-engineered carbon cloth.Chemical Engineering Journal.Jun-22
[9]李孟山.A microscopic computational model based on particle dynamics and evolutionary algorithm for the prediction of gas solubility in polymers.Journal Of Molecular Liquids.Jul-22
[10]刘小清.Influence of grain size on microstructure, mechanical properties and strain hardening behavior of Mg-0.3Ca (wt.%) alloy.Materials Science and Engineering A.Apr-22
[11]马向东.Red@Black phosphorus core–shell heterostructure with superior air stability for high-rate and durable sodium-ion battery.Materials Today.Aug-22
[12]孟军霞.Induction and Maintenance of Local Structural Durability for High-Energy Nickel-Rich Layered Oxides.Small Methods.May-22
[13]孟军霞.Modulating Crystal and Interfacial Properties by W-Gradient Doping for Highly Stable and Long Life Li-Rich Layered Cathodes.Advanced Functional Materials.Feb-22
[14]孟军霞.Modulating Crystal and Interfacial Properties by W-Gradient Doping for Highly Stable and Long Life Li-Rich Layered Cathodes.Advanced Functional Materials.Feb-22
[15]牟机熔.A highly-effcient electrocatalyst for room temperature sodium-sulfur batteries: assembled nitrogen-doped hollow porous carbon spheres decorated with ultrafne α-MoC1-x nanoparticles.Energy Storage Materials.Jul-22
[16]许翀.A complex-valued slow independent component analysis based incipient fault detection and diagnosis method with applications to wastewater treatment processes..ISA Transactions.Sep-22
[17]余意.Crystal growth, first-principle calculations, optical properties and laser performances toward a molybdate Er3+:KBaGd(MoO4)3 crystal.Journal of Luminescence.Sep-22
[18]余意.Triple-Wavelength Lasing with a Stabilized β-LaBSiO5:Nd3+ Crystal.JOURNAL OF ATHE AMERICAN CHEMICAL SOCIETY.Jun-22
[19]苑举君.Construction of Fe7Se8@Carbon nanotubes with enhanced sodium/potassium storage.Journal of Colloid and Interface Science.Jun-22
[20]苑举君.Fabrication of Nb2O5/Carbon Submicrostructures for Advanced Lithium-Ion Battery Anodes.Chemistry—A European Journal.Aug-22
[21]苑举君.In-Situ Synthesis of Carbon-Encapsulated Atomic Cobalt as Highly Efficient Polysulfide Electrocatalysts for Highly Stable Lithium–Sulfur Batteries.Small.Feb-22
[22]苑举君.Pomegranate-like structured Nb2O5/Carbon@N-doped carbon composites as ultrastable anode for advanced sodium/potassium-ion batteries.Journal of Colloid and Interface Science.Jan-22
[23]苑举君.Three-dimensional porous FeS@N doped carbon nanosheets for high-rate and high-stable sodium/potassium storage.Composites Part B.Sep-22
[24]张宪科.Facile synthesis of La2O3/Co@N-doped carbon nanotubes via Prussian blue analogues toward strong microwave absorption.Carbon.Aug-22
[25]陈维. Nb-doped layered FeNi phosphide nanosheets for highly-efficient overall water splitting under high current densities. Journal of Materials Chemistry A. Mar-21
[26]黄骏. Trimetallic octahedral Ni-Co-W phosphoxide sprouted from plasma-defect-engineered Ni-Co support for ultrahigh-performance electrocatalytic hydrogen evolution. ACS Sustainable Chemistry & Engineering. May-21
[27]孟军霞. Na-substitution induced oxygen vacancy achieving high transition metal capacity in commercial Li-rich cathode. Nano energy. Mar-21
[28]余意. Crystal growth, structure and laser performance of a newYb3t:KBaY(MoO4)3 crystal. Journal of Rare Earths. Oct-21
[29]余意. Research on a novel molybdate Er3+:KBaY(MoO4)3 crystal as a prominent 1.55 μm laser medium. Journal of Luminescence. May-21
[30]余意. Thermal analysis and 1.38 μm CW laser performances based on a new tungstate crystal Nd3+:Na2La4(WO4)7. Journal of Luminescence. Apr-20
[31]苑举君. Fabrication of ZnSe/C Hollow Polyhedrons for LithiumStorage. CHEMISTRY-A EUROPEAN JOURNAL. Sep-21
[32]邹万芳. Characteristics of audible acoustic signal in the process of laser cleaning of paint on metal surface. Optics and Laser Technology. Jul-21
[33]陈维. In-situ engineered 3D Cu3Se2@CoSe2-NiSe2 nanostructures for highly efficient electrocatalytic water splitting. ACS Sustainable Chemistry & Engineering. Nov-20.
[34]陈维. Water-sprouted, plasma-enhanced Ni-Co phospho-nitride nanosheets boost electrocatalytic hydrogen and oxygen evolution. Chemical Engineering Journal. Jul-20.
[35]黄骏. Just add water to split water: ultrahigh-performance bifunctional electrocatalysts fabricated using eco-friendly heterointerfacing of NiCo diselenides. Journal of Materials Chemistry A. May-20.
[36]黄骏. Mulberry-Inspired Nickel-Niobium Phosphide on Plasma-Defect-Engineered Carbon Support for High-Performance Hydrogen Evolution. Small. Nov-20.
[37]黄骏. Multiphase Ni-Fe-selenide nanosheets for highly-efficient and ultra-stable water electrolysis. Applied Catalysis B: Environmental. Jun-20.
[38]黄骏. Plasma-heteroatom-doped Ni-V-Fe trimetallic phospho-nitride as high-performance bifunctional electrocatalyst. Applied Catalysis B: Environmental. Jul-20.
[39]黄骏. Trimetallic Mo-Ni-Co Selenides Nanorod Electrocatalysts for Highly-efficient and Ultra-stable Hydrogen Evolution. Nano Energy. Feb-20.
[40]李孟山. A decision support system using hybrid AI based on multi-image quality model and its application in color design. Future Generation Computer Systems-the International Journal of Escience. Jul-20.
[41]余意. Thermal analysis and 1.38?μm CW laser performances based on a new tungstate crystal Nd3+:Na2La4(WO4)7. Journal of Luminescence. Apr-20.
[42]苑举君. Heterogeneous structured MoSe2–MoO3 quantum dots with enhanced sodium/potassium storage. Journal of Materials Chemistry A. Oct-20.
[43]苑举君. MOF derived ZnSe–FeSe2/RGO Nanocomposites with enhanced sodium/ potassium storage. Journal of Power Sources. Feb-20.
[44]张宪科. Exchange bias effect in hierarchical NiO/NiFe2O4 sub-microcubes fabricated via a self-sacrifice template process. Journal of Alloys and Compounds. Jan-20.