Locatedinthenortherncoreof HuairouScienceCity，thePlatformofAdvancedPhotonSource TechnologyR&D(PAPs)isco-builtbythe Instituteof High EnergyPhysics,ChineseAcademyof SciencesandBeijing Huairou ScienceCityConstruction&DevelopmentCo.Ltd.AlignedwithChina's strategyforlarge-scalelight-sourcefacilities,PAPsprovidesascientific,systematicand comprehensiveenvironmentforR&Dandengineeringvalidation,masteringcutting-edge superconductingacceleration,X-rayopticsanddetectiontechnologiesalreadydeployedin domesticandoverseasaccelerator-basedmega-facilities.Lookingahead,theplatformwillcarry outforward-lookingand systematicresearch insupportofanewgenerationof high-performance light-source projects.

“Twin Pillars"Of Light-source Technology: Two Platforms Driving Innovation

Grounded intheprinciples ofadvancedlight-sourcetechnologyanditsapplications,PAPsis organizedintotwosub-platforms:AcceleratorTechnologyInnovationandX-rayTechnology Innovation.

TheAcceleratorTechnologyInnovationSub-platformcomprises fourmodules:superconducting RF systems,cryogenicsystems,precisionmagnet systemsand beam-test systems.Addressingthe evolutionoflight-sourcetechnologyandtheneedsofnationalmega-scienceprojects,itdevelops newtechnologies,performsperformancetestingandproof-of-principlevalidationandultimately deliversadvanced,matureandreliablekeyacceleratortechnologiesandequipment.

TheX-rayTechnology Sub-platformconsistsof three modules:X-ray optics,X-raydetectionand X-rayapplications.TheX-rayopticsmodulefocusesonultra-high-resolutionmetrologyfabrication, alignmentandassemblytechnologiesdrivenbythefront-end needsof X-rayopticalcomponents. TheX-raydetectionmoduledevelopshigh-performanceX-raydetectors.TheX-rayapplications moduleintegratesadvancesinopticsanddetectiontocreateinnovativeexperimentalmethodsand techniquesinimagingdifraction/scattering,spectroscopyandtime-resolvedscience.

Top Scientists + Steadily Emerging Innovations

PAPShasassembleda high-caliber researchteam ledby Professor PanWeimin.More than200 scientistsandengineersarecurrentlyengaged inR&Dand operations,over60%ofwhomhold seniortitles,spanningmultiplefundamentaldisciplines.

Drivenbyscientificneeds,theplatform hasachievedastringof core-technologybreakthroughs.

Itdevelopeda1.3GHz9-cellsuperconductingcavityandcryomodulethatdeliverthehighest Q-factorintheworld,crackingakeytechnologyurgentlyneededfornationalmega-facilitiesand puttingChinaattheglobalforefrontof high-Qsuperconductingacceleratortechnology.The designhasbeenadoptedbytheDalianAdvancedLightSourceandisalsosupplyingadvanced solutionstocomparablefacilitiesoverseas.

Itcreateda scanning-stitching interferometerfor surface-profileandabsolutewavefront metrologyofX-raymirrorsandCRLs.Domesticallyfabricatedplanemirrorsco-developedwiththe platformachieve0.50nmand50.0nradRMssurfaceslopeerror.

Itengineered silicon-driftSDDdetectorsbyestablishingan8-inchdedicated semiconductor process,enabling fabricationof single-elementandarraySDDsensorsandbecoming thefirst domesticgrouptolocalizethekeytechnologiesofsDDdetectors.

Itsuppliestechnical support andassurancefor the High Energy Photon Source(HEPs),including testingandvalidationofRFcavities,testing/alignment/commissioningofhigh-precisionmagnets, andfabrication/metrology/alignmentofthehigh-precisionopticalelementsrequiredforHEPs's firstbeamlines.

Open Resources To Accelerate Science

Installationandprocess-performanceacceptancehavebeen completed,andtheplatformisnowintrialoperation.While providingkey-technologysupporttomega-facilitiessuchas HEPSandtheChinaSpallationNeutronSource(CsNs)，PAPSis activelycollaboratingwiththeShanghaiHardX-rayFree ElectronLaserFacility(sHiNE)，DalianCoherentLightSource (DCLS)and Hefei Advanced LightFacility (HALF), demonstratingstrongprospectsforsustainable growth.

Contacts

Contact Person:Prof.Dong Tel:+86-10-8823-6507 Email:dongll@ihep.ac.cn

09

Guide to the Facilities and Platforms of Huairou Science City

INTEGRATEDEXPERIMENTAL PLATFORMFORADVANCED TRANSPORTATIONAND MEASUREMENTTECHNOLOGY

Asoneof thefirstinterdisciplinaryplatformsco-builtby Beijing MunicipalityandtheChinese Academy of Sciences(CAs)in Huairou ScienceCity,the Integrated Experimental Platformfor Advanced Transportationand MeasurementTechnologywasconstructedbythe Instituteof MechanicsofCAsand isnowfullopen.Usingsystematicmechanicsmethods,theplatformreveals couplingrulesand quantitativerelationsbetweenkeysystemperformanceand criticalinfluencing factors,ofering world-classexperimental conditionsfortechnicalbreakthroughsand system-level studiesinnear-space hypersonicvehicles,high-speedtrains,and high-precisionspace measurements.

Three Sharp Tools For Mechanics Research

Tosupportcuting-edge systematic-mechanicsresearch,the Integrated Experimental Platform has installedthreesub-platformsonthe Huairoucampusofthe InstituteofMechanics:aGround SimulationPlatformforNear-SpaceHypersonicFlight,aReliabilityTestPlatformforHigh-SpeedTrain Components,andaPicometer-PrecisionLaserInterferometryPlatform.

Ground Simulation Platform For Near-space HypersonicFlight

This platformperforms ground testing ofaerodynamiccharacteristics,target signatures,flight control,andcomponent/structural survivabilityfornewflightvehicles.Itcomprises three sub-systems:alimb-probing test platform for hypersonicvehiclesinthe transitional-flow regime,a hardware-in-the-loopsimulationsystemfor high-speedflight,anda40-tonshaker plusaneight-channel coordinated static-load test rig.Togetherwith thecampus'shock tunnel that reproduces hypersonicconditions,avariable-Mach propulsionwind tunnel,asmall long-runfree-jetfacilityandaplannedlong-durationrarefied-gashypersonictunnel,itforms aworld-classaerospacetestensemble.

Reliability TestPlatform ForHigh-speed Train Components

Thisplatformevaluatessafety,reliability,and dynamicbehaviorofcritical high-speed-train componentsandsupportsstructural optimization.Builtaround theexisting moving-model rigoncampus,itadds cross-windsimulation,amaglevshaker,anda six-degree-of-freedomvibrationtable,creating afull-spectrum ground-test environmentfor the nextgenerationofChinesehigh-speedtrains. Thedata helpsetrational overhaul intervalsand giveChina'shigh-speedrailasafer,more competitiveedgeworldwide.

Picometer-precision Laser Interferometry Platform

Theplatformprovidespicometer-level metrology，inspection,andcalibration.It supportsmajorprogramssuchasadvanced electric propulsion,high-precisionspace gravity mapping,space-based gravitational-wave detection,gravitomagneticeffectstudies,and equivalence-principletests,furnishingthe picometertechnologiesthesemissionsrequire.It alsounderpins close cooperationwith leading international partnerssuchas the European Space Agency.

Strong Team,Visible Results

Sincecommissioning,the platform has builtacombined R&Dandengineering support staffof 17 seniorresearchers,24mid-levelresearchers,and19 professional engineerswhoseexpertisespans overalldeignerodynamics,solidechaics,aterialsece,flightcotrol,meical engineering,andsoftware/hardwaredevelopment.Theteamisnowpositionedtotackle high-prioritynationalneedsandresearchproblemsthataffecteverydaylife.

Inrail transport,themoving-modelrig systematicallyevaluatespressure loadsontrainnoses, cross-windeffects,andotherkeymetrics,supplyingaerodynamicdatathat guidefinalvehicle design.

Forquantum sensingandmicro-gravitymeasurement,theplatform helped theLanzhou Instituteof Physics,CAsTachievearecord-breaking torsion-balancesensitivityof10区区g,the bestinChina. Thehigh-precision torsion-balance system nowservesmajor national programssuchas gravitational-wavedetectionandinertialnavigation,includingtheTaijiprogramandrelatedkeyR&D projects.Thetechnologyhasbeentransferredtohigh-endinstrumentssuchashigh-precision inertialsensorsandmicro-force testdevices,generating strongeconomicreturns.

Breaking Down Barriers To Build A Shared Ecosystem

Toaccelerate technologytransferandresource sharing,theplatformoperatesafullopen-access
schedulethatthisyearoffers:450hoursonthe hypervelocitymodel launch&measurement system1,200 hours onthe 40-ton shakerand eight-channel coordinated static-load rig500hoursonthe high-speed flight hardware-in-the-loop simulator1,200hoursonthe high-speed trainmoving-model platform500hoursonthepicometer-precisionlaser interferometryplatformCompaniescanbooktime online throughthe CAs Equipment SharingPortal(http://samp.cas.cn/) orcontactindividualinstrumentmanagersfor joint R&Dorcontractedtesting.中国科学院SAMP 力学研究所仅器名称/基型号目名称 Q陈玉莹mechhen.CHINESE ACADEMY OF SCIENCES1仪器分类 首页 信息查阅 预约申请 结算管理 系统管理 报表中心预约申请 2仪器范围 本单位仪器 Y 样品分类 请选择 T 项目名称 更多条件预的冲请
扇 功能 仪器名称 仪器型号
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菜 委托单管理 4 预约 音询 重置
单个人费用□ 3 仪器名称 项目 所属单位 联系人 联系电话 预约类型 状态 预约开始 操作卡权限查询口 维光多普勒测速系统 速度测量 力学究所 安 82544202 项目预约 正常 01□ 40吨藏动台、通通协调加救静力试验平台 振动试验静力试验 力学研究所 龙丽平 82543291 项目预约 正常 01□ DMA动态力学分析仪 DMA更试（变），D.力学研究所 张坤(N.. 82544108 项目预约 正常 0□ GH武马波风购 气动力/热测试 力学究所 岳连建 82543883 项目预约 正常 01□ INSTRONE1000O轴/材料试验机 材料力学测试 力学研究所 邹勇 82543920 项目预约 正常 0□ IF-14气发管/风 气动力/热测试 力学研究所 张晓源 18511077689 项目预约 正常 010□ JF-24动直联台试验著置 气动力/热测试 力学研究所 张源 18511077689 项目预约 正常 1□ J10动商风 气动力/热调试 力学研究所 单烟伟 13716629582 项目预约 正常 01.□ F8A波风润 气动力/热测试 力学研究所 喻江 82543915 项目预约 正常 01
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Contacts

ContactPerson:Prof.Chen Tel:+86-10-8254-4075 Email:chenyuying@imech.ac.cn

Guidetothe Facilities and Platforms of Huairou Science City

BEIJINGLASER ACCELERATION INNOVATIONCENTER (BLAIC)

Lasertechnologyiswidelyusedinindustrymedicine,telecommunications,defense,andmanyother sectors,making itoneof thecoredriversofmodernsocietaldevelopment.Asoneof the14 interdisciplinaryresearchplatformsprioritizedinHuairou ScienceCitythe BeijingLaserAcceleration InnovationCenter (BLAlC)officiallycommenced operationsattheend of 2024.Thefacilitycovers 30,000m²offloorspaceandisdedicatedtobuildingtheworld'smosttechnologicallyadvancedand functionallycompleteR&Dplatformforlaser-drivenaccelerators.

16 Experimental Platforms Fully Online, Opening A New Era Of Laser-acceleration Applications

Beamsproducedbylaseraccelerationfeatureultrashortpulsesandextremelyhighpeakcurrent. Leveragingtheseadvantages,BLAlc targetsglobalscientificfrontiers,focusingoncancer immunotherapyandkeytechnologiesfor large-scalemedicalprotonradiotherapysystems.The centeralsohasbroadapplicationprospects innuclearmedicine,space-radiation-environment simulationiertial-coninementuion,R,ndgh-nergy-densityyics.

Atpresent,thecenterhascompleted16 experimental platforms:5 research platforms(2ooTWlaser&targetarea,ultrafast ion-beamapplications,fusion-plasma diagnostics,space-irradiationeffects,andprotonradiography&warm-dense matter) plus11 process-support platforms.

Inparallel,7majorauxiliary laboratorysystemsrequiredforhigh-power laser-acceleration research havebeeninstalled:gassupplyvacuumpumproom,external-circuitcooling-water system,overheadcrane,shielding-doorsystemauxiliary-equipmentcontrolsystem,mastercontrol room,andmachineroom,togetherprovidingfullsupportforhigh-powerlaser-accelerationresearch.

Toservenationalstrategicneeds,BLAicleadstheMinistryofScience&Technology'sMajorScientific InstrumentProgram"ResearchandApplication Demonstrationofa PetawattLaser Proton Accelerator,"tacklingkeytechnological challngesinlarge-scalemedicalprotonradiotherapy systems.Additionalprocess-support platformswillbebuiltinphasestoguarantee scientific objectivesandtolaythe groundworkfor industry-academia-research integration.

Inthe coming years,thecenterwillcarryout pioneering studiesonthe generationof laser-driven high-energycharged-ionbeamsandtheirapplicationsinfusionenergy,space-radiationsimulation, biologicalirradiationandultrafastion-beamtechnologies,fosteringcross-disciplinaryintegration amonglaseracceleratorsandtheenergy，space,life-science,andmaterialscommunities.

From Technical Breakthroughs To Practical Applications,Translating Research Results At Accelerated Speed

Professor YANXueqing of Peking University's School of Physicsand Director of BLAlC leadsa R&D teamthat haslongfocusedonthetheoryand experimentsof laser-plasmaacceleration.Under his guidance,Peking University'sLaserAcceleratorLaboratoryhasachievedaseriesof internationally influentialbreakthroughs:thefirstproposalof thelaserphase-stabilizedaccelerationprincipleand thecritical-densityplasma-lens method;the first experimental demonstration of phase-stabilized acceleration,twice breaking the world record for carbon-ion energy driven by femtosecond lasers;and advances inadvanced nano-targets, high-repetition-rate high-precision target shooting,and extended-Bragg-peak beamdelivery.

Inappliedresearch,thelaboratorywilldeepenstudiesofaccelerationandradiationinlaser-plasma interactionsandtheoreticallyexplorethefeasibilityof generatingparticlesatTeV-PeVenergies. Withinthenextfewyears,itwillbuildanewultra-compacttabletoplaserparticleacceleratorand launchappicationojectsincncerthrapylasmadagnosticsndionst-ignitionfuonwhile alsosupporting thedevelopment of laser-drivengamma-rayand broadbandcoherent light sources.

InadditionBeijingRuidekangTechnologyCo.td.foundedbyProfessorYaniscommidto commercializingthe“Laser ProtonKnife,acancer-therapydevicebased onpetawattlaserproton accelerators.AsChina'sfirstand world-leading precisionradiotherapysystem,the Laser ProtonKnife usesultrahigh-peak-power laser-targetinteractionstogeneratetransientstrongelectricfieldsthat accelerateprotonsto\~l0oMeVwithinafewhundredmicrometers.Thisrevolutionizestraditional proton-beamgenerationminiaturizesproton-therapysystems,andisexpectedtolowerthebarrier towidespread adoptionof precisionradiotherapy.

Focusing On Resource Allocation And Optimizing The Sharing Mechanism

Someresearchplatformsunderthecenter,whilegivingprioritytointernalusers,areopentoexternal usersinanorderlymanner.

Forenterprise technology-developmentusers,beamtimewillbeallocatedaccordingtothetotal hoursstipulatedincontracts oragreementsundera market-based feemodel.(Note:a beam-timerequestmustbe submittedat leasttwoweeks inadvancesothat experimental resourcescan bescheduled.)

Eligibility

Application Materials

Scientificresearch institutionsand high-tech enterprises;

Researchproposalsmustcomplywith equipment specificationsand safety regulations.

Review Procedure

Initialreviewbytheequipmentresponsible scientist-assessmentofscientificmeritand feasibilitybylaboratory leaders-finalreview (reportedto the projectmanager meeting);

Resultswill be sent by e-mail within 20 working daysaftersubmission.

Legal-personcertificates of the applying domesticorforeignresearchinstitutionor high-techenterprise;

“Open-AccessApplication Formfor Large-Scale Scientific Instruments";

Experimental proposal (includingscientific objectives,sampleinformation,safetyplan etc.).

Theabove documentsshould be sentasa preliminaryrequesttotheresponsible scientist'semail listedonthecenter'swebsite under“EquipmentBooking."Anonline reservationsystemwill golivesoon;please staytuned.

Contacts

E-mail:wangkd@pku.edu.cn Reservation URLs (either linkbelow) https://clapa.pku.edu.cn/jgjscxzx/jgjscxzx.htm https://clapa.pku.edu.cn/jgjscxzx/sbyyl/sy.htm

For Detailed Contact Information, Please Refer To The“Scientific Instruments”Page

11

Guide to the Facilitiesand Platforms of Huairou Science City

INTERDISCIPLINARY RESEARCHPLATFORM FORMESOSCIENCEAND PROCESSSIMULATION

Platform Overview

Meso-scaledenotesthe“intermediate"regimethatlinksunit-levelandsystem-levelbehaviorwithin multi-scalestructures.Behavioratthisscaleiscriticaltotheperformanceofmaterials,equipment andindustrialsystems,yetthegoverningformation,evolutionandcontrolmechanismsremain poorlyunderstood.Meso-scienceistheemergingtrans-disciplinaryfieldthatseeksuniversal principlesandapplicationsofmeso-scalephenomena.LocatedinHuairouScienceCity,the InterdisciplinaryResearchPlatformforMeso-science&ProcessSimulationtargetsthisfrontier， buildinga“cross-scaleresearchbridge"thatlinksmicrotomacro,theorytoengineering,and simulationtoreality.

Theplatformisoneofthesecond-batch interdisciplinaryplatformsdeployedbythemunicipality， co-builtbythe Instituteof Process Engineering(IPE)of the ChineseAcademyof Sciencesand Beijing HuairouScienceCityConstruction&DevelopmentCo.,Ltd.,project-approvedbyBeijingMunicipal Commissionof Developmentand Reformand guaranteedforimplementationbytheAdministrative CommitteeofHuairouScienceCity.Withatotalinvestmentof\~RMB240millionandafloorareaof 23,000m²,theplatformpassedperformance,processand equipmentacceptanceonNovember27， 2025and enteredatrial-runphase,alreadyopen forexternal computingand experimental services

Groundedinthemeso-science theorypioneeredandcontinuallyadvancedby IPE,theplatform developshigh-performancecomputing systemstailoredformeso-scalestudies,advances meso-scalemodelsand simulationalgorithms,and fosters integrationamongmeso-scienceand mechanics,chemistryiologyand informatics(inludingAl).esearchdirectionsspanintelligent chemicalengineeringadvancedmaterials,low-carbonenergy,bio-intelligentmanufacturing, amongother strategicemerging industries,formingafullinnovationchainfrombasicresearch throughtechnologydevelopmenttoindustrialtranslation.

Construction Content & Service Capability

Theplatform housessixmajor systems:Meso-scale HPCR&D,Reaction-process Meso-scale Experimentationqipmenteso-scaleExrimentationno-microross-evelrocessrc RemoteExperimentation,andCollaborativeResearch.

ThesixsystemsarelinkedbytheMeso-scale HPC R&Dsystemthatsuppliesmodels,softwareand computingpower,whiletheReaction-process,Nano-microand Equipmentmeso-scale experimentationsystemsdelivercross-scaleexperimental insightsintoreactionmechanisms, nano-microtransportand equipmentbehavior;the Remote Experimentationsystemprovides networkedaccessandremotecollaborationforbothequipmentanddata.Overall,theplatformcan computeand simulate systems with hundredsof milions of particles,achievemm/ms-scale simulation&measurementaccuracy,offer nano/ns-scale surface/interfacecharacterization providein-situreactionconditionsfrom-100Ctol,200C,operateawide-area remote-collaborationnetworkanddeliver>2PFlopsoflocalcomputingpower，therebyenabling full-chainmeso-scienceresearch frommicroscopicmechanismstomacroscopicprocesses.

ToDate,ThePlatform HasDelivered A Series Of Achievements: Industrial Software

GPU-poweredDEMmssoftwarehas beendeployed for industrial-process simulationinmultiplecompaniesand itscopyright has been successfully transferred.

Virtual Process& Digital Twin

Solutions have been implemented at Levima (shandong),CHNEnergy,China Coal,CNBM, Sinopec,etc.,providing flow-sheetsimulationand processoptimizationforclients including China Coal,Baowuand Sinopecto helpcut energyconsumptionand emissions.

ChipThermal Management

Cooperationwith Huawei,Empyreanand others hasyielded simulation software forchip powerand thermal management,enabling co-design of chips and heat-dissipation components.

Biomedical Materials

A uniform-microsphere preparation technology (membrane-emulsionsustained-release microspheres)hasbeendevelopedand transferred;apeptidesynthesis&screening platformintegratingautomated synthesisand high-throughputcharacterization hasbeen built.

Biopharmaceutical R&d

AnAl-aided drug-designplatformaccelerates targetdiscoveryand moleculeoptimization, providingAl+CRO services for SynBioTech,HC Biotechand othersand shortening early-stage R&Dby6-12months.

Future Development

Theplatformwillcontinuetodeepenmeso-sciencetheoryandengineeringapplications,builda meso-scalemodeling&softwareecosystem,advanceAl-integrationwithprocessengineering,and developinteligentmodelingoptimizationanddigital-twintechnologies.Pilot-demonstrationlinesfor intelligentchemicalengineering,low-carbonenergyadvancedmaterialsandbiomedicinewillbe constructed,andjointindustry-platformteamswillattackcriticalbottlenecks.Fundsandoptimized incubationmechanismswillcreateanintegrated“R&D-pilot-translationecosystem.

Theplatformwillalsoconsolidateresourcestoestablishthe Huairou Meso-scienceInterdisciplinary ResearchCenter,strivefordesignationasanationaltechnology-innovationcenter,strengthen internationalcooperationosthigh-levelforums,scurefurtherpolicysupport,andfoter world-class,openandcollaborativeinnovationenvironment.

一 Contacts ContactPerson:Prof.HeTel:+86-10-8254-4941Email:xfhe@ipe.ac.cn

12

Guideto the Facilitiesand Platforms of Huairou Science City

BEIJING MOLECULAR SCIENCEINTERDISCIPLINARY RESEARCHPLATFORM

Moleculesarethesmallestunitsinasubstancethatcanexistindependentlyremainrelativelystable andpreserve thesubstance'sphysical andchemical properties.If thematerial world isa grand edifice,thenmoleculesareitsbricks.Understanding howmoleculesarearrangedand howthey interactisakintomastering thedesign languageandload-bearingprinciplesof thatedifice,andit underpinsfrontierbreakthroughsinnewmaterials,newdrugs,andbeyond.InHuairouScienceCity， theBeijing MolecularScience Interdisciplinary ResearchPlatformiscracking thecodeof the molecularworld and drivingthe leapfrom“knowingmolecules”to“creatingmatter."

TheBeijing Molecular Science Interdisciplinary Research Platformisone of the secondbatchof interdisciplinaryplatformsdeployedbyBeijingmunicipality.Itisco-builtbytheInstituteofChemistry of theChinese Academy of Sciences(CAs) and Beijing Huairou ScienceCityConstruction& DevelopmentCo.,Ltd.,project-approvedbyBeijing Municipal Commissionof Developmentand Reform,and guaranteedforimplementationbytheAdministrativeCommitteeof Huairou Science City.WithatotalinvestmentofaboutRMB0.3billonandafloorareaof16,oo0m²，theplatform passed performance,processand equipmentacceptanceon November28,2025and entereda trial-runphase,alreadyopentoexternalusers.

Focusing onuniversalfundamental questions inmolecular scienceand aligning withnational strategicneeds,theplatformhasestablishedaful-cycleresearchsystemthatintegrates internationallyadvancedtestlinesforfinestructuralanalysisofmolecules,performanceevaluation offunctionalmaterialsandfunctionalassessmentofdevices,meetingthehigh-end,rinedand cuting-edgetechnicaldemandsforsustainedinnovationandleapfrogdevelopmentinmolecular science.

Platform Construction And Service Capability

Theplatformcomprises four sub-platforms:Spectroscopic&SpectrometricCharacterization, Surface&Interface StructureCharacterization&ImagingSynchrotron-based Polymer/Soft-Matter Research,andPilot-scaleFabricationofMolecularMaterials&Devices.

Beijing Molecular Science Interdisciplinary ResearchPlatform

Condensed Materials Molecules Assembly State andDevices Spectroscopic Surface and Polymer/Soft Demonstration and Spectral InterfaceStructure MatterResearch Platformfor Characterization Characterization Sub-Platform Based Fabricationof Sub-Platform and Imaging onSynchrotron MolecularMaterials Sub-Platform Radiation and Devices
NuclearMagyetim Electron Microscope Imaging System AvatueddDylftatn emtinransistors
ElectronParamagnetic Spectral Imaging System System and Matrix Circuits ResonanceSystem
SpectralCharacterization tetref Ceicrstorahi □ FarictionganolarCells

Pectroscopic & Spectrometric Characterization Sub-platform

Byintegrating an800 MHz liquid-state NMR spectrometeranda 600 MHz solid-state dynamic nuclearpolarization(DNP) spectrometer,the sub-platform enables structural analysisof multiphase systemsfromsolution to solid.The liquid NMR offers broadband multinuclear, high-sensitivityand high-resolutioncapabilities forfinemultinuclearcharacterizationof nearly 50 nuclides,while thesolid DNPspectrometercan theoretically boost13C sensitivity by >2,500-fold;together theydeliveratomic-scalestructural deconvolution.

Anelectron paramagnetic resonance (EPR) spectrometer dedicated to radicals,transition metals,excited transient speciesand in-situ reaction intermediatescomplementsthe NMR suite,forminga synergistic paramagnetic-diamagnetic protocol.Coupled with IR absorption and micro-Raman scattering spectroscopies,dynamic structural information at thelevel ofmolecular vibrationsand chemical bonds is provided,creatinga multidimensionalcharacterization ladder fromnucleiandelectronstomolecular vibrations.The sub-platform hasalready underpinned national R&Dof critical materials, offering systematicand high-precisionsupport for breaking technical bottenecks and developing high-performancenewmaterials.

Surface& Interface StructureCharacterization &ImagingSub-platform

Thesub-platform housesa double-corrected electronmicroscope,a STED super-resolution microscope and an in-situ ice-nucleation&adhesion-force test system.

Thedouble-correctedelectronmicroscope operatesat both 3o0kVand80kV,delivering sub-angstromresolution for direct atomic-scale imaging and structural analysis,laying the cornerstone forunveiling intrinsicmaterial structures.

TheSTEDsuper-resolutionmicroscope breaks theconventional optical diffraction limit, furnishing 3-D ultra-highspatial resolution better than 3 0 { n m } （xY)and 7 5 \ : { n m } (z),apowerful toolfornanoscale localizationand observation in life sciencesand nanomaterials.

Monolayer \mathsf { C } _ { 6 0 } imagedwithbeamcurrent<1pA(electronmicroscopy)

The in-situ ice-nucleation& adhesion-forcesystemfocuses ondynamicprocessesand mechanicalbehaviorat surfacesand interfaces, enablingreal-timeobservation ofice-crystal nucleation and growth kinetics togetherwith micro-adhesion-force measurements.

Combined,the three instruments forgea synergistic,complementarychain for cross-scale surface&interface structureand mechanismstudies,creatinga“molecule-nano-micro" platform that strongly underpins thedesignand development of high-performance surface& interfacesystems.

Representativeengineering cases:Hubei Xiehe New-Energy wind-turbine anti-icing retrofitprojectand Shandong Zhangqiu UAVwind-turbineanti-icing retrofit project.

Synchrotron-based Polymer/Soft-matter ResearchSub-platform

Backedbythe forthcoming High Energy Photon Source(HEPs),thesub-platformwill capture everykeystructural instantacrossamaterial'slifecycle.

Itssingle-crystal X-raydifractometer,withsingle-photon-level detectorsensitivity,can solve crystal structures down to 2 8 \mathsf { K } , cracking atomic-level structural codes of complex systemsand micro-crystalline samples.Theadvanced organic polymer/soft-matter structural&dynamiccharacterization system spans the entire life spanof polymeric materials-synthesis,processing and service.Coupled withsynchrotron beamlines,it monitorspolymerizationreactionsinreal time,deciphers structural evolutionduring fabrication and processing,and simulates service environments-including temperatures from - 1 0 3 . 6 ^ { \circ } C to 5 0 1 ^ { \circ } C highvacuum（ 5 . 2 x 10区区Pa),photo-iradiation ( 1 8 5 \ n m - 1 6 \mu m ) and controlled gas atmospheres-thereby tackling bottlenecks linking structural evolution to material performanceand underpinning the R&Dand application of polymericmaterials.

MolecularMaterials&DevicesPilot-scale FabricationSub-platform

Thesub-platform tackles the key scientificand technical challenges of uniformity,stability， integrabilityand flexibilityin large-area fabricationof organic transistors,organic photovoltaic (oPv) devices and organic thermoelectric (OTE)devices.Itestablishes a comprehensive evaluation pilot line that bridges bench-scale discoveries to application, showcasesdemonstrativefunctionsofmolecularmaterialsanddevices,invites market-drivenR&D,andultimatelyfostersnewindustrial chains.

To Date,A String Of Achievements Has Been Delivered:

Overall,the platform hasunderpinned multiple high-impact outputs-high-performance thermoelectric plastics,full-color gamut adaptive transistorsand their flexible integrated devices,plus the domestication of polarizationagents-through high-throughput characterization.

Ademonstrativeapplication-assessment protocol formolecularmaterialsand devices has beencreated,several materialfamilieswithclearcommercial potential havebeendeveloped, andmultiplebottlenecksin large-area fabricationof OTEmaterials,organictransistorsand OPVcells have been overcome.Theresulting devices rank at the state-of-the-art in uniformity,stability,efficiencyand costcontrol,laying the groundworkfor industrial deployment.

Leading Scientists

Professor,Ph.D.advisor,InstituteofChemistry，CAs;National ScienceFund forDistinguished YoungScholars laureate.Hehas longfocused onorganicsemiconductorsanddevices,introduced theconceptofprecisionmoleculecreationcoupledwith device-functiontuning,andadvanced high-performanceOTE materialsandorganicsmartsensors.Hehaspublished>100 papers in Nature,Science,etc.,and leads the constructionof the platform'spilotline fororganictransistorsandmatrixcircuits, propellingrapid progress in adaptive organic transistorsand OTEs.

Chong-an Di

Professor,Ph.D.advisor,Instituteof Chemistry，CAs;National ScienceFund forDistinguished YoungScholarslaureate.He has dedicated hiscareertomoleculardesignandsynthesisof high-performancephotovoltaicmaterials,devicephysicsand processing,and hasachievedmultipleoriginalbreakthroughsin OPVs.Hisgroup'sinnovationsinmaterialsystemsanddevice performancearepivotal totheplatform'sadvanced-material R&D, process verification and novel applications,while the platform's continuous fabricationand testingcapabilitiesin turn expedite the translationof hisdiscoveries.

Jianhui Hou

Industrial Support

TheBeijing Molecular Science Interdisciplinary Research Platform hasalreadyattractedand nurtured acohortof talents;among themResearch FellowsDiChong'anand Hou Jianhui haveproduced landmarkresultsinmolecularscience

Organic Photovoltaic Cells

Theplatformispositionedasthehubthat linksfundamental PV-materialresearchtoend-user deployment,enablingOPVcellstopower indoor low-powerelectronicsandtoprovide energy-saving/aestheticbuilding integration-therebyadvancingemergingmarkets inloTpower supplyandbuilding-integratedphotovoltaics.

Organic-transistor Integrated Devices

The focus is ondemonstrative applications of organictransistors inmatrixdrive circuits,flexible sensorarraysandimplantable bio-electronics.Target customersare R&D institutesand companies inflexibledisplays,smartdetectionandotheropto-electronicsectors.

Organic ThermoelectricMaterialsAnd Devices

Theemphasisisonflexibleandconformable TEGsand sensors,andonwearableself-powered devices.Target customersare institutesand enterprisesactive in thermoelectricpower generation/sensingandwearableelectronics.

Platform DevelopmentRoadmap

Forbasicresearch,theplatformtakesmolecularscienceasitscoreandaddressesuniversal questionssuchasmicroscopicreactionmechanisms,intermolecularforceregulation,and aggregation-structure/physicochemical-propertyrelationships.State-of-the-artinstrumentation coupledwith innovativeexperimentalprotocolswillprovidecuting-edge toolsforoptimizing molecularsystemsandcreatingnewmolecularmaterials.

Forappliedbasicresearch,theplatformwilldeepeninnovationandperformanceoptimizationof molecularelectronicmaterials,developnovel high-performanceorganicsemiconductors,and exploreflexibleintegrationprocessesforwearableand implantablescenarios.

Ontheindustrial-supportfront,theplatformwilloffer processverificationand small-batch prototypingservicestoinstitutesand companiesintheorganic-electronicssector,loweringtheR&D entrybarrerandpromotingdemonstrativeapplicationsoforganic-semiconductor integration technologies.

Regardingplatformgrowth，advancedcharacterizationandancillaryequipmentwillbeupgraded andclosercollborationwiththe UniversityofChineseAcademyofSciences,theHighEnergyPhoton Source(HEPs)and othermajor facilitieswillbepursuedtoenhancehigh-level researchand technical-servicecapacity.

Contacts

Contact Person:Prof.Jia Tel:+86-10-6265-8184 Email:jiahy@iccas.ac.cn

Tel:+86-010-6166-3661丨Fax:+86-010-6166-3769 Email:hscjrc@bjhr.gov.cn

No.88gnoadiruistrictga

Beijing Huairou National Comprehensive Science Center https://hsc.beijing.gov.cn

National Network Management Platform for Major Research Infrastructure and Large-scale Research Instruments https://nrii.org.cn

User Guide for Major Science and Technology Facilities at Huairou Science City https://issf.cas.cn

Instrumentation Sharing and Management Platform https://samp.cas.cn