複製鏈接
請複製以下鏈接發送給好友
https://baike.baidu.hk/item/甘陽/10277630
複製
複製成功

甘陽

(哈爾濱工業大學教授博導)

鎖定
甘陽,哈爾濱工業大學化工與化學學院教授,博導。研究興趣:新能源材料與器件、電池、石墨烯納米材料等的表面和界面物理化學。中國化工學會化工新材料委員會理事,國際半導體設備和材料產業協會(SEMI)HB-LED標準技術委員會首批核心委員、化合物半導體標準技術委員會核心委員,中國化學會高級會員,黑龍江省電鏡學會理事。2008年至2021年曆任催化科學與工程系系主任、能源化工系系主任。2015年入選英國皇家化學會會士(FRSC)。2021年11月起,任哈爾濱工業大學第二屆校學術委員會委員。編著的《研究生學位論文開題報告的寫作方法與技巧》於2022年8月出版(哈爾濱工業大學出版社)。 [1] 
中文名
甘陽
畢業院校
中國科學院金屬研究所
學位/學歷
博士
專業方向
應用化學

目錄

  1. 1 人物經歷
  2. 2 研究方向
  3. 3 主講課程
  1. 4 主要貢獻
  2. 科研成果
  3. 專利
  1. 5 獲獎記錄

甘陽人物經歷

  • 2021.4- 教授(Professor),哈爾濱工業大學化工與化學學院新能源材料與器件系(Dept New Energy Mater and Devices, Schl Chem Eng & Chem, Harbin Inst Technol) [1] 
  • 2016.3 – 2021.4 系主任(Department Chair),哈爾濱工業大學化工與化學學院能源化工系(Dept Energy Chem Eng, Schl Chem Eng & Chem, Harbin Inst Technol)
  • 2008.10 – 2016.3 系主任(Department Chair),哈爾濱工業大學化工學院催化系(Dept Catalysis, Schl Chem Eng, Harbin Inst Technol)
  • 2016.3- 教授(Professor),哈爾濱工業大學化工與化學學院(Schl Chem Eng & Chem, Harbin Inst Technol)
  • 2007.7 – 2016.3 教授(Professor),哈爾濱工業大學化工學院(Schl Chem Eng, Harbin Inst Technol)
  • 2007.4 – 2007.6 訪問學者(visiting scholar), University of Melbourne(澳)化工和分子生物工程系(Dept Chem Biomol Eng)
  • 2004.4 – 2007.3 博士後(postdoc),University of Newcastle(澳)化工系(Dept Chem Eng) (Advisors:Prof. George V.Franks,Prof. Erica Wanless)
  • 2001.7 – 2003.10 博士後(postdoc),北京科技大學材料物理和化學系(Dept Mater Phys Chem, Univ Sci Tech Beijing) (導師Advisors:褚武揚教授 Prof.Wu-Yang Chu,喬利傑教授 Prof. Li-Jie Qiao)
  • 1998年-2001年,中國科學院金屬研究所,博士(PhD, Inst Metal Res, Chinese Academy of Sciences, with distinction) (導師:周本濂院士(2000年病逝) Prof. Ben-Lian Zhou, FCAS,盧柯院士 Prof. Ke Lu, FCAS)
  • 1995年-1998年,中科院金屬腐蝕與防護研究所(後併入金屬研究所),碩士(ME, Inst Metal Res, Chinese Academy of Sciences, with highest distinction) (導師Advisors:林海潮研究員 Prof. Hai-Chao Lin,李瑛研究員 Prof. Ying Li)
  • 1991年-1995年,四川大學化工學院,本科(BE, Schl Chem Eng, Sichuan Univ, with distinction)(論文指導教師 Advisor:鄒正文教授 Prof. Zheng-Wen Zou) [1] 

甘陽研究方向

主要研究方向:新能源材料與器件、電池、石墨烯納米材料等的表面和界面物理化學。無機氧化物和陶瓷材料的表面微觀結構與表面化學性質的關係,納米材料製備、表徵和應用。 [1] 

甘陽主講課程

  • 《新能源材料科學基礎 Fundamentals of New Energy Materials Science》:本科生學位課(人數~30人),64學時,春季。 [1] 
  • 《原來如此,如何像科學家一樣思考 Aha, How to Think Like a Scientist》:本科生文化素質核心(人數~50人),16學時,春季/(秋季給未來技術學院大一新生專門開設)。
  • 《綠色能源化工和神奇的催化劑 Green Energy Chemical Engineering and Magic Catalysts》:本科生新生研討課(人數~30人),16學時,秋季。
  • 《微觀表面作用力的理論和實踐 Surface and Interface Forces: A Primer》:本科生創新研修課(人數~15人),20學時,春季/秋季。
  • 《催化研究方法 Catalyst Characterization Techniques》:研究生學位課(人數~50人),36學時,秋季。
  • 《能源化工前沿進展 Progress in Energy Chemical Engineering》:研究生選修課(人數~20人),36學時,春季。
  • 《研究生學術論文寫作 Academic Writing for PhD Students》:博士生選修課(人數~50人),32學時,秋季。
  • 《學術寫作與規範 Academic Writing and Ethics》:碩士生素質限選課(人數~240人),16學時,春季。

甘陽主要貢獻

甘陽科研成果

(注:所有論文和書評的PDF文件均可從ResearchGate網站請求下載,鏈接:http://www.researchgate.net/profile/Yang_Gan/publications) [1] 
Note: PDF files of most papers and book reviews can be downloaded or requested from the ResearchGate website by following the link: http://www.researchgate.net/profile/Yang_Gan/publications(# after the title indicate non-peer-reviewed publications)
圖書(Books)
甘陽編著,《研究生學位論文開題報告的寫作方法與技巧》,哈爾濱工業大學出版社,2022年。(該書特點:體例新穎、語言鮮活、示例豐富。京東購買鏈接:https://item.jd.com/13371887.html,噹噹網購買鏈接:http://product.dangdang.com/29456485.html)(內容簡介:《研究生學位論文開題報告的寫作方法與技巧》以課程PPT講義的新穎體例呈現,以鮮活的語言進行講解,以豐富的實例進行説明,並奉上一份完整的碩士學位論文開題報告範本,精要而系統地講授開題報告的“檢-讀-想-寫-改-慎”寫作方法和技巧。該書主要內容包括:檢(Search)——高效檢索文獻的方法和技巧;讀(Read)——文獻閲讀的方法和技巧;想(Think)——開題報告提綱的構思方法:寫(Write)——寫好開題報告各部分的方法和技巧;改(Revise)——開題報告去粗取精、按規範修改的方法;慎(Ethics)-學術道德規範和心理建設問題解答。《研究生學位論文開題報告的寫作方法與技巧》主要為理工科碩士和博士研究生撰寫開題報告提供參考,也有助於青年教師提升自己撰寫研究計劃書的能力。) [1] 
近期代表性文章(Selected Recent Publications) [1] 
P. Feng, D. Zhang*, P. Zhang, Y. Wang, Y. Gan*, Nanoscale characterization of the heterogeneous interfacial oxidation layer of graphene/Cu based on a SEM electron beam induced reduction effect, Phys. Chem. Chem. Phys., 25 (2023) 8816-8825. (提出了一種基於SEM電子束的還原能力和SEM的高空間分辨成像能力,用電子束掃描石墨烯/Cu表面實現界面氧化層狀態表徵的新方法(SEM EBI-RIO方法)。該方法的優點:~200 nm空間分辨率、快速(最快秒級)、可表徵非均勻氧化狀態表徵,該方法是對XPS、拉曼和TEM等常規表徵方法的強有力補充。)
S. Cui, D. Zhang*, G. Zhang, Y. Gan*, Reaction Mechanism for α-MnO2 Cathode in Aqueous Zn Ion Batteries Revisited: Elucidating Irreversible Transformation of α-MnO2 to Zn-vernadite, J. Mater. Chem. A, 2022, 10 (2022) 25620-25632. (水系鋅離子電池的研究,上手容易,機理研究清楚不容易(反應複雜,產物複雜,歷史遺留問題也複雜,該方向人云亦云問題嚴重)。本文把阿爾法相氧化錳在長、短循環中的結構和成分轉變都解釋清楚了。在電池研究領域留下一串清晰的腳印,從這篇文章開始。。。)
Y. Yuan, D. Zhang*, G. Zhang, P. Zhang, F. Zhang, C. H. Yang, Y. Gan*, Voltage Dependence of Nanopattern Morphology in Electropolished Aluminum: A Theoretical Study, J. Electrochem. Soc., 169 (2022) 063509. (理論文章,終於來了:改進了現有的電解拋光表面納米圖案形成的“溶解-各向異性吸附”模型。新模型不但能解釋現有模型無法解釋的文獻數據,而且也經受了新數據的檢驗。這三篇系列文章,對金屬的電解拋光表面納米圖案的形成機制和調控研究,應該是起到了向前推進一大步的作用。這也體現了Ours研究理念:做一個方向,不論冷門還是熱門,就要從實驗和理論兩個角度入手,進行紮實系統的研究,力求對該方向的研究起到顯著推動作用,不為了創新而創新;然後,不再對該方向零敲碎打,把精力畫在另外一個不論是冷門還是熱門的有趣的課題上。。。)
Y. Yuan, D. Zhang*, G. Zhang, P. Zhang, F. Zhang, C. H. Yang, Y. Gan*, Voltage Dependence of Nanopattern Morphology and Size in Electropolished Monocrystalline Aluminum: An Experimental Study, J. Electrochem. Soc., 169 (2022) 053512. (對2020年文章研究的進一步推進。系統深入研究確立了電壓的影響,綜合對比剖析了文獻中的差異和問題,為下一步建立理論模型的文章提供了能用於驗證模型的關鍵數據。理論文章,馬上就來。。。)
Y. Yuan, D. Zhang*, F. Zhang, C. H. Yang, Y. Gan*, Crystallographic Orientation Dependence of Nanopattern Morphology and Size in Electropolished Polycrystalline and Monocrystalline Aluminum: An EBSD and SEM Study, J. Electrochem. Soc., 167 (2020) 113505. (多晶和單晶鋁,一定條件下電解拋光後,表面會產生納米圖案(如平行條紋或短條或無序結構),這不奇怪。但是,結合系統的EBSD、SEM表徵和深入系統的數據分析,發現了意想不到的結果——納米圖案的類型和週期具有明顯的晶粒取向和晶面取向依賴性。在機理方面也提出了一個改進的框架。後續還有更多結果。。。)
J. Shen, Y. Chen, F. Zhang, D. Zhang*, Y. Gan*, Morphological and crystallographic evolution of patterned silicon substrate etched in TMAH solutions, Appl. Surf. Sci., 496 (2019) 143720.
Li Huang, Dan Zhang, Fei-Hu Zhang, Zhi-Hong Feng, Yu-Dong Huang, and Yang Gan*, High-Contrast SEM Imaging of Supported Few-Layer Graphene for Differentiating Distinct Layers and Resolving Fine Features: There is Plenty of Room at the Bottom, Small, 14 (2018) 1704190.
J. Shen, D. Zhang, F-H. Zhang, Y. Gan*, AFM tip-sample convolution effects for cylinder protrusions, Appl. Surf. Sci., 422 (2017) 482.
C. C. Yuan, D. Zhang, Y. Gan*, Invited Review Article: Tip modification methods for tip-enhanced Raman spectroscopy (TERS) and colloidal probe technique: A 10 year update (2006-2016) review, Rev. Sci. Instrum., 88(2017) 031101.
甘陽(Y. Gan*),張飛虎(F-H. Zhang*),單晶碳化硅和藍寶石基片化學機械拋光的表面反應層形成機制的研究進展(Review on formation mechanism of chemical reaction layer during chemical mechanical polishing of monocrystalline SiC and sapphire substrates),科學通報Chin. Sci. Bull., 61 (2016) 3930-3939. (評述文章,an overview article).
J. Shen, D. Zhang, Y. Wang, Y. Gan*, AFM and SEM Study on Crystallographic and Topographical Evolution of Wet-Etched Patterned Sapphire Substrates (PSS): I. Cone-Shaped PSS Etched in Sulfuric Acid and Phosphoric Acid Mixture (3:1) at 230°C, ECS J. Solid State Sci. Technol., 6 (2017) R24.
所有文章(All Publications) [1] 
  1. P. Feng, D. Zhang*, P. Zhang, Y. Wang, Y. Gan*, Nanoscale characterization of the heterogeneous interfacial oxidation layer of graphene/Cu based on a SEM electron beam induced reduction effect, Phys. Chem. Chem. Phys., 25 (2023) 8816-8825. (提出了一種基於SEM電子束的還原能力和SEM的高空間分辨成像能力,用電子束掃描石墨烯/Cu表面實現界面氧化層狀態表徵的新方法(SEM EBI-RIO方法)。該方法的優點:~200 nm空間分辨率、快速(最快秒級)、可表徵非均勻氧化狀態表徵,該方法是對XPS、拉曼和TEM等常規表徵方法的強有力補充。)
  2. P. Feng, D. Zhang*, P. Zhang, Y. Wang, Y. Gan*, Role of Graphene in Oxidation of Underlying Cu Substrates Elucidated through Angle-Resolved X-ray Photoelectron Spectroscopy: Implications for Corrosion Protection of Graphene/Cu, ACS Appl. Nano Mater., 6 (2023) 3903–3911. (提出了用角分辨XPS(ARXPS)表徵石墨烯/金屬的納米厚度界面氧化層的的平均厚度、覆蓋度及界面層結構的新方法,該方法可在一定程度上彌補高分辨TEM(HRTEM)在表徵界面層方面的不足。)
  3. S. Cui, D. Zhang, Y. Gan*, The effect of Mn2%2B additives on the capacity of aqueous Zn/δ-MnO2 batteries: Elucidating the Mn2%2B concentration dependence of the irreversible transformation of δ-MnO2, J. Power Sources, 579 (2023) 233293. (緊跟上一篇JMCA文章,揭示了液相中錳離子濃度對德爾塔相二氧化錳電極反應及電池性能的影響。)
  4. S. Cui, D. Zhang*, G. Zhang, Y. Gan*, Reaction Mechanism for α-MnO2 Cathode in Aqueous Zn Ion Batteries Revisited: Elucidating Irreversible Transformation of α-MnO2 to Zn-vernadite, J. Mater. Chem. A, 10 (2022) 25620-25632. (水系鋅離子電池的研究,上手容易,機理研究清楚不容易(反應複雜,產物複雜,歷史遺留問題也複雜,該方向人云亦云問題嚴重)。本文中,把阿爾法相二氧化錳在長、短循環中的結構和成分轉變都解釋清楚了。在電池研究領域留下一串清晰的腳印,從這篇文章開始。。。)
  5. Y. Gan*, No uncertain terms#, Physics Today, 76 (2023) 14-15. (討論辨析了在疫情和氣候變化的建模預測研究領域經常被誤用的三個詞forecast, projection, prediction。這是繼2017年在PT上發表了Footnote on Femtochemsitry後的第二篇comment。)
  6. Y. Yuan, D. Zhang*, G. Zhang, P. Zhang, F. Zhang, C. H. Yang, Y. Gan*, Voltage Dependence of Nanopattern Morphology in Electropolished Aluminum: A Theoretical Study, J. Electrochem. Soc., 169 (2022) 063509. (理論文章,終於來了:改進了現有的電解拋光表面納米圖案形成的“溶解-各向異性吸附”模型。新模型不但能解釋現有模型無法解釋的文獻數據,而且也經受了新數據的檢驗。)
  7. Y. Yuan, D. Zhang*, G. Zhang, P. Zhang, F. Zhang, C. H. Yang, Y. Gan*, Voltage Dependence of Nanopattern Morphology and Size in Electropolished Monocrystalline Aluminum: An Experimental Study, J. Electrochem. Soc., 169 (2022) 053512. (對2020年文章研究的進一步推進。系統深入研究確立了電壓的影響,綜合對比剖析了文獻中的差異和問題,為下一步建立理論模型的文章提供了能用於驗證模型的關鍵數據。理論文章,馬上就來。。。)
  8. C. Yao, Y. Yuan, Y. Jiang, Z. Fang, L. Niu, Y. Gan*, Improvement of laser-induced damage thresholds of aluminum by using a unique electropolishing method, International J. Modern Phys. 36 (2022) 2240067.
  9. K. Zhang, C. Ban, Y. Yuan, L. Huang*, Y. Gan*, Nanoscale imaging of oxidized copper foil covered with chemical vapor deposition-grown graphene layers, Surface and Interface Analysis, 54 (2022) 837.
  10. Y. Geng, J. Jia, Z. Li, Y. Liu, J. Wang, Y. Yan*, Y. Gan, Modeling and experimental study of machining outcomes when conducting nanoscratching using dual-tip probe on single-crystal copper, International J. Mech. Sci., 206 (2021) 106649.
  11. Y. Yuan, D. Zhang*, F. Zhang, C. H. Yang, Y. Gan*, Crystallographic Orientation Dependence of Nanopattern Morphology and Size in Electropolished Polycrystalline and Monocrystalline Aluminum: An EBSD and SEM Study, J. Electrochem. Soc., 167 (2020) 113505. (多晶和單晶鋁,一定條件下電解拋光後,表面會產生納米圖案(如平行條紋或短條或無序結構),這不奇怪。但是,結合系統的EBSD、SEM表徵和深入系統的數據分析,發現了意想不到的結果——納米圖案的類型和週期具有明顯的晶粒取向和晶面取向依賴性。在機理方面也提出了一個改進的框架。後續還有更多結果。。。)
  12. Z. Liu, P. Wan, Z. Liu, M. Yang, S. Li, Y. Wang*, Y. Gan*, Photothermal Generation of Oxygen-Irrelevant Free Radicals with Simultaneous Suppression of Glutathione Synthesis for an Enhanced Photonic Thermodynamic Cancer Therapy, ACS Biomater. Sci. Eng., 6 (2020) 6186.
  13. J. Shen, Y. Yu, J. Wang, Y. Zheng, Y. Gan*, G. Li*, Insight into the Ga/In flux ratio and crystallographic plane dependence for MBE self-assembled growth of InGaN nanorods on patterned sapphire substrates, Nanoscale, 12 (2020) 4018.
  14. 甘陽翻譯,COVID-19疫苗和藥物的部署切忌倉促#(文章來源:Jiang S.B. Don't rush to deploy COVID-19 vaccines and drugs, Nature, 579 (2020), 321.),科學網博文,2020-03-19。
  15. J. Wang, Y. Yan, S. Chang, T. Wang, Y. Geng*, Y. Gan, Study of the formation mechanism of bundle structures using AFM tip-based nanoscratching approach, Tribol. Int., 142 (2000) 106000.
  16. 甘陽,開學典禮上談創新#,《中國科學報》,2019-09-09 第8版。(發表時編輯有刪改。本文源自本人在學院2019級研究生開學典禮上的致辭。原文見科學網博客的博文。)
  17. J. Wang, Y. Yan, Y. Geng*, Y. Gan, Z. Fang, Fabrication of polydimethylsiloxane nanofluidic chips under AFM tip-based nanomilling process, Nanoscale Res. Lett., 14 (2019) 136.
  18. J. Shen, Y. Chen, F. Zhang, D. Zhang*, Y. Gan*, Morphological and crystallographic evolution of patterned silicon substrate etched in TMAH solutions, Appl. Surf. Sci., 496 (2019) 143720.
  19. Z. Liu, T. Li, F. Han, Y. Wang*, Y. Gan*, J. Shi, T. Wang, M. L. Akhtar, Y Li*, A cascade-reaction enabled synergistic cancer starvation/ROS-mediated/chemo-therapy with an enzyme modified Fe-based MOF, Biomater. Sci., 7 (2019) 3683.
  20. Z. Liu, J. Shi, Y. Wang*, Y. Gan*, P. Wan, Facile preparation of pyrenemethyl ester-based nanovalve on mesoporous silica coated upconversion nanoparticle for NIR light-triggered drug release with potential monitoring capability, Colloids and Surfaces A, 568 (2019) 436.
  21. Z. Liu, J. Hao*, Y. Wang*, Q. Sun, D. Zhang, Y Gan*, Decorating Ag3PO4 nanodots on mesoporous silica-functionalized NaYF4:Yb,Tm@NaLuF4 for efficient sunlight-driven photocatalysis: synergy of broad spectrum absorption and pollutant adsorption-enrichment, Inorg. Chem. Front., 6 (2019) 3529.
  22. C. Hua, H. Xu, S. Hou, L. Shang, S. Dou, Y. Zheng, P. Zhang, Y. Gan, J. Zhao*, Y. Li*, Bionic SiO2@ Fc (COCH3)2 core-shell nanostructure for enhancing the electrochromic properties of ferrocene, Chem. Eng. J., 360 (2019) 591.
  23. Y. Yan, J. Wang, S. Chang, Y. Geng*, L. Chen, Y. Gan, Nanofluidic devices prepared by an atomic force microscopy-based single-scratch approach, RSC Adv., 9 (2019) 38814.
  24. Li Huang, Dan Zhang*, Fei-Hu Zhang, Yu-Dong Huang, Yang Gan*, Graphene to graphene, and substrate to substrate: How to reliably differentiate supported graphene from polycrystalline substrates using SEM. Mater. Res. Express, 6 (2019) 085604.
  25. Li Huang, Dan Zhang*, Fei-Hu Zhang, Yu-Dong Huang, Zhi-Hong Feng, Yang Gan*, Twinkling Graphene on Polycrystalline Cu Substrate: A Scanning Electron Microscopy Study, J. Appl. Phys., 125 (2019) 194303.
  26. 甘陽,創新的要素(一):創新者的特質——艾薩克森《創新者》讀書筆記#,科學網博文,2018-7-27。
  27. Li Huang, Dan Zhang, Fei-Hu Zhang, Zhi-Hong Feng, Yu-Dong Huang, and Yang Gan*, High-Contrast SEM Imaging of Supported Few-Layer Graphene for Differentiating Distinct Layers and Resolving Fine Features: There is Plenty of Room at the Bottom, Small, 14 (2018) 1704190.
  28. J. Lützenkirchen*, G.V. Franks, M. Plaschke, R. Zimmermann, F. Heberling, A. Abdelmonem, G.K. Darbha, D. Schild, A. Filby, P. Eng, J.G. Catalano, J. Rosenqvist, T. Preocanin, T. Aytug, D. Zhang, Y. Gan, B. Braunschweig, The surface chemistry of sapphire-c: A literature review and a study on various factors influencing its IEP, Adv. Colloid Interface Sci., 251 (2018) 1.
  29. J. Shen, Y. Zheng, Z. Xu, Y. Yu, F. Gao, S. Zhang, Y. Gan*, G.Li*, Crystallographic plane and topography-dependent growth of semipolar InGaN nanorods on patterned sapphire substrates by molecular beam epitaxy, Nanoscale, 10 (2018) 21951.
  30. J. Shen, D. Zhang, F-H. Zhang, Y. Gan*, AFM characterization of patterned sapphire substrate with dense cone arrays: Image artifacts and tip-cone convolution effect, Appl. Surf. Sci., 433 (2018) 358.
  31. X. Qi, D. Zhang, Z. Ma, W. Cao, Y. Hou, J. Zhu, Y. Gan, M. Yang*, An Epidermis-like Hierarchical Smart Coating with a Hardness of Tooth Enamel, ACS Nano, 27 (2018) 1062. 媒體關注(Media coverage): Phys.org,Nature index《自然》指數(HIT部分第三位),新材料網。Altmetric指數:91(2018.9.25)。
  32. 甘陽,博市(博士)有風險,入行需謹慎#,科學網博文,2017-11-22。
  33. 甘陽,洗碗·奧數·讀書·健康#,科學網博文,2017-11-8。
  34. 甘陽,2017年學院畢業典禮致辭:不要急着成功,不要完全融入社會,不要忘了理想,不要在畢業季時説謊#,科學網博文,2017-7-5。(該博文發佈後,《中國科學報》的記者來採訪,撰寫了一篇報道:畢業致辭何以網紅,見《中國科學報》,2017-07-14 第5版。)
  35. 甘陽,理想——詩一首#。理想,是仰望星空,叩問內心 | 理想,是燃燒靈魂,點燃希望 | 理想,是與現實垂直,與未來平行 | 理想,是以未來的烈火,灼燒現今的枷鎖 | 理想,是以生命的元素,構築未來的花朵 | 理想,是以有限的歲月,探索無盡的前沿 | 理想,是遠離微信,還清明的眼睛 | 理想,是送走IF,迎創新的本原 | 理想,就是——“ni要去想”。科學網博文,2017-9-26。
  36. J. Shen, D. Zhang, F-H. Zhang, Y. Gan*, AFM tip-sample convolution effects for cylinder protrusions, Appl. Surf. Sci., 422 (2017) 482.
  37. C. C. Yuan, D. Zhang, Y. Gan*, Invited Review Article: Tip modification methods for tip-enhanced Raman spectroscopy (TERS) and colloidal probe technique: A 10 year update (2006-2016) review, Rev. Sci. Instrum., 88(2017) 031101.
  38. M. Yang*, X. Zhao, S. Zheng, X. Liu, B. Jin, H. Li, Y. Gan, A new electrochemical platform for ultrasensitive detection of atrazine based on modified self-ordered Nb2O5 nanotube arrays, J. Electroanal. Chem., 791 (2017) 17.
  39. J. Shen, D. Zhang, Y. Wang, Y. Gan*,Crystallographic and topographical evolutions of a cylinder patterned sapphire substrate etched with a sulfuric acid and phosphoric acid mixture: an SEM and AFM study, CrystEngComm, 19 (2017) 6383.
  40. J. Shen, D. Zhang, Y. Wang, Y. Gan*, AFM and SEM Study on Crystallographic and Topographical Evolution of Wet-Etched Patterned Sapphire Substrates (PSS): III. Cone-Shaped PSS Etched in H2SO4 and H3PO4 Mixture at Various Temperatures, ECS J. Solid State Sci. Technol., 6 (2017) R163.
  41. J. Shen, D. Zhang, Y. Wang, Y. Gan*, AFM and SEM Study on Crystallographic and Topographical Evolution of Wet-Etched Patterned Sapphire Substrates (PSS): II. Cone-Shaped PSS Etched in Sulfuric Acid and Phosphoric Acid Mixture with Varying Volume Ratio at 230°C, ECS J. Solid State Sci. Technol., 6 (2017) R122.
  42. J. Shen, D. Zhang, Y. Wang, Y. Gan*, AFM and SEM Study on Crystallographic and Topographical Evolution of Wet-Etched Patterned Sapphire Substrates (PSS): I. Cone-Shaped PSS Etched in Sulfuric Acid and Phosphoric Acid Mixture (3:1) at 230°C, ECS J. Solid State Sci. Technol., 6 (2017) R24.
  43. Y. Gan*, Footnote on femtochemistry#, Physics Today, 70 (2017) 14.
  44. C. Hua, H. Xu, P. Zhang, X. Chen, Y. Lu, Y. Gan, J. Zhao*, Y Li*, Process optimization and optical properties of colloidal self-assembly via refrigerated centrifugation, Colloid Polym Sci., 295 (2017) 1655.
  45. C. Hua, S. Dou, H. Xu, S. Hou, H. Zhang, P. Zhang, Y. Gan, J. Zhao*, Y. Li*, A nanostructured Fc(COCH3)2 film prepared using silica monolayer colloidal crystal templates and its electrochromic properties, Phys. Chem. Chem. Phys., 19 (2017) 30756.
  46. Y. Gan*, Atomic Force Microscopy (to celebrate the 30th anniversary of atomic force microscopy (AFM))#, ScienceOpen Collection, 2016.
  47. E-J. Teh, Y-K. Leong*, X. Zhang, H. Fan, Y Gan, T. Becker, Hydrophobic interaction and patch charge attraction in a-Al2O3 dispersions under the influence of adsorbed low molecular-weight polyacrylic acid sodium salt and poly(methacrylic acid) sodium salt: yield stress and AFM force study, Colloid Polym. Sci., 294 (2016) 1765.
  48. 甘陽(Y. Gan*),張飛虎(F-H. Zhang*),單晶碳化硅和藍寶石基片化學機械拋光的表面反應層形成機制的研究進展(Review on formation mechanism of chemical reaction layer during chemical mechanical polishing of monocrystalline SiC and sapphire substrates),科學通報Chin. Sci. Bull., 61 (2016) 3930-3939. (評述文章,an overview article).
  49. Y. Zhu, D. Zhang, F. Zhang, Y. Gan*, Marrying Medicine and Materials: Artemisinin (Qinghaosu) Particle is Soft Enough for Scratching Hard SiC Wafer in Water, ScienceOpen Research, 2016.
  50. N. Li, Q. Zhang, J. Joo, Z. Lu, M. Dahl, Y. Gan, Y. Yin*, Water-Assisted Crystallization of Mesoporous Anatase TiO2 Nanospheres, Nanoscale, 8 (2016) 9113.
  51. Y. Gan*, Organizing better attendee-friendly conferences(如何組織令參會者受益良多的學術會議)#, National Science Review, 3 (2016) 7.
  52. H. Wang, R. Han, L. Yang, J. Shi, Z. Liu, Y. Hu, Y. Wang*, S. Liu, Y. Gan*, Design and Synthesis of Core–Shell–Shell Upconversion Nanoparticles for NIR-Induced Drug Release, Photodynamic Therapy, and Cell Imaging, ACS Appl. Mater. Interfaces, 8 (2016) 4416.
  53. H. Wang, X. Hong, R. Han, J. Shi, Z. Liu, S. Liu, Y. Wang*, Y. Gan*, Triple-doped KMnF3:Yb3%2B/Er3%2B/Tm3%2B nanocubes: four-color upconversion emissions with strong red and near-infrared bands, Sci. Rep., 5 (2015) 17088.
  54. 甘陽(Y. Gan*),高亮度藍光 LED——造福人類的偉大發明,跌宕起伏的發明故事#LED科技 (LEDs Magazine Chinese Edition), 2015, 10-11月刊, 26-29.
  55. P. Yan, Y. Wu, G. Liu, A. Li, H. Han, Z. Feng, J. Shi, Y. Gan*, C. Li*, Enhancing photoresponsivity of self-powered UV photodetectors based on electrochemically reduced TiO2 nanorods, RSC Adv., 5 (2015) 95939-95942.
  56. P. Yan (嚴鵬麗), A. Li (李愛龍), B. Zhang (張丙青), J. Shi (施晶瑩), Y. Gan* (甘陽), C. Li* (李燦), Electrochemical Reduction Effects on the Morphology and Electrochemical Capacity of Carbon Paper (In English, 電化學還原處理對碳紙形貌和電化學電容的影響), Chem. J. Chinese U.(高等學校化學學報), 36 (2015) 2304-2310.
  57. P. Yan, X. Wang, X. Zheng, R. Li, J. Han, J. Shi, A. Li, Y. Gan*, C. Li*, Photovoltaic device based on TiO2 rutile/anatase phase junctions fabricated in coaxial nanorod arrays, Nano Energy, 15 (2015) 406-412.
  58. P. Yan, G. Liu, C. Ding, H. Han, J. Shi, Y. Gan*, C. Li*, Photoelectrochemical water splitting promoted with a disordered surface layer created by electrochemical reduction, ACS Appl Mater Interfaces, 7 (2015) 3791-3796.
  59. L. Pei, M. Yang*, D. Zhang, L. Zhang, P. Chen, Y. Song, Y. Gan, Photoelectrochemical activities and low content Nb-doping effects on one-dimensional self-ordered Nb2O5–TiO2 nanotubes, RSC Adv., 5 (2015) 9138-9142.
  60. 甘陽,高效藍光LED成就了高亮節能白光光源 — 2014諾貝爾物理學獎的科學背景#(譯稿,英文來源:"The Nobel Prize in Physics 2014 - Advanced Information". Nobelprize.org. Nobel Media AB 2014. Web. 7 Oct 2014.), SEMI大半導體產業網, 2014,10月9日。
  61. Y. Gan*, 從教七年記(Seven-year Reflections on My Faculty Life)(In Chinese, 中文)#, Science & Technology Review《科技導報》, 32 (2014) 96.
  62. D. Zhang, X. Chen, Y. Wang, F. Zhang, Y. Gan*, Relationship between Asperity-Mediated Surface Forces and Topography Alteration of Silica Microspheres Sliding on Mica, Sapphire, and Glass Substrates under Ambient Conditions: Atomic Force Microscopy and Theoretical Studies, Langmuir, 30 (2014) 3729-3740.
  63. X. Zhou, S.J. You*, X.H. Wang*, Y. Gan, Y. J. Zhong, N. Q. Ren, Hydrothermal synthesis of magnetic carbon microspheres for effective adsorption of Cd(II) in water, Journal of Chemical Technology and Biotechnology, 89 (2014), 1051-1059.
  64. X. Gong, S. You*, X. Wang*, J. Zhang, Y. Gan, N. Ren, A novel stainless steel mesh/cobalt oxide hybrid electrode for efficient catalysis of oxygen reduction in microbial fuel cell, Biosensors and Bioelectronics, 55 (2014) 237-241.
  65. D. Zhang, Y. Gan*, Effects of Plasma Treatment on Evolution of Surface Step-Terrace Structure of Critically Cleaned C-Plane Sapphire Substrates: An AFM Study, Applied Surface Science, 285B (2013) 211-214.
  66. D. Zhang, Y. Gan*, Recent Progress on Critical Cleaning of Sapphire Single-Crystal Substrates: A Mini-Review, Recent Patents on Chemical Engineering, 6 (2013) 161-166. 綜述 (Invited review articles)
  67. S. J. You, C. Y. Tang, C. Yu, X. H. Wang, J. N. Zhang, J. Han, Y. Gan, N. Q. Ren, Forward Osmosis with a Novel Thin–film Inorganic Membrane, Environ. Sci. Technol., 47 (2013) 8733–8742.
  68. Y.J. Zhong, S. J. You*, X.H. Wang*, X. Zhou, Y. Gan, N.Q. Ren, Synthesis of carbonaceous nanowire membrane for removing heavy metal ions and high water flux, Chemical Engineering Journal, 226 (2013) 217-226.
  69. X. B. Gong, S. J. You*, X.H. Wang*, Y. Gan, R.N. Zhang, N.Q. Ren, Silver–tungsten carbide nanohybrid for efficient electrocatalysis of oxygen reduction reaction in microbial fuel cell, Journal of Power Sources, 225 (2013) 330-337.
  70. N. Li, Q. Zhang, J. Liu, J. Joo, A. Lee, Y. Gan*, and Y. Yin*, Sol-Gel coating of inorganic nanostructures with resorcinol-formaldehyde resin, Chem. Commun. 45 (2013) 5135-5137.
  71. D. Zhang, Y. Wang, Y. Gan*, Characterization of Critically Cleaned Sapphire Single-Crystal Substrates by Atomic Force Microscopy, XPS and Contact Angle Measurements, Applied Surface Science, 274 (2013) 405-417. (D. Zhang bent down over the benches for more than two years to get everything straight! In this major work, we evaluated dozens of literature methods and chemical reagents plus UV/plasma treatments for cleaning sapphire (single-crystal a-Al2O3 or corundum) substrates using comprehensive surface analysis techniques, and found that these methods did not perform well in terms of removing both organic and particulate contaminants. More importantly, A new wet cleaning method based on modified RCA protocols was developed showing outstanding performance. This paper won the 2013 Frans Habraken Best Paper Award!)
  72. 李娜,甘陽*,晶種生長法制備銀納米片:老化過程對產物的影響,硅酸鹽通報 ,32(2013)1540-1544.
  73. N. Li, Q. Zhang, S. Quinlivan, J. Goebl, Y. Gan*, and Y. Yin*, H2O2-Aided Seed-Mediated Synthesis of Silver Nanoplates with Improved Yield and Efficiency, ChemPhysChem, 13 (2012) 2526-2530. (Invited paper) (N. Li is supported by CSC scholarship during her stay at UC Riverside. Prof. Yadong Yin is her co-supervisor at UCR.)
  74. Y. Gan*, Book review on “Matter and Interactions”#, Physical Sciences Educational Reviews, 12 (2011).
  75. X. D. Hong, Y. Gan, Y. Wang*, Facile measurement of polymer film thickness ranging from nanometer to micrometer scale using atomic force microscopy, Surf. Interface Anal., 43 (2011) 1299. (Outcome of collaboration with Prof. Wang)
  76. Y. Gan*, Book review on “Understanding Solid State Physics”#, Physical Sciences Educational Reviews, 11 (2010) issue1, 63-64.
  77. Y. Gan*, Book review on “Concepts of Modern Catalysis and Kinetics”#, Physical Sciences Educational Reviews, 7 (2009) issue1, 11.
  78. Y. Gan*, G. V. Franks, Cleaning AFM Colloidal Probes by Mechanically Scrubbing with Supersharp “Brushes”,Ultramicroscopy, 109 (2009), 1061-1065. (Highlighted in MRS website)
  79. 甘陽*, G. V. Franks*, 顆粒間作用力影響顆粒體系流變性能的研究進展#, 科學通報 (KeXueTongBao), 54(2009)1.
  80. Y. Gan*, Atomic- and Subnanometer Resolution in Ambient Conditions with Atomic Force Microscope, Surface Science Reports, 64 (2009), 99-121. (Dedicated to Prof. W. Y. Chu - one of my postdoc advisors at USTB - on occasion of his 70th Birthday) 綜述 (Invited review articles)
  81. Y. Zhou, Y. Gan, E. Wanless, G. Jameson, G. V. Franks*, Interaction Forces between Silica Surfaces in Aqueous Solutions of Cationic Polymeric Flocculants: Effect of Polymer Charge, Langmuir, 24 (2008) 10920-10928.
  82. Y. Gan*, Book review on “Electrochemistry”#, Physical Sciences Educational Reviews, 9 (2008) issue 2, 8.
  83. Y. Gan*, A Review of Techniques for Attaching Micro- and Nanoparticle to a Probe’s Tip for Surface Force and Near-field Optical Measurements, Review of Scientific Instruments, 78 (2007) 081101. (封面論文) (Cover article) 綜述 (Invited review articles)
  84. Y. Gan*, Book review on “Surface-Enhanced Vibrational Spectroscopy”#, Physical Sciences Educational Reviews, 8 (2007) issue 2, 49.
  85. G. V. Franks*, Y. Gan, Charging behaviour at the alumina water interface and implications for ceramic processing, Journal of the American Ceramic Society, 90 (2007) 3373-3388. (封面論文) (Cover article) 綜述 (Invited review articles)
  86. Y. Gan*, G. V. Franks, E. Wanless, Lattice resolution images of sapphire (0001) surface in air by AFM, Surface Science, 601 (2007) 1064-1071.
  87. Y. Gan*, Book review on “Optics and spectroscopy at surfaces and interfaces”#, Physical Sciences Educational Reviews, 8 (2007) issue 2, 40.
  88. Y. Gan*, Book review on “Interfacial forces in aqueous media”#, Physical Sciences Educational Reviews, 8 (2007) issue 1, 27-28.
  89. Y. Gan, J. X. Li*, W. Y. Chu, L. J. Qiao, Atomic image of indentation crack tip during stress corrosion cracking of mica in moist air, Scripta Materialia, 57 (2007) 417-420.
  90. Y. Gan*, G. V. Franks, Charging behaviour of gibbsite basal (001) surface in NaCl Solution investigated by AFM colloidal probe technique, Langmuir, 22 (2006) 6087-6092. (Against textbook results where Al2OH group is said non proton-active, but clearly it is not this simple)
  91. Y. Gan*, Comment on ‘Delayed fracture in porous media’, Physical Review Letters, 96 (2006) 259601. (An accountable story)
  92. Y. Gan*, Water - a clean “glue” to attach hydrophilic plates to an AFM sample stage#, Microscopy Today, 14 (2006) 64. (A smart and clean idea, isn@#%t it?)
  93. Y. Gan*, Book review on “Nanochemistry – a chemical approach to nanomaterials”#, Physical Sciences Educational Reviews, 7 (2006) issue 2, 32-33.
  94. Y. Gan*, Book review on “Nanoparticle assemblies and superstructures”#, Physical Sciences Educational Reviews, 7 (2006) issue 1, 52-53.
  95. Y. Gan*, Attaching spheres to cantilevers for colloidal probe force measurements: a simplified technique#, Microscopy Today, 13 (2005) 48-49.
  96. Y. Gan*, G. V. Franks, High resolution AFM images of the single-crystal α-Al2O3 (0001) surface in Water, J. Phys. Chem. B 109 (2005) 12474-12479. (I am still waiting for the liquid Non-contact AFM results on this substrate for comparison.)
  97. Y. Gan*, W. Y. Chu, L. J. Qiao, Imaging atomically sharp crack tip by contact mode AFM under ambient conditions, European Physical Journal - Applied Physics, 31 (2005) 37-44.
  98. Y. Gan*, W. Y. Chu, L. J. Qiao, STM investigation on interaction between superstructure and grain boundary in graphite, Surface Science, 539 (2003) 120-128. (The other interesting piece of weekend entertainment, but this time I missed a gold mine - GRAPHENE (if only I was a physicist and had STS module at hand!). Anyway, it was now at least part of graphene legend.) -- (Cited by Nobel Laureate - Prof. Geim’s in his 2010 Physics Nobel Prize Lecture. Also cited in two Rev. Mod. Phys. articles (transcripts of their Nobel lectures) by Prof. Geim and Prof. Novoselov.)
  99. Y. Gan*, Dynamic fracture characteristics of FeMoSiB amorphous alloy ribbons, Journal of Non-Crystalline Solids, 291 (2002) 199-205. (Dedicated to my PhD thesis mentor Prof. B. L. Zhou who passed away in 2000)
  100. Y. Gan*, B. L. Zhou, Nanocrystalline FeMoSiB/Ni laminate composite - preparation and mechanical properties, Materials Letters, 55 (2002) 296-299. (There were "Big bangs" during experiments.)
  101. Y. Gan*, B. L. Zhou, Effect of grain size on the fracture toughness of FeMoSiB nanocrystalline ribbon, Scripta Materialia, 45 (2001) 625-630.
  102. Y. Gan*, B. L. Zhou, Brittle fracture behavior of FeMoSiB nanocrystalline alloy ribbon and measurement of toughness, Materials Letters, 47 (2001) 112-117.
  103. Y. Gan*, Y. Li, H. C. Lin, Experimental studies on the localized corrosion of low alloy steels in 3.5% NaCl solution, Corrosion Science, 43 (2001) 397-411. (Out of Master@#%s thesis work)
  104. Y. Gan*, A new method to produce nanoporous structure - preferential dissolution of phases in nanocrystalline, Chinese Journal of Materials Research, 15 (2001) 708-709. (An interesting piece of weekend entertainment) [1] 

甘陽專利

  1. 張丹,甘陽,申健,陳遠東,汪鄭揚,一種具有超低反射率微納複合結構的黑硅襯底製備方法,ZL201910982886.7,授權公告日:2021.05.04。 [1] 
  2. 張丹,陳遠東,甘陽,申健,馮志紅,張飛虎,一種倒八稜台形圖形化硅襯底的製備方法,ZL201811386272.4,授權公告日:2020.08.25。
  3. 張丹,甘陽,申健,朱玉蓉,張飛虎,採用AFM金剛石探針對陶瓷材料進行納米條紋陣列加工的方法,ZL201610629882.7,授權公告日:2019.02.19。
  4. 甘陽,朱玉蓉,張丹,申健,張飛虎,採用青蒿素晶體對陶瓷材料局部拋光的方法,ZL 201511027840.8,申請日:2015.12.30,授權公告日:2018.6.22。
  5. 申健,張丹,龐春玲,張飛虎,甘陽,六邊角錐體圖形化藍寶石的製備方法,申請號:ZL 201510354323.5,申請日:2015.6.24,授權公告日:2018.7.3。
  6. 申健,張丹,甘陽,對稱六角形型圖形化藍寶石的製備方法,ZL201510990151.0,申請日:2015.12.24,授權公告日:2017.10.3。
  7. 申健,張丹,龐春玲,張飛虎,甘陽,α-Al2O3單晶表面SiO2掩模的製作方法,ZL201510354321.6,申請日:2015.6.24,授權公告日:2018.1.30。
  8. 李燦,嚴鵬麗,馮兆池,甘陽,範峯滔,安虹宇,一種具有內建電場的TiO2異相結紫外/深紫外探測器件及製備,ZL201410724183.1,已授權。
  9. 張丹(D. Zhang);甘陽(Y. Gan),一種α-Al2O3單晶的清洗方法(A Method for Cleaning α-Al2O3 Single Crystals),ZL201110350729.8(Patent No.),申請日:2011.11.08,授權公告日:2013.08.27。 [1] 

甘陽獲獎記錄

  • 2021年7月,被評為第二屆校“立德樹人先進個人” [1] 
  • 2020年12月,被評為校“優秀思政工作者”
  • 2020年9月,當選“國際半導體產業協會(SEMI)中國化合物半導體標準技術委員會”核心技術委員
  • 2020年5月,獲【致敬百年--第四屆教學節】在線教學法競賽一等獎(研究生“學術寫作與規範”素質課)
  • 2016年3月,入選JCPDS ICDD (International Centre for Diffraction Data,國際衍射數據中心)會員
  • 2016年 哈爾濱工業大學百優本科畢業設計(論文)指導教師(學生:謝浩添)
  • 2015年 入選英國皇家化學會會士(FRSC,Fellow of Royal Society of Chemistry)
  • 2015年 秋季全校研究生課程學生評教A%2B課程(評教前5%課程)被研究生院公開表揚(課程:碩士生《催化研究方法》)(HIT top 5% ranked master course — Catalyst Characterization Techniques)
  • 2015年 哈爾濱工業大學2014屆教學優秀獎(相關課程:碩士生《催化原理》和《催化研究方法》,博士生《化工研究生學術論文寫作》)(HIT Teaching Excellence Award, 2014, awarded biennially)
  • 2013年度 Frans Habraken Best Paper Award。期刊Applied Surface Science的第一屆最佳論文獎,獲獎人博士生張丹,獲獎論文:D. Zhang, Y. Wang, Y. Gan*, Characterization of Critically Cleaned Sapphire Single-Crystal Substrates by Atomic Force Microscopy, XPS and Contact Angle Measurements, Applied Surface Science, 274 (2013) 405-417.
  • 2010年 HOPG石墨表面用STM針尖剝離單層石墨烯並研究了石墨烯晶界(grain boundary)和層間旋轉(twisted)導致的莫爾超點陣(Moire superlattices)的論文(Surface Science 2003),被Geim教授在2010年諾貝爾獎演講中引用,作為2004年前發明的一種單層石墨烯剝離製備方法,隨後該論文被Geim教授和Novoselov教授分別在刊載演講報告的Rev. Mod. Phys.文章中引用。Nobel Lecture by K. S. Novoselov: Random walk to graphene (by Andre K. Geim), Nobel Lecture: Graphene: Materials in the Flatland
  • 2010年 獲哈爾濱工業大學優秀論文獎 (Excellent publication award, Harbin Inst Technol)
  • 2009年 黑龍江省科技獎一等獎 (Innovation Prize (First grade) of Heilongjiang Provice)
  • 2004-2007年 澳大利亞Newcastle大學University Research Fellow (University Research Fellowship, University of Newcastle)
  • 2001年 獲中科院金屬所師昌緒獎學金 (Shi Chang-Xu Award, Inst Metal Res, Chinese Adademy of Sciences)
  • 1998年 獲中科院劉永齡獎學金 (Liu Yong-Ling Prize, Chinese Adademy of Sciences)
  • 1995年 獲優秀本科畢業設計論文獎 (Outstanding Undergraduate Thesis Award) [1] 
參考資料