XiaoMi-AI文件搜索系统
World File Search SystemShaikh
M.Sc.加尔各答物理大学2018
datta,Prithwish Dastidar,Arkadip Majumder,Maharghya Dyuti Das,Pratikrit Manna,Subhasis Roy,Polymer Engineering ISSN:2191-0340(接受)(接受)。(如果1.624)。(6)对可再生能源对可持续发展的环境影响的综述,Debabrata Gayen Rusha Chatterjee,Subhasis Roy,国际环境科学与技术杂志,https://doi.org/10.1007/s13762-023762-023-023-05380-Z。(如果3.519)(7)HPMC介导的ZnCl 2可能将Pb 2+掺杂代替环境友好的卤化物钙钛矿太阳能细胞制造“ Shyamal Datta,Mouli Mitra,Subhasis Roy,ECS ECS,固态科学与技术杂志,2023年,2023年,第2023卷,第2023卷,12,第10期,第1页。 10500510。(如果2.070)。(8) Synthesis, characterization, and density functional theory calculation studies of a novel Rb-based lead halide perovskite material, Swastik Paul, Shibsankar Mondal, Souhardya Bera, Ankit Saha, Ridipt Mishra, Arkadip Majumder, Milan Kumar Mandal, Subhasis Roy , Chemistry of Inorganic Materials, Elsevier.2023,第1卷,100015,(9)开发2D纳米材料的路线图,以准备有效的光催化剂,Spisismita Mondal,Souhardya Bera,Subhardya Bera,Subhasis Roy,Samiconductotor Processing in Amiciconductor处理的材料科学,第168、2023、2023、107834(IF 4.62)。(10) Morphological tuning and defect-free lead halide perovskite by surface passivation for solar cell fabrication, Shyamal Datta, Mouli Mitra, Subhasis Roy , Ionics, Spinger, volume 29, pages, 4397–4405 , 2023, DOI 10.1007/s11581-023-05116-6 (IF 2.39 ).(11)水和废水处理作者的光催化作者:Preetam Datta,Subhasis Roy,催化研究2023; 3(3):020; doi:10.21926/cr.2303020。(12)用于大规模的含有有机和重金属离子的废物污水的一声协同处理,Yang ding,Soumyajit Maitra,Chunhua Wang,Runtian Zheng Zheng,Tarek Barakat,Tarek Barakat,Tarek barakat,Subhasis Roy seconcadic,liian lie-liian liian lie-liian seconciplian liian cecraciping clacion,(12)含有有机和重金属离子的废物污水的大规模协同处理的双功率光催化剂第179–192页(2023)(如果8.273)(13)对第三代光伏技术的全面综述,Arko de,Jyoti Bhattacharjee,Sahana R. Chowdhury和Subhasis Roy,化学工程研究杂志,杂志 (14)Bhattacharjee J,Roy S.使用可变的材料方法来应对气候变化。 垫子。 SCI。 res。 印度; 20(3).2023,ISSN:0973-3469。 http://dx.doi.org/10.13005/msri/200301 2022(15)在可见光光照射下,使用Cu掺杂的1d-Bi2s3/rgo纳米复合材料选择性将二氧化碳的照片还原为甲醇。 Arindam Mandal,Soumyajit Maitra,Subhasis Roy,Baisakhi Hazra,Koustuv Ray和Kajari Kargupta,New J. Chem。 , 2022 (IF 3.6 ) (16) Synthesis and characterization of Inorganic Nanoparticles Luminophores for Environmental Remediation, Abdul Aziz Shaikh, Souhardya Bera, Swastik Paul, Shibsankar Mondal, Ankit Saha and Subhasis Roy , 4open Special issue Inorganic Nanoparticle Luminophore: Design and Application, 4open 5(19) pp 7,2022(https://doi.org/10.1051/fopen/2022021)的数量。(12)含有有机和重金属离子的废物污水的大规模协同处理的双功率光催化剂第179–192页(2023)(如果8.273)(13)对第三代光伏技术的全面综述,Arko de,Jyoti Bhattacharjee,Sahana R. Chowdhury和Subhasis Roy,化学工程研究杂志,杂志(14)Bhattacharjee J,Roy S.使用可变的材料方法来应对气候变化。垫子。SCI。 res。 印度; 20(3).2023,ISSN:0973-3469。 http://dx.doi.org/10.13005/msri/200301 2022(15)在可见光光照射下,使用Cu掺杂的1d-Bi2s3/rgo纳米复合材料选择性将二氧化碳的照片还原为甲醇。 Arindam Mandal,Soumyajit Maitra,Subhasis Roy,Baisakhi Hazra,Koustuv Ray和Kajari Kargupta,New J. Chem。 , 2022 (IF 3.6 ) (16) Synthesis and characterization of Inorganic Nanoparticles Luminophores for Environmental Remediation, Abdul Aziz Shaikh, Souhardya Bera, Swastik Paul, Shibsankar Mondal, Ankit Saha and Subhasis Roy , 4open Special issue Inorganic Nanoparticle Luminophore: Design and Application, 4open 5(19) pp 7,2022(https://doi.org/10.1051/fopen/2022021)的数量。SCI。res。印度; 20(3).2023,ISSN:0973-3469。 http://dx.doi.org/10.13005/msri/200301 2022(15)在可见光光照射下,使用Cu掺杂的1d-Bi2s3/rgo纳米复合材料选择性将二氧化碳的照片还原为甲醇。Arindam Mandal,Soumyajit Maitra,Subhasis Roy,Baisakhi Hazra,Koustuv Ray和Kajari Kargupta,New J. Chem。, 2022 (IF 3.6 ) (16) Synthesis and characterization of Inorganic Nanoparticles Luminophores for Environmental Remediation, Abdul Aziz Shaikh, Souhardya Bera, Swastik Paul, Shibsankar Mondal, Ankit Saha and Subhasis Roy , 4open Special issue Inorganic Nanoparticle Luminophore: Design and Application, 4open 5(19) pp 7,2022(https://doi.org/10.1051/fopen/2022021)的数量。
囊性纤维化相关糖尿病的发作可以使用出生时测量的生物标志物进行预测
Yu-chung Lin 1,Katherine Keenan 2,Jiafen Gong 2,Naim Panjwani 2,Julie Avolio 3,Fan Lin 2,Damien Adam 4.5,Paula Barrett 6,Paula Barrett 6,StéphanieBégin5,StéphanieBégin5,Yves Bertiaume 4,Lara Bilodeau 7,Lara Bilodeau 7,Lara Bilodeau 7,Lara Bilodeau 7,Mark Chandice Bjornson 8,Mark Chil burne Burine 10,Janna Brine 9 Raquel Conteji-Araneta 11, Guillaume Côté-Maurais 5, Andrea Dale 12, Christine Donnelly 6, Lori Fairservice 8, Katie Grif fi n 13, Natalie Henderson 14, Angela Hillaby 15, Daniel Hughes 6, Shaikh Iqbal 11, Jennifer iTEMAN 16, Mary Jackson 17 17 , Emma Karlsen 18, Lorna Kosteniuk 17,Lynda Lazosky 18,Winnie Leung 15,Valerie Levesque 19,ÉmilieMilili5,Dimas Mateos-Corral 6,Vanessa McMahon 10,Mays Merjaneh 5,Nancy Morrison 5,Nancy Morrison 12,Michael Parkins 19,Mighan cike 13,Jennifer Pike 13,Jennifer Pike 16,Mariy Jane S. S. S. S. s. s. s. s. s. s. s. s. s. s. s. s. s. s. quon sill sill sill sill sill sill sill sill sill s. 21, Nathalie Vadeboncoeur 7, Danny Veniott 22, Terry Viczko 10, Pearce Wilcox 18, Richard Van Wylick 14, Garry Cutting 23, Elizabeth Tullis 13, Felix Ratjen 3,24, Johanna M. Rommens 25, She Sun 26, Melinda Solomon 24, Anne L. Stephenson 13, Emmanuelle Brochiero 4.5, Scott Blackman 23, Harriet Corvol 27.28和Lisa J. Struug 1,2,26,29.30✉
Netra:土著空降早期...
Agra Shri S.M. div>Jain,Adrde Ahmednagar Col Atul Apte,Shri Ra Sha Shaikh,Vrde Ambernath Susan Titus博士,NMRL Bengaluru Shri Shri Shri Satpal Singh Tomar,Ade Smt M.R. div> div>Bhuvaneswari,Cabs Smt Smt Fahema A.G.J.,Cair Shri R. Kamalakannan,Cemilac Josephine Nirmala女士,Dare Shri Kiran G. div>Gusain,Sase Chennai Smt S Jayasudha,Cvrde Dehradun Shri Abhai Mishra,Deal S.K. div>Mishra,Irde Delhi Shri Amit Pasi,Cfees Dipti Prasad博士,Dipas Dr Nidhi Maheshwari博士,Dipr Shri Ram Prakash,Dtrl Shri Navin Soni,Inmas Shri Anurag Pathak,Insa shri anurag Pathak,Issa D.P.P.P.P.P.P. div>Ghai,Lastec MS Noopur Shrotriya,Sag Rachna Thakur博士,SSPL Gwalior Dr Manorama Vimal博士,Drde Haldwani Dr Atul Grever博士,Diber Ranjit Singh Hyderabad博士J.K. Rai,Anurag Shri A.R.C. div>Murthy,DLRL Manoj Kumar Jain博士,DMRL K Nageswara Rao博士,Drdl Jodhpur Shri Ravindra Kumar,DL Kanpur Shri A.K. div>Singh,DMSRDE KOCHI SMT LEETHA M.M. div>Pandey,Arde J.A. div>Kanetkar博士Himanshu Shekhar博士,Hemrl Anoop博士Anand,研发
NETRA:土著空中预警 ...
阿格拉 Shri S.M.Jain,ADRDE Ahmednagar Col Atul Apte,Shri RA Shaikh,VRDE Ambernath Dr Susan Titus,NMRL Bengaluru Shri Satpal Singh Tomar,ADE Smt M.R.Bhuvaneswari,CABS Smt Faheema A.G.J.,CAIR Shri R. Kamalakannan,CEMILAC Ms Josephine Nirmala,DARE Shri Kiran G.,GTRE Dr Sushant Chhatre,MTRDC Chandigarh Shri Neeraj Srivastava,TBRL Dr H.S.Gusain,SASE 钦奈 Smt S Jayasudha,CVRDE 德拉敦 Shri Abhai Mishra,DEAL Dr S.K.Mishra,IRDE Delhi Amit Pasi 先生,CFEES Dipti Prasad 博士,DIPAS Nidhi Maheshwari 博士,DIPR Ram Prakash 先生,DTRL Navin Soni 先生,INMAS Anurag Pathak 先生,ISSA D.P. 博士Ghai,LASTEC Ms Noopur Shrotriya,SAG Dr Rachna Thakur,SSPL Gwalior Dr Manorama Vimal,DRDE Haldwani Dr Atul Grover,DIBER Dr Ranjit Singh Hyderabad Dr J.K. Rai,ANURAG Shri A.R.C.Murthy,DLRL Dr Manoj Kumar Jain,DMRL Dr K Nageswara Rao,DRDL Jodhpur Shri Ravindra Kumar,DL Kanpur Shri A.K.Singh,DMSRDE Kochi Smt Letha M.M.,NPOL Leh Dr Tsering Stobden,DIHAR Pune Shri A.K.Pandey,ARDE 博士 J.A.Kanetkar Himanshu Shekhar 博士,HEMRL Anoop Anand 博士,R&DE(E) Tezpur Sibnarayan Datta 博士 Sonika Sharma 博士,DRL
未来空中监视技术
Agra Shri S.M.Jain、ADRDE Ahmednagar Col Atul Apte、Shri RA Shaikh、VRDE Ambernath Susan Titus 博士、NMRL 班加罗尔 Shri Satpal Singh Tomar、ADE Smt M.R.Bhuvaneswari、CABS Smt Faheema A.G.J.、CAIR Shri R. Kamalakannan、CEMILAC Josephine Nirmala 女士、DARE Shri Kiran G.、GTRE Sushant Chhatre 博士、MTRDC 昌迪加尔 Shri Neeraj Srivastava、TBRL H.S. 博士Gusain,SASE Chennai Smt S Jayasudha,CVRDE Dehradun Shri Abhai Mishra,DEAL Dr S.K.Mishra、IRDE Delhi Shri Amit Pasi、CFEES Dr Dipti Prasad、DIPAS Dr Nidhi Maheshwari、DIPR Shri Ram Prakash、DTRL Shri Navin Soni、INMAS Shri Anurag Pathak、ISSA Dr D.P.Ghai、LASTEC Noopur Shrotriya 女士、SAG Rachna Thakur 博士、SSPL Gwalior Manorama Vimal 博士、DRDE Haldwani Atul Grover 博士、DIBER Ranjit Singh 海德拉巴博士 J.K. Rai,ANURAG Shri A.R.C.Murthy,DLRL Manoj Kumar Jain 博士,DMRL K Nageswara Rao 博士,DRDL Jodhpur Shri Ravindra Kumar,DL Kanpur Shri A.K.Singh,DMSRDE Kochi Smt Letha M.M.,NPOL Leh Tsering Stobden 博士,DIHAR Pune Shri A.K.Pandey,ARDE J.A. 博士Kanetkar Himanshu Shekhar 博士,HEMRL Anoop Anand 博士,R&DE(E) Tezpur Sibnarayan Datta 博士 Sonika Sharma 博士,DRL
未来空中监视技术
Agra Shri S.M.Jain、ADRDE Ahmednagar Col Atul Apte、Shri RA Shaikh、VRDE Ambernath Susan Titus 博士、NMRL 班加罗尔 Shri Satpal Singh Tomar、ADE Smt M.R.Bhuvaneswari、CABS Smt Faheema A.G.J.、CAIR Shri R. Kamalakannan、CEMILAC Josephine Nirmala 女士、DARE Shri Kiran G.、GTRE Sushant Chhatre 博士、MTRDC 昌迪加尔 Shri Neeraj Srivastava、TBRL H.S. 博士Gusain,SASE Chennai Smt S Jayasudha,CVRDE Dehradun Shri Abhai Mishra,DEAL Dr S.K.Mishra、IRDE Delhi Shri Amit Pasi、CFEES Dr Dipti Prasad、DIPAS Dr Nidhi Maheshwari、DIPR Shri Ram Prakash、DTRL Shri Navin Soni、INMAS Shri Anurag Pathak、ISSA Dr D.P.Ghai、LASTEC Noopur Shrotriya 女士、SAG Rachna Thakur 博士、SSPL Gwalior Manorama Vimal 博士、DRDE Haldwani Atul Grover 博士、DIBER Ranjit Singh 海德拉巴博士 J.K. Rai,ANURAG Shri A.R.C.Murthy,DLRL Manoj Kumar Jain 博士,DMRL K Nageswara Rao 博士,DRDL Jodhpur Shri Ravindra Kumar,DL Kanpur Shri A.K.Singh,DMSRDE Kochi Smt Letha M.M.,NPOL Leh Tsering Stobden 博士,DIHAR Pune Shri A.K.Pandey,ARDE J.A. 博士Kanetkar Himanshu Shekhar 博士,HEMRL Anoop Anand 博士,R&DE(E) Tezpur Sibnarayan Datta 博士 Sonika Sharma 博士,DRL
口腔的细菌纤维素粘合剂复合材料...
口腔以伤口和溃疡的形式表现出来(Nguyen&Hiorth,2015; Sankar等人,2011年40)。 微生物,唾液和组织剪切力的动态环境使局部治疗变得复杂。 由于粘合剂故障(<24 h),结构完整性的丧失或其组合43(Boateng等,2014; Davidovich-Pinhas&bianco-Peled,2014; Hearnden等,2012; Hearnden et al。,2012; Laffleur 44&Kküpepersan al an al al an al an al an al an al an al an al an al an an al an al an al an an al an al an al an al an al an al an al an al an al and a an and 201; 替代方案是液体45或凝胶的频繁应用(3-5/天),导致患者依从性差。 商业粘膜粘附设计基于水46肿胀聚合物,这些聚合物通过组织表面的聚合物纠缠粘在软组织上(Smart,47,2014年)。 设计相对安全,但是不受控制的吸水会导致48个粘附力随着时间的推移而恶化(0.5-5 kPa,假设面积为2 cm 2)(El Azim等,2015; Kumria等; Kumria et 49 al。 因此,水凝胶50结构在脱落前的固定量为6-8小时(Nafee等,2004; Perioli等,51 2004; Santocildes-Romero等,2017)。 如果肿胀52稳定,粘附性设计将得到改善,从而防止凝聚力和粘合性衰竭(Smart,2014)。 延长保留率将导致口腔病变处增加接触时间增加,扩展治疗剂量并提供屏障54(Colley等,2018; Santocildes-Romero等,2017)。 55口腔以伤口和溃疡的形式表现出来(Nguyen&Hiorth,2015; Sankar等人,2011年40)。微生物,唾液和组织剪切力的动态环境使局部治疗变得复杂。由于粘合剂故障(<24 h),结构完整性的丧失或其组合43(Boateng等,2014; Davidovich-Pinhas&bianco-Peled,2014; Hearnden等,2012; Hearnden et al。,2012; Laffleur 44&Kküpepersan al an al al an al an al an al an al an al an al an al an an al an al an al an an al an al an al an al an al an al an al an al an al and a an and 201;替代方案是液体45或凝胶的频繁应用(3-5/天),导致患者依从性差。商业粘膜粘附设计基于水46肿胀聚合物,这些聚合物通过组织表面的聚合物纠缠粘在软组织上(Smart,47,2014年)。设计相对安全,但是不受控制的吸水会导致48个粘附力随着时间的推移而恶化(0.5-5 kPa,假设面积为2 cm 2)(El Azim等,2015; Kumria等; Kumria et 49 al。因此,水凝胶50结构在脱落前的固定量为6-8小时(Nafee等,2004; Perioli等,51 2004; Santocildes-Romero等,2017)。粘附性设计将得到改善,从而防止凝聚力和粘合性衰竭(Smart,2014)。延长保留率将导致口腔病变处增加接触时间增加,扩展治疗剂量并提供屏障54(Colley等,2018; Santocildes-Romero等,2017)。55
第1个马拉松优点列表2023.xlsx
座位号。名称数学int。科学总计全印度排名区域102318735 SAEE VIJAY BHOSALE 50 25 100 1st Kolhapur 102319214 Annapurna Dinesh Jalgaonkar 50 2599 2nd Jalgaon 102318482 Razvardhan Mahendra Razvardhan Mahendra Supekar1 24 299 3rd Otur 102317947 Ajit JADHAV 49 259 25959 4th Kundal 102318745 Vardhan Amol Kole 49 259 25959594TH KOLHAPUR 1023152229 102315806 krushnendu raghvendra patil 50 23 25 98 7th gadhinglaj 102319524 Sulbha Shivprasad Prasade 50 23 25 98 7th Pune 102318522 Ridhima Vishal Shinde 49 25 24 98 98 98 10231753 Swarali Adinath Patil 49 25 2498 9th Jaysingpur 102318543 Divyangana Dinkar Parit 49 25 2498 9th Kolhapur 102315359 Renu Bhimashankar 49 25 25 Vijay Ingale 48 25 98 13 PALI 102319732 LALIT RUPESH KAMBLE 48 25 98 13孟买102315636 Shreraj Rahul Kinikar 50 23 97 15th Bhilawadi 102317974 Sai Mai Mai Maij Kadam 50 23 97 23 97 15th Phaltan 102319815 Dnnyanesh Sada Kurkumbe 50 24 23 97 15th Sangola 102316061 Nidhi Jitendra Kamble 50 23 24 97 18th Ratnagiri 102311941 Swayam 50 Anavi Amit Pachore 50 2397 18th Nandre 102317999999999999999999999999999999999999999999999999999999999999999999999999999999999999999年447 Girish Karn 50 22 25 97 21st Kolhapur 102316971 Aaisha Jamir Shaikh 492 25 23 23 97 23rd devrukh 102319629 Lalita Hemant Chavan 49 25 23 97 23rd Pune
狂热的脑肿瘤分割挑战2023
Anahita Fathi Kazerooni 1,Nastaran Khalili 1,Xinyang Liu 2,Debanjan Haldar 3,Zhifan Jiang 2,Anna Zapaishchykova 4,Julija Pavaine 5,Julija Pavaine 5 Khanak K. Nandolia 12,Andres F. Rodriguez 13,Ibraheem Salman Shaikh 14,Mariana Sanchez-Montano 15,Holley Adewole 17,Jake Albrecht 18,Udunna Anazodo 19,Hannah Anazodo 19,Hannah Anderson 20,Syed Muhammed Anwar2 22,蒂莫西·贝格斯(Timothy Bergquist)18,奥斯汀·J·博尔贾(Austin J. Janas 30, Elaine Elaine 31, Alexandros Karargyris 21, Hasan Kassem 21, Neda Khalili 1, Florian Kofler 32, Dominic Labella 33, Koen Van LEMPUT 34, Hongwei B. Li 35 , Nazanin Maleki 30, Zeke Meier 36, Bjoern Menze 37, Ahmed W. Moawad 38, Sarthak Pati 21, Marie Pirud 32,Tina Poussant 4,Zachary D. Rudare 39,Rachit Saluja 40,Micah Sheller 21,Russell Takeshi Shinohara 41,Karthik Viswanathan 1,Chunhao Wang 33,Benedikt Wiestler 42,Walter F. Wigter F. Wiggin F. Wiggin S. 43,Cristos B. 风暴1,Miriam Bornhorst 45,Roger Packer 45,Trent Hummel 46,Peter de Blank 46,Lindsey Hoffman 47,Lindse Aboian 8,Ali Nabavizade 1,Jeffrey B. Ware 1,Benjamin H. Linguraru 2风暴1,Miriam Bornhorst 45,Roger Packer 45,Trent Hummel 46,Peter de Blank 46,Lindsey Hoffman 47,Lindse Aboian 8,Ali Nabavizade 1,Jeffrey B. Ware 1,Benjamin H. Linguraru 2
杰出项目研究摘要Md。Hasan...
2011-2013),项目编号:10-ADV1367-04,项目标题:基于YSZ的多孔管状阳极支持和用于固体氧化物燃料电池的密集的单粒电解质层的开发,资金授权授权:NSTIP,预算,预算:19400,000 SR。角色:PM2013-2015),项目编号:AT-32-21,项目名称:用于氢气分离及其水热稳定性的纳米晶复合氧化物氧化物膜,KACST,预算:9,800,000 SR。 Role: PM 2013 to 2015), Project no: KACST ARP 34-79, Project Title: Self-Assembly of Janus-Dendrimers into Nanostructured Supramolecular Architectures, Funding Authority: KACST, Budget: SR 1,306,000.00 SR, Role: Co-I 2013 to 2015, Project no: KAP-11-616, Title: Molybdenum (Mo) based Dispersed重油升级的催化剂,角色:共同投资者,资金管理局:KACST,预算:1,462,000 SAR。角色:CO-I2013-2015,项目编号:12-Ene3204-04,标题:表面改装的铅硫代基因异质结构的太阳能收获,资金授权机构:NSTIP:预算,预算:1984,200 SAR。1)2016年3月 - 2018年3月,项目号nstip,15-Ene4617-04,角色:Co-I。2018年4月至4月2021年,多孔结构对太阳能热量储能材料的影响,PI,H。Zahir,Co.-I:M。Maslehuddin,Amir al-Ahmed,M。M. M. Rahman,DSR/ dsr/ in171036,资金授权:DSR,DSR,KFUPM,Budgupm,预算:300,000.00 sar。角色:PM2020年4月至2023年3月,LACO3OH NANOPRISM:光致发光和有毒的NOX降低特性”(DF191-Corere-109)资金授权机构:DSR,KFUPM,PI,H。Zahir预算SR。299,835。角色:PM2020年4月至2023年3月,层次多孔和空心MGO微球用于太阳能储能”(DF191-Corere-107)资金授权机构:DSR,KFUPM,PI,H。Zahir,H。Zahir,预算SR。279,940。279,940。角色:PM2019年4月至2022年4月,小说(Co-,Ni)-Calixarenes作为重油升级的分散催化剂,Mohammad Mozahar Hossain; Co-I:Hasan Zahir博士,Shaikh Abdur Razzak博士; Sagir Adamu博士,DF181018; 3年,资金管理局:DSR,KFUPM。预算:299,910.00 SAR。角色 - co-i