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  1. Book ; Online ; E-Book: Food printing

    Sandhu, Kamalpreet / Singh, Sunpreet

    3D printing in food industry

    2022  

    Author's details Kamalpreet Sandhu and Sunpreet Singh, editors
    Keywords Three-dimensional food printing ; Food industry and trade/Technological innovations ; Food industry and trade ; Indústria alimentària ; Comerç d'aliments ; Impressió 3D
    Subject code 664
    Language English
    Size 1 online resource (187 pages)
    Publisher Springer
    Publishing place Singapore
    Document type Book ; Online ; E-Book
    Remark Zugriff für angemeldete ZB MED-Nutzerinnen und -Nutzer
    ISBN 981-16-8121-X ; 981-16-8120-1 ; 978-981-16-8120-2 ; 978-981-16-8121-9
    Database ZB MED Catalogue: Medicine, Health, Nutrition, Environment, Agriculture

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  2. Book ; Online ; E-Book: Waste-to-energy approaches towards zero waste

    Hussain, Chaudhery Mustansar / Singh, Sunpreet / Goswami, Lalit

    interdisciplinary methods of controlling waste

    2022  

    Author's details edited by Chaudhery Mustansar Hussain, Sunpreet Singh, Lalit Goswami
    Keywords Refuse as fuel ; Waste products as fuel ; Waste minimization
    Subject code 662.8
    Language English
    Size 1 online resource (455 pages)
    Publisher Elsevier
    Publishing place Amsterdam, Netherlands ; Oxford, England ; Cambridge, Massachusetts
    Document type Book ; Online ; E-Book
    Remark Zugriff für angemeldete ZB MED-Nutzerinnen und -Nutzer
    ISBN 0-323-85388-9 ; 0-323-85387-0 ; 978-0-323-85388-0 ; 978-0-323-85387-3
    Database ZB MED Catalogue: Medicine, Health, Nutrition, Environment, Agriculture

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  3. Book: 3D Printing in Biomedical Engineering

    Singh, Sunpreet / Singh, Rupinder / Prakash, Chander

    (Materials Horizons: From Nature to Nanomaterials)

    2020  

    Abstract: This book gives a comprehensive overview of the rapidly evolving field of three-dimensional (3D) printing, and its increasing applications in the biomedical domain. 3D printing has distinct advantages like improved quality, cost-effectiveness, and higher ...

    Author's details Dr. Sunpreet Singh is researcher in NUS Nanoscience & Nanotechnology Initiative (NUSNNI). He has received Ph.D in Mechanical Engineering from Guru Nanak Dev Engineering College, Ludhiana, India. His area of research is additive manufacturing and application of 3D printing for development of new biomaterials for clinical applications. He has contributed extensively in additive manufacturing literature with publications appearing in Journal of Manufacturing Processes, Composite Part: B, Rapid Prototyping Journal, Journal of Mechanical Science and Technology, Measurement, International Journal of Advance Manufacturing Technology, and Journal of Cleaner Production. He has authored 10 book chapters and monographs. He is working in joint collaboration with Prof. Seeram Ramakrishna, NUS Nanoscience & Nanotechnology Initiative and Prof. Rupinder Singh, manufacturing research lab, GNDEC, Ludhiana. He is also editor of 3 books- "Current Trends in Bio-manufacturing; "3D Printing inBiomedical E
    Series title Materials Horizons: From Nature to Nanomaterials
    Abstract This book gives a comprehensive overview of the rapidly evolving field of three-dimensional (3D) printing, and its increasing applications in the biomedical domain. 3D printing has distinct advantages like improved quality, cost-effectiveness, and higher efficiency compared to traditional manufacturing processes. Besides these advantages, current challenges and opportunities regarding choice of material, design, and efficiency are addressed in the book. Individual chapters also focus on selec...
    Keywords Sammelwerk ; TMEC010 ; TSMA045 ; MHMA025 ; TMEB096 ; NBIC030 ; TCHL020 ; Biomedical3Dprinting ; additivemanufacturing ; Implantsandscaffolds ; 3Dprintingofbiomaterials ; biomedicalengineering ; Tissueengineeringandregeneration ; drugdelivery ; Medical3Dprinting ; 3DBiofabrication ; Organprinting ; 3DBioprinting ; Biomedical 3D printing ; Additive manufacturing ; Implants and scaffolds ; 3D printing of biomaterials ; Biomedical engineering ; Tissue engineering and regeneration ; Drug delivery ; Medical 3D printing ; 3D Biofabrication ; Organ printing ; 3D Bioprinting
    Language English
    Size 352 p.
    Edition 1
    Publisher Springer Nature Singapore
    Document type Book
    Note PDA Manuell_6
    Format 160 x 241 x 25
    ISBN 9789811554230 ; 9811554234
    Database PDA

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  4. Article ; Online: Fifty-Nine-Year-Old Woman With Concurrent Administration of Cobicistat and Dexamethasone Potentially Leading to Mania: A Case Report.

    Cheng, Gerald / Singh, Sunpreet / Garabet, Christopher / Ard, Mark

    Journal of clinical psychopharmacology

    2024  Volume 44, Issue 3, Page(s) 330–331

    MeSH term(s) Humans ; Female ; Dexamethasone/administration & dosage ; Dexamethasone/adverse effects ; Middle Aged ; Mania/chemically induced ; Cobicistat/administration & dosage ; Cobicistat/adverse effects ; Drug Therapy, Combination ; Bipolar Disorder/drug therapy ; Bipolar Disorder/chemically induced ; Glucocorticoids/administration & dosage ; Glucocorticoids/adverse effects ; Drug Interactions
    Chemical Substances Dexamethasone (7S5I7G3JQL) ; Cobicistat (LW2E03M5PG) ; Glucocorticoids
    Language English
    Publishing date 2024-04-06
    Publishing country United States
    Document type Case Reports ; Letter ; Journal Article
    ZDB-ID 604631-9
    ISSN 1533-712X ; 0271-0749
    ISSN (online) 1533-712X
    ISSN 0271-0749
    DOI 10.1097/JCP.0000000000001842
    Database MEDical Literature Analysis and Retrieval System OnLINE

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    Zs.A 1664: Show issues Location:
    Je nach Verfügbarkeit (siehe Angabe bei Bestand)
    bis Jg. 1994: Bestellungen von Artikeln über das Online-Bestellformular
    Jg. 1995 - 2021: Lesesall (1.OG)
    ab Jg. 2022: Lesesaal (EG)

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  5. Article ; Online: On the characterization of functionally graded biomaterial primed through a novel plaster mold casting process.

    Prakash, Chander / Singh, Sunpreet

    Materials science & engineering. C, Materials for biological applications

    2020  Volume 110, Page(s) 110654

    Abstract: The current work presents a novel plaster mold casting (PMC) process for fabricating functionally graded biodegradable materials (FGBMs) for orthopedics applications. According to the proposed route, the plaster molds were first prepared by using a ... ...

    Abstract The current work presents a novel plaster mold casting (PMC) process for fabricating functionally graded biodegradable materials (FGBMs) for orthopedics applications. According to the proposed route, the plaster molds were first prepared by using a hybrid and variable mixture of Plaster of Paris (PoP) and hydroxyapatite (HAP). Upon drying, molten magnesium (Mg) alloy was poured in the mold cavity and allowed to solidify. Various experiments have been conducted as per Taguchi based design of experimentation to study the effect of PoP
    MeSH term(s) Analysis of Variance ; Cell Line, Tumor ; Coated Materials, Biocompatible/chemistry ; Corrosion Casting/methods ; Durapatite/chemistry ; Hardness ; Humans
    Chemical Substances Coated Materials, Biocompatible ; Durapatite (91D9GV0Z28)
    Language English
    Publishing date 2020-01-07
    Publishing country Netherlands
    Document type Journal Article
    ZDB-ID 2012160-X
    ISSN 1873-0191 ; 0928-4931
    ISSN (online) 1873-0191
    ISSN 0928-4931
    DOI 10.1016/j.msec.2020.110654
    Database MEDical Literature Analysis and Retrieval System OnLINE

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  6. Article ; Online: Promising Role of Polylactic Acid as an Ingenious Biomaterial in Scaffolds, Drug Delivery, Tissue Engineering, and Medical Implants: Research Developments, and Prospective Applications.

    Ranakoti, Lalit / Gangil, Brijesh / Bhandari, Prabhakar / Singh, Tej / Sharma, Shubham / Singh, Jujhar / Singh, Sunpreet

    Molecules (Basel, Switzerland)

    2023  Volume 28, Issue 2

    Abstract: In the present scenario, the research is now being focused on the naturally occurring polymers that can gradually replace the existing synthetic polymers for the development of bio composites having applications in medical surgeries and human implants. ... ...

    Abstract In the present scenario, the research is now being focused on the naturally occurring polymers that can gradually replace the existing synthetic polymers for the development of bio composites having applications in medical surgeries and human implants. With promising mechanical properties and bio compatibility with human tissues, poly lactic acid (PLA) is now being viewed as a future bio material. In order to examine the applicability of PLA in human implants, the current article sheds light on the synthesis of PLA and its various copolymers used to alter its physical and mechanical properties. In the latter half, various processes used for the fabrication of biomaterials are discussed in detail. Finally, biomaterials that are currently in use in the field of biomedical (Scaffolding, drug delivery, tissue engineering, medical implants, derma, cosmetics, medical surgeries, and human implants) are represented with respective advantages in the sphere of biomaterials.
    MeSH term(s) Humans ; Biocompatible Materials ; Tissue Engineering ; Polyesters ; Polymers ; Tissue Scaffolds
    Chemical Substances poly(lactide) (459TN2L5F5) ; Biocompatible Materials ; Polyesters ; Polymers
    Language English
    Publishing date 2023-01-04
    Publishing country Switzerland
    Document type Journal Article ; Review
    ZDB-ID 1413402-0
    ISSN 1420-3049 ; 1431-5165 ; 1420-3049
    ISSN (online) 1420-3049
    ISSN 1431-5165 ; 1420-3049
    DOI 10.3390/molecules28020485
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  7. Article: Three-dimensional printing in the fight against novel virus COVID-19: Technology helping society during an infectious disease pandemic.

    Singh, Sunpreet / Prakash, Chander / Ramakrishna, Seeram

    Technology in society

    2020  Volume 62, Page(s) 101305

    Abstract: Indeed, the scientific milestones set by the ever-emerging three-dimensional printing (3DP) technologies are tremendous. Till now, the innovative 3DP technologies have benefitted the aerospace, automobile, textile, pharmaceutical, and biomedical sectors ... ...

    Abstract Indeed, the scientific milestones set by the ever-emerging three-dimensional printing (3DP) technologies are tremendous. Till now, the innovative 3DP technologies have benefitted the aerospace, automobile, textile, pharmaceutical, and biomedical sectors by developing pre-requisite designed and customized performance standards of the end-user products. As the scientific world, at this moment, is expediting efforts to fight against the highly damaging novel coronavirus (COVID-19) pandemic, the 3DP technologies are facilitating creative solutions in terms of personal protective equipment (PPE), medical equipment (such as ventilators and other respiratory devices), and other health and welfare tools to aid the personal hygiene as well as safe environment for humans by restricting the communication of risks. Various sources (including journal articles, news articles, white papers of the government and other non-profit organizations, commercial enterprises, as well as academic institutions have been reviewed for the collection of the information relevant to COVID-19 and 3DP. This communication presents the recent applications of the 3DP technologies aiding in developing innovative products designed to save the lives of millions of people around the world. Moreover, the potential of 3DP technologies in developing test swabs and controlled medicines has been highlighted. The literature reviewed in the present study indicated that the fused filament fabrication (FFF) is one of the most preferred technologies and contribute about 62% in the overall production of the protective gears developed through overall class of 3DP.
    Keywords covid19
    Language English
    Publishing date 2020-06-23
    Publishing country United States
    Document type Journal Article
    ISSN 0160-791X
    ISSN 0160-791X
    DOI 10.1016/j.techsoc.2020.101305
    Database MEDical Literature Analysis and Retrieval System OnLINE

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  8. Article ; Online: Nitinol: From historical milestones to functional properties and biomedical applications.

    Alipour, Saeid / Taromian, Farzaneh / Ghomi, Erfan Rezvani / Zare, Mina / Singh, Sunpreet / Ramakrishna, Seeram

    Proceedings of the Institution of Mechanical Engineers. Part H, Journal of engineering in medicine

    2022  Volume 236, Issue 11, Page(s) 1595–1612

    Abstract: Isoatomic NiTi alloy (Nitinol) has become an important biomaterial due to its unique characteristics, including shape memory effect, superelasticity, and high damping. Nitinol has been widely used in the biomedical field, including orthopedics, vascular ... ...

    Abstract Isoatomic NiTi alloy (Nitinol) has become an important biomaterial due to its unique characteristics, including shape memory effect, superelasticity, and high damping. Nitinol has been widely used in the biomedical field, including orthopedics, vascular stents, orthodontics, and other medical devices. However, there have been convicting views about the biocompatibility of Nitinol. Some studies have shown that Nitinol has extremely low cytotoxicity, indicating Nitinol has good biocompatibility. However, some studies have shown that the in-vivo corrosion resistance of Nitinol significantly decreases. This comprehensive paper discusses the historical developments of Nitinol, its biomedical applications, and its specific functional property. These render the suitability of Nitinol for such biomedical applications and provide insights into its in vivo and in vitro biocompatibility in the physiological environment and the antimicrobial strategies that can be applied to enhance its biocompatibility. Although 3D metal printing is still immature and Nitinol medical materials are difficult to be processed, Nitinol biomaterials have excellent potential and commercial value for 3D printing. However, there are still significant problems in the processing of Nitinol and improving its biocompatibility. With the deepening of research and continuous progress in surface modification and coating technology, a series of medical devices made from Nitinol are expected to be released soon.
    MeSH term(s) Alloys ; Corrosion ; Biocompatible Materials ; Stents ; Surface Properties
    Chemical Substances nitinol (2EWL73IJ7F) ; Alloys ; Biocompatible Materials
    Language English
    Publishing date 2022-09-18
    Publishing country England
    Document type Journal Article ; Review
    ZDB-ID 1065942-0
    ISSN 2041-3033 ; 0046-2039 ; 0954-4119
    ISSN (online) 2041-3033
    ISSN 0046-2039 ; 0954-4119
    DOI 10.1177/09544119221123176
    Database MEDical Literature Analysis and Retrieval System OnLINE

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    Zs.A 2652: Show issues Location:
    Je nach Verfügbarkeit (siehe Angabe bei Bestand)
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    Jg. 1995 - 2021: Lesesall (2.OG)
    ab Jg. 2022: Lesesaal (EG)

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  9. Article ; Online: Tissues and organ printing: An evolution of technology and materials.

    Singh, Gurminder / Singh, Sunpreet / Kumar, Raman / Parkash, Chander / Pruncu, Catalin / Ramakrishna, Seeram

    Proceedings of the Institution of Mechanical Engineers. Part H, Journal of engineering in medicine

    2022  Volume 236, Issue 12, Page(s) 1695–1710

    Abstract: Since its beginnings, three-dimensional printing (3DP) technology has been successful because of ongoing advances in operating principles, the range of materials and cost-saving measures. However, the 3DP technological progressions in the biomedical ... ...

    Abstract Since its beginnings, three-dimensional printing (3DP) technology has been successful because of ongoing advances in operating principles, the range of materials and cost-saving measures. However, the 3DP technological progressions in the biomedical sector have majorly taken place in the last decade after the evolution of novel 3DP systems, generally categorised as bioprinters and biomaterials to provide a replacement, transplantation or regeneration of the damaged organs and tissue constructs of the human body. There is now substantial scientific literature accessible to support the benefits of digital healthcare procedures with the help of bioprinters. It is of the highest significance to know the fundamental principles of the available printers and the compatibility of biomaterials as their feedstock, notwithstanding the huge potential of bioprinting systems to manufacture organs and other human body components. This paper provides a precise and helpful reading of the different categories of bioprinters, suitable biomaterials, numerical simulations and modelling and examples of much acknowledged clinical practices. The paper will also cite the prominent issues that still have not received desired solutions. Overall, the article will be of great use for all the professionals, scholars and engineers concerned with the 3DP, bioprinting and biomaterials.
    MeSH term(s) Humans ; Tissue Engineering/methods ; Bioprinting/methods ; Printing, Three-Dimensional ; Biocompatible Materials
    Chemical Substances Biocompatible Materials
    Language English
    Publishing date 2022-09-22
    Publishing country England
    Document type Journal Article ; Review
    ZDB-ID 1065942-0
    ISSN 2041-3033 ; 0046-2039 ; 0954-4119
    ISSN (online) 2041-3033
    ISSN 0046-2039 ; 0954-4119
    DOI 10.1177/09544119221125084
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    Zs.A 2652: Show issues Location:
    Je nach Verfügbarkeit (siehe Angabe bei Bestand)
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    Jg. 1995 - 2021: Lesesall (2.OG)
    ab Jg. 2022: Lesesaal (EG)

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  10. Article: Comparative job production based life cycle assessment of conventional and additive manufacturing assisted investment casting of aluminium: A case study

    Prakash, Chander / Singh, Sunpreet / Kopperi, Harishankar / Ramakrihna, Seeram / Mohan, S. Venkata

    Journal of cleaner production. 2021 Mar. 20, v. 289

    2021  

    Abstract: Conventional investment casting (IC) process, despite being one of the highly precise manufacturing processes, is suffering from key intrinsic problems, including acquisitions of the enormous resources and specialized machine tools, long production runs, ...

    Abstract Conventional investment casting (IC) process, despite being one of the highly precise manufacturing processes, is suffering from key intrinsic problems, including acquisitions of the enormous resources and specialized machine tools, long production runs, and dedicated workforce. However, additive manufacturing (AM) could be a viable solution to assist the IC process in dealing with the aforementioned issues as well as to refurbish its environmental sustainability. The present research work aims to compare the Life Cycle Assessment (LCA) of conventional and AM assisted IC processes for producing aluminium castings. Particularly, the emphases have been made on comparing the production cycle times, cost, specific energy consumption, and carbon footprints. Along with this, the quality characteristics of as-cast aluminium specimens have been compared for conceptual validity. The results of the study indicated that the use of AM technology has not only curbed the acquisition of the resources and eliminated the necessity of specialized machine tools, but also has reduced the production cycle time, processing cost, specific energy consumption, and carbon emissions by about 19%, 93%, 70%, and 71%, respectively. Overall, the AM assisted IC process has been observed as a rapid, cost-effective, environmentally sustainable process for the job production run.
    Keywords aluminum ; carbon ; carbon footprint ; case studies ; cost effectiveness ; emissions ; labor force ; life cycle assessment ; manufacturing ; research ; specific energy ; validity
    Language English
    Dates of publication 2021-0320
    Publishing place Elsevier Ltd
    Document type Article
    Note NAL-light
    ISSN 0959-6526
    DOI 10.1016/j.jclepro.2020.125164
    Database NAL-Catalogue (AGRICOLA)

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