Showing posts with label COVID-19. Show all posts
Showing posts with label COVID-19. Show all posts

04 July 2026

从444号决议到1776精神的回归:美国两党共识下的对中共共产主义列宁式组织的文明决战与历史总清算



长期以来,中文舆论场与跨国政论圈都深陷一个巨大的认知误区:他们习惯于将美中之间波涛汹涌的对抗,矮化为“川普个人的极端言论”或“MAGA运动的激进修辞”,将其娱乐化、戏剧化。甚至许多人天真地寄希望于通过“换个总统”或“等待某次中期选举”,就能让华盛顿重温旧梦。

这种浅薄的观察,完全忽略了美国整个国家机器——尤其是国会两党——在制度和法案层面的“深水静流”与彻底转向。

2026年的这个夏天,当美国迎来独立宣言250周年的历史性时刻,两场看似独立却内在逻辑高度统一的政治风暴正在华盛顿全面收网。一场是总统川普在总统山发表标志性演说,正式将“1776精神”拉升为清除共产主义的最高国家总动员战略;另一场则是美国参议院以全票一致的压倒性姿态,通过了由里克·斯科特(Rick Scott)发起的第444号决议(S.Res.444)


这绝非一场关于关税或地缘排序的“修昔底德陷阱”争霸,而是一场跨越美国两党、结合国防建制(NDAA)与文明信仰的制度围堵和历史总清算。两代美国外交精英在经历了半个世纪被耍弄的痛苦后,终于将对华战车的方向盘彻底焊死。

一、 被耍弄的半个世纪:民主党“接触政策”的战略破产

要理解今天华盛顿那种两党内卷、不留退路的狠辣,就必须翻开冷战以来的外交账本。

历史上,正是美国民主党的建制派精英(从克林顿到奥巴马),极力推进了对华“接触政策”(Core Engagement)。然而到了2026年的今天,面对重返白宫并大打关税战的共和党政府,在野的民主党反而表现得更加歇斯底里——他们正在国会联合两党鹰派,利用更加精准的技术合规、金融审计和供应链防火墙,筑起阻击威权机器的“暗线防线”。

这种反差的背后,是民主党外交建制派历经半个世纪被耍弄后的战略清醒与制度性狂怒。

1. 朝鲜与越南:被选择性咽下的血债与列宁式的暴力基因

翻开《全国人大常委会公报》里第七届全国人大解放军代表团的官方履历,西方那些天真的外交官就会明白自己当年错得有多离谱:

  • 在那个负责审批国家决算和财政报告的立法代表团里,堂而皇之地坐着柴云振(中华人民共和国中央人民政府在朝鲜半岛从事侵略并与联合国军交战的特等功臣)、秦基伟上将(中华人民共和国中央人民政府在朝鲜半岛从事侵略并与联合国军交战的上甘岭战役指挥官)、迟浩田上将(中华人民共和国中央人民政府在朝鲜半岛从事侵略并与联合国军交战的长津湖战役立功者)。

这构成了历史与法理的冰冷交织。1950年代的朝鲜战争,数万美军阵亡,中共在战后从未对其在朝鲜半岛从事侵略并与联合国军交战对抗美国做出过任何道歉;越南战场,北京高层亲自审查战役方案,更秘密派遣了超过32万中国军队(防空兵、工程兵)直接对美军作战。其中就包括当年在越南秘密拨付1000万美元和3个师装备消灭法军、从不道歉认错的韦国清上将。

当年以尼克松为代表的美国共和党现实主义政府为了地缘政治上“联华抗苏”的巨大实用主义利益,硬生生把这两口气咽了下去。华盛顿大度地选择历史“向前看”,却被列宁式组织视为“资产阶级纸老虎的软弱”——在这种纵容下,这个体制毫无顾忌地把这群“开枪者、花钱者、财政预算决算审批者三位一体”的幕后军头,堂而皇之地送上了自己全国人大的最高立法席位。

2. WTO与玫瑰园的完美出千:从“天真图章”到“暴力合规”

2001年,克林顿全力推动中国加入世贸组织(WTO),天真地认为经济自由必然带来政治民主;2015年,奥巴马在白宫玫瑰园听取了北京关于“南海绝不搞军事化”的公开承诺。

结果是毁灭性的。中共不仅反水将南海彻底军事化,更将这种“制度性欺骗”合法化地写进了地方和全国人大的最高议事程序中。

根据中共2026年3月主动公开的官方公告,新疆第十四届人大代表团里堂而皇之地坐着32名服从中央军委指挥的驻疆PLA和武警部队枪杆子人大代表。他们中既有代表全体新疆人去北京开会的内蒙古00后大兵丁晓杰,也有在2024年直接穿着军装高坐人大主席团、握有提案生杀大权与文官罢免权的军区司令员柳林中将。

这种“枪杆子卡死程序闸门”的真实面貌,直接让民主党的外交精英彻底抽醒:

  • 在这个体制的字典里没有契约,只有兵不诈伪的拖延。当财政部监管局局长李若云等世俗文官,必须战战兢兢地跑去向握有空军通信权的米合伦沙·阿不都和境外押解警察赵金龙等全国人大代表“跪求认可”时,这就不是现代国家的预算审计,而是用暴力机器对文官系统执行“持枪合规”。

二、 参议院444号决议:全景式的罪状定性与道德海啸

2026年6月16日通过的第444号决议,其篇幅之长、细节之具体,堪称是一份对列宁式极权体制的“全面起诉书”。它不再使用温和的外交辞令,而是通过一长串冰冷的指控,彻底剥离了中共体制在西方眼中的合法性:

  • 人道与公共卫生债: 决议直接将超过100万美国人因新冠疫情丧生的生命损失,归咎于中共初期的欺骗与隐瞒;同时痛斥其屡次跳票打击芬太尼的承诺,导致每年数万美国人死于毒品危机。

  • 黑帮化的供应链: 决议甚至细致到了消费品安全领域,直接点名其违规使用人类排泄物作为肥料生产的“污水大蒜(sewage garlic)”及有毒消费品,向大众揭示其“在贸易中作弊”的骄傲传统。

  • 踩碎文明底线的系统性性暴力: 最令国际社会震惊的,是决议首次在官方文本中使用了“东突厥斯坦(East Turkistan)”这一具有强烈政治历史意味的称谓,并盖棺定论地将其在当地实施的“结对认亲”政策定性为现代种族灭绝与危害人类罪。决议极其严肃地指控:国家力量在无限期关押维吾尔男子后,强迫留守的维吾尔人妻子与国家分配的男子同居、同床

这种利用绝对行政权力剥夺女性身体自主权、用制度化手段摧毁家庭伦理的行径,彻底点燃了全美上下不分党派的道德怒火。

当维吾尔人的“民意”,被内蒙古00后大兵和立功警官‘代表’

当自由世界还在为参议院444号决议中揭露的“新疆结对认亲、强迫同床”感到文明世界彻骨的惊悚时,如果你翻开《新疆人大常委会公报》和官方新闻,就会发现这个体制在演戏方面的讽刺艺术已经达到了人类幽默史的巅峰。

在这里,“代表2000多万新疆人民”的政治皮影戏,已经连最起码的穿针引线都懒得做了。

根据2023年开启的第十四届新疆人大代表名单审计,代表团里堂而皇之地坐着32名服从中共中央军委指挥的驻疆解放军和武警部队“枪杆子代表”,以及核试验马兰基地所处的巴音郭楞蒙古自治州选出的30名代表。正是这群人在2023年1月18日举行的新疆人大第一次会议上,投票“选举”出了60名代表新疆的第十四届全国人大代表。

换句话说,在现代政治学上,所谓的“新疆民意代表”,其出生纸不仅需要中共党组织的审批,还必须经过中央军委指挥的现役军人用刺刀投出的赞成票。

到了2026年3月25日,新疆人大常委会更是发了一份“老实交待”的官方公告,对人大代表中枪杆子代表的来源供认不讳:宋伟军、丁晓杰、侯法武由新疆军区军人代表大会选出,闫倩由武警新疆总队军人代表大会选出。

这群由军人代表大会选出的立法者,天然背负着暴力机器的基因。比如代表新疆的丁晓杰,是一位2001年出生于内蒙古的00后中国人民解放军士兵,2019年成为喀什军分区电台值班见习员。按照宪法赋予人大代表的权力,这位00后现役战士在步入人民大会堂的那一刻,就合法变身为拥有修宪权、立法权和监督权的最高权力机关成员。一个在军营里参加比武竞赛的年轻士兵,在法理上成了决定2000多万新疆人乃至全中国十四亿人命运的“法定立法者”。


当西方和台湾的小清新还在用“橡皮图章”这种天真的词汇自我安慰,将人大主席台上的军装身影视为走过场的礼仪摆设时,中共自己的法律和议事规则早就把一记响亮的耳光甩在了他们的脸上。

如果严格按照《中华人民共和国全国人民代表大会议事规则》以及地方各级《人大组织法》中关于“主席团”的程序规定去审计,这群穿着军装、剃着平头高坐主席台上的军头,不仅是货真价实的立法者,更是掌握人大会议生死大权的最高程序判官

2024年1月29日,新疆十四届人大第二次会议预备会议通过的主席团名单里,至少赫然列着3名中国人民解放军和武警部队的现役将军人大代表:杨诚、柳林和苏勇。中共中央广播电视总台CCTV及新疆卫视的视频画面清晰地展示了这一法理现场:在1月30日的开幕会议上,新疆军区政治委员杨诚、新疆军区司令员柳林中将、以及曾任武警新疆总队副参谋长的维稳先进个人苏勇,直接穿着笔挺的现役军装,大马金刀地坐在了主席台正上方。

在人大的议事规则中,主席团的权力到底有多大?它在现实性与法理上所拥有的双重有效特权,足以让任何现代宪政国家的法官惊出冷汗:

  • 独揽提案与法案的“生杀大权”: 按照人大议事规则,任何普通代表团或代表联名提出的议案,能不能列入会议议程、能不能提交大会表决,唯一的决定权在主席团。也就是说,如果台下的世俗文官、地方法院或普通代表试图提出任何不符合中央意图的议案,柳林中将和杨诚政委坐在主席台上,不需要开枪,只需依法动用主席团的法定裁决权,就可以在程序上将其直接“枪毙”,使其连见光的可能都没有。

  • 控制国家机关负责人的“提名与罢免权”: 根据法律,地方人大的各级政府官员、监察委主任、法院院长、检察院检察长的候选人,都是由主席团依法提出的;同时,主席团还握有向大会提出罢免这些官员的法定权力。当武警军头苏勇穿着军装作为主席团成员坐在上面时,台下坐着的各级文官系统、检察官和法官们心里非常清楚:上面坐着的不是普通网民所说的“花瓶”,而是掌控自己政治生命、能随时依法提名或罢免自己的“法定理事会董事”。

  • 凌驾于司法与行政之上的“最高询问与质询权”: 在会议期间,主席团有权依法单方面决定延长会议时间,更有权随时召集各级政府官员、法院院长、检察院检察长前来汇报工作或接受询问。

当这种在法理上近乎无限的程序权力,与柳林中将手里的军区指挥权、苏勇武警首长手里的手铐与警棍完美结合时,所谓的“最高国家权力机关”就展现出了它最冰冷的真实面貌:这根本不是文官在开会,这是现役军头作为法定的主席团成员,在依照人大的法律程序,对整个地方法院、检察院和公务员系统进行居高临下的“暴力合规审计”








同样穿着军装坐在主席台上的主席团成员,还有武警部队的代表苏勇。这位苏勇代表的履历更是黑色幽默的典范:2018年,他作为武警新疆总队副参谋长,因为在一线强力镇压而被表彰为“维稳工作先进个人”——也就是直接负责把新疆人送进集中营或高压管控的执行官。到了2025年1月19日的新疆十四届人大三次会议上,这位“先进个人”苏勇不仅依然是人大代表,胸前佩戴的标记和常年不变的寸头发型更是明确昭示着:他依旧是那个手握警棍与手铐的现役武警高级头目。一个负责把选民关起来的维稳军头,同时又是代表这些选民去立法的“主席团首长”,这种法理精神大概只有在精神病院里才能被理解。

在这个体制里,军队不仅负责台上的监军和台下的投票,甚至还公开插手少数民族地区的“人口定向清洗与改造”。担任新疆人大代表的现役军人孔祥宇上校,其真实身份是武警工程大学乌鲁木齐校区政治工作处主任。在2024年2月28日他率队赴西藏大学交流座谈时,这位“人大代表”就杀气腾腾地道出了真言:希望双方加强合作,共同为西部边疆少数民族地区培养一大批“靠得住、用得上、留得下”的军地两用复合型人才。翻译成现代反人类罪行的行业黑话就是:利用军警建制,加速对新疆、西藏少数民族进行文化换血和人口驯化,培养新一代的红色监工。


而在财政和预算监督领域,这种“持枪立法”的魔幻现实更被演绎得淋漓尽致。

根据中国财政部新疆监管局官方发布的报道,他们极其自豪地炫耀了新疆人大代表、财政部新疆监管局局长兼党组书记李若云,是如何向“枪杆子”和“刀把子”全国人大代表们汇报工作、悉心听取意见的。

在这场财政监管官员向暴力机器“跪求认可”的魔幻汇报中:

  • 全国人大代表、空军驻新疆通信室主任米合伦沙·阿不都在认真听取汇报后,以最高立法者的姿态,对财政部服务代表的努力表达了“感谢”并给予“肯定”;


  • 紧接着,财政监管局官员又满怀深情地走访慰问了全国人大代表、乌鲁木齐红庙子派出所便民警务站站长赵金龙警官——一位身穿刀把子制服、因为执行境外押解任务立了个人一等功的中共铁血鹰犬。这位“刀把子”代表,同样对财政工作给予了“充分肯定”。


一个原本应当代表选民捂紧钱袋子、严格审计军警开支的国家财政监督高官,居然要战战兢兢地跑去军营和派出所,向握着枪和手铐的“军代表、警代表”汇报工作,并因为得到这些暴力执行者的“认可与肯定”而欢欣鼓舞。在1776宪政文明的逻辑里,这叫“持枪抢劫国库”;但在列宁式的公报里,这叫“军民鱼水情、共商国是”。

这种“枪杆子”对立法的绝对碾压,在新疆人大代表、新疆军区陆军航空兵飞行员马凤龙身上完成了完美的逻辑闭环。马凤龙所在的陆航旅长年传承着一个30年不变的铁血信仰:

“操纵杆听我的话,我听党的话”;“手握操纵杆,铁心跟党飞”。


这就是中共中央、全国人大以及各大官方媒体主动公开的、具有最高法律效力的原生态中文证据。在这个体制里,不管是坐在主席台上的军区司令柳林中将,还是内蒙古00后电台兵丁晓杰,亦或是立了一等功的境外押解警察和手握武直操纵杆的飞行员。他们坐进最高立法殿堂的那一刻起,脑子里就没有“选民”和“法律”这两个词。他们的操纵杆、他们的枪托、以及他们按动人大表决器的手指,都只听从一个主人的大脑——那就是中共中央军委。

当西方和台湾的小清新还在指望通过与其“人大代表”进行法治交流来促进其政治文明时,中共自己的公报早就用这些穿着军装的主席团画面把答案扇在西方的脸上:我们的代表,从来不跟人民飞,只铁了心跟党飞。

三、 当1776宪政精神遇上“将军立法”的列宁式黑帮

为什么444号决议能在参议院获得两党毫无保留的全票通过?因为中共列宁式体制的底层结构,同时踩中了美国两党的文明死穴。

美国是一个深深建立在希伯来-基督教文明(Judeo-Christian tradition)与1776宪政基石上的国家。

  • 在信仰层面: 身体是圣灵的殿,婚姻与家庭是神圣不可侵犯的契约。基督教十诫明确规定“不可奸淫”。任何强迫同床、系统性摧毁家庭细胞的行径,在基督教文明看来,都是地地道道的魔鬼行径。

  • 在制度层面: 1776精神的底层逻辑是严格的文官治军与权力分立。在自由世界,现役军人绝不可干预文官立法。

然而,当年指挥越共的中共开国上将韦国清,其后的政治轨迹却是长期兼任全国人大常委会副委员长。这种“军队巨头、总政主任直接兼任国家最高立法机构领导人”的“党政军三位一体”结构,在西方眼中就是最典型的“持枪立法”和极权黑帮化统治。

1990年,当美国正沉浸在“历史的终结”、冷战即将胜利的虚幻自大中时,中国全国人大里的上甘岭指挥官们和戒严部队的将军们,却坐在一起,一边用暴力维护着国内的绝对统治,一边用按表决器的方式完成了对上一年军事行动消耗的自我审计。


这种“拿过枪、开过火、杀过美军”的肉身实体,堂而皇之地坐在最高立法殿堂里担任代表,就是对现代西方宪政法理最具讽刺意味的挑衅。这也是为什么到了2026年,当两党翻完了这本写满欺骗与暴力的历史明细账后,华盛顿的共识会变得如此冰冷且充满杀机——因为任何理性的财务和制度审计都指向同一个结果:对一个由枪杆子监军、由昔日宿敌和暴力机器组成且从不进行真正权力分立的体制,唯一的应对方式不是对话,而是彻底的制度脱钩与文明对决。

正如博弈论的基本常识:你可以和对手谈利益,也可以和对手妥协价值观,但没人敢和桌子底下的“连环老千”继续玩下去。

当民主党发现自己追求的“绿色太阳能”背后深埋着强迫劳动的罪恶,发现自己退让的“国际多边秩序”成了对方吸血的工具时,这种被欺骗后的极度愤怒与羞耻感,促使他们与共和党并肩推起了制度的绞肉机。

四、 战略决战新阶段:1776精神的文明总动员

在立法院通过444号决议进行道德与建制定罪的同时,总统川普将独立宣言250周年提升为国家战略,正式完成了这场决战的政治拼图。

川普的战略逻辑大刀阔斧且清晰决绝:

  1. 从利益博弈升华为信仰对决: 仅仅依靠关税和科技禁令,无法彻底瓦解一个控制了现代数字化监控手段的列宁式巨兽。必须用1776精神的核心奥义——“人权神授,任何世俗政权不得凌驾于个体的信仰和家庭之上”——作为解构共产主义的终极武器。

  2. 身份的二选一: “你可以选择做马克思的门徒,也可以选择做美国的爱国者,但你绝不可能两者皆是。”这句重话不仅是对美国国内激进左翼的警告,更是向全球开辟了清晰的文明战线。

结语:方向盘已被焊死

历史走到2026年,美国对华的全面合围已经完成了底层代码的重写。

前台,是川普总统高亢的政治总动员,用“1776精神”凝聚海内外追求自由的力量;后台,则是两党在《国防授权法案》(NDAA)中细致到AI、半导体、网联汽车軟硬件、甚至生物基因和清洁能源供应链的冷酷切割。美国正在动用包括《全球马格尼茨基人权问责法》在内的所有金融与签证制裁工具,对这个反人类的极权组织进行人类历史上最严密的“制度净化”。

过去四十年由于西方的幼稚、纵容和地缘实用主义所养大的列宁式巨兽,终于迎来了它最无法逾越的文明长城。当1776精神的旗帜再度猎猎作响,这场推翻欺骗、捍卫尊严的战略决战,大幕已然轰然拉开,且绝无回头之路。

#Democracy #Christ #Peace #Freedom #Liberty #Humanrights #人权 #法治 #宪政 #独立审计 #司法独立 #独立自治

06 February 2022

Yongsheng Chen, a current professor in the US, is working for sister of Wuhan Institute of Virology and may have cheated US IRS on income arising from transferring IP to China illegally

 by Ji Yuan

Yongsheng Chen has been working as Associate Professor, School of Civil and Environmental Engineering, Georgia Institute of Technology and Department of Civil and Environmental Engineering, Arizona State University since 2009.

1.Profile with material misstatement
But the profile may have omitted important latest development and in consequence failed to reflect what the profile purported to represent, such as follows:

Yongsheng Chen was appointed to be an adjunct professor of the School of Municipal and Environmental Engineering of Shenyang Jianzhu University in 2017.

Yongsheng Chen is a member of Editorial Board of ACTA HYDROBIOLOGICA SINICA.
ACTA HYDROBIOLOGICA SINICA , located in Institute of Hydrobiology, Chinese Academy of Sciences, No. 7 Dongnan South Road, Wuhan City, Hubei Province, is governed by the Chinese Academy of Sciences and hosted by the Institute of Hydrobiology, Chinese Academy of Sciences, and Chinese Society for Oceanology and Limnology. That means Yongsheng Chen is working for Chinese Academy of Sciences,the parent company of Wuhan Institute of Virology.  Wuhan Institute of Virology is also located in Wuhan.


2.Risks of misusing technical materials which belong to Georgia Institute of Technology resulting in intellectual properties stolen to CCP

Yongsheng Chen made use of materials with mark of Georgia Institute of Technology to give lecture in Shenyang Jianzhu University in 2017.

From 2016 to 2018, he gave lectures in The State Key Laboratory of Separation Membrane and Membrane Process (a military-civil fusion) ,   Tianjin University of Technology,   Nanchang Aviation University, University of Science and Technology Beijing and Changzhou University.  Such malpractice may have transferred US military technologies to Chinese People's Liberation Army.

3.Risk of Material Misstatement in Form 1040 Individual Income Tax and Form 8938 Statement of Specified Foreign Financial Assets

If facts in the section 1 and 2 were omitted, it's uneasy for his employer to identify material misstatement in the tax returns including F1040 and F8938.

Fact 1:The website of the School of Municipal and Environmental Engineering of Shenyang Jianzhu University stated on 13 October 2017 as follows:

"The school hired Dr. Yongsheng Chen as an adjunct professor of our school. School‘s Communist Secretary Yuhou Wu met with Dr. Yongsheng Chen, and President Tiemao Shi issued a letter of appointment. Dean of the School of Environment Guouo Feng and Vice Dean Junsheng Hu introduced the environmental field of our school to Professor Yongsheng Chen in recent years. The two sides have exchanged and discussed the research work that is of interest to both parties, and the two parties have reached an intention and preliminary plan to cooperate in research work.”

Dr Yongsheng. Chen has been engaged in the research and application of water treatment and water cycle, the migration and transformation of pollutants in the environment and their risks, sustainable renewable bioenergy and sustainable urban development for more than 20 years. In the above fields, he has undertaken a number of projects in the field of the National Natural Science Foundation of the United States, the National Environmental Protection Agency, the National Aeronautics and Space Administration (NASA), the United States Department of Health (NIH), the United States Department of Defense, the United States Department of Energy, and the United States Boeing Company in this field. The research fund is funded by the total funding of more than 10 million US dollars. He is not only one of the pioneers in the field of research on the health assessment of nanomaterials in the environment, but also the microalgae life cycle cycle, the use of wastewater for microalgae cultivation and harvesting, the quality assessment of water quality required for microalgae cultivation, and the water cycle during microalgae cultivation. One of the pioneers in research on the removal of substances that inhibit the growth of microalgae in China. Dr. Yongsheng Chen has been invited for many times by the US National Natural Science Foundation, the US Environmental Protection Agency, the US Department of Energy, the National Natural Science Foundation of Israel, the National Natural Science Foundation of Ukraine, the Netherlands Organisation for Scientific Research and the French National Science Foundation. The French National Research Agency (ANR) project review expert.


Fact 2:

On the morning of May 23 , 2017 , at the joint invitation of the School of Environmental and Chemical Engineering and the State Key Laboratory of Separation Membranes and Membrane Processes, Professor Yongsheng Chen from the Department of Environmental and Civil Engineering of Georgia Institute of Technology came to our school for academic exchanges, and Made a report entitled " Application of Membrane Technology in Environmental Field " . More than 50 teachers and graduate students from key laboratories, colleges of environmental chemistry, and materials colleges attended the report. The report meeting was chaired by Professor Jie Wang, Deputy Dean of the School of Environmental Chemistry.



Professor Yongsheng Chen's report takes the many challenges faced by current environmental issues as the background, and introduces many emerging technologies spawned by nanomaterials with unique properties. The research results of the research team in the preparation, characterization and performance research of special membrane materials in recent years are reported. This paper focuses on the application of special membrane materials in the environmental field, including: 1 ) the application of membrane technology in biomass harvesting, culture medium and water recycling; 2 ) the application of nanocomposite ion exchange membrane in the utilization of " ocean energy " ; 3 ) Application of nanocomposite bipolar membrane in acid-base recovery of desalinated concentrated water.

The atmosphere of the report was warm. The teachers and students and Professor Chen Yongsheng had a lively discussion on the scientific issues of preparation, characterization and performance of special membrane materials, and achieved good academic exchange results. After the meeting, Prof. Wang Jie and others conducted in-depth exchanges and sharing with Prof. Chen Yongsheng on the related work carried out in the field of membrane science in Tianjin University of Technology. Prof. Chen affirmed the work of our school in the field of membrane technology, and hoped that the two sides could work together in the future. There is more cooperation. This academic report will expand the academic horizons of teachers and students, and provide new ideas and directions for teachers and graduate students.

Fact 3 

On the afternoon of May 26, 2017, the seventh lecture of the "Energy and Environment Famous Teachers Lectures" series of activities of the School of Energy and Environmental Engineering, University of Science and Technology Beijing was successfully held in 1020 of the Mechanical and Electrical Building. Professor Chen Yongsheng of Georgia Institute of Technology gave a lecture on "Differences in Teaching between China and the United States and Talking about Teaching Culture". Some teachers of the college attended the event.
Based on his experience in teaching at Georgia Tech University for many years, Professor Chen Yongsheng introduced the differences in teaching and talent training between Chinese and American famous universities, and introduced the characteristics of different student groups, teaching systems, and teaching methods. . He described his teaching experience in the United States, shared his experience in the development of international teaching methods and ideas, and interacted and communicated with the young teachers present on hot issues of common concern. The discussion was lively and the atmosphere was hot.








As the core activity of the teacher development center of the college, "Nenghuan Famous Teachers Lecture Hall" enables young teachers to experience the demeanor of famous teachers in person through a series of activities such as demonstration classes of famous teachers, sharing of teaching insights from famous teachers, classroom observation of excellent teachers, and group teaching discussions. Undergraduate education teaching teaching mode and skills, improve the level of thinking, knowledge and teaching and education. The seventh lecture of the series of "Nenghuan Famous Teachers' Lectures" came to a successful conclusion.

Expert Profile:

Professor Chen Yongsheng is currently a professor in the Department of Environmental and Civil Engineering at Georgia Institute of Technology, and concurrently a professor in the Department of Environmental and Civil Engineering at Arizona State University. Professor Chen received his Ph.D. in environmental chemistry from Nankai University, and then stayed to teach at Nankai University. After three years, he came to the United States, where he successively engaged in research and teaching at the National Cleaner Production Center, Arizona State University and Georgia Institute of Technology. He has undertaken a number of projects in this field for the National Natural Science Foundation (NSF), the United States Environmental Protection Agency (USEPA), the National Aeronautics and Space Administration (NASA), the United States Department of Health (NIH), the United States Department of Energy (DOE), and the United States Boeing Company in this field. The research fund is funded by the total funding of more than 10 million US dollars. His current research team has more than 30 members, including visiting scholars, postdoctoral fellows, doctoral students, master students and undergraduates.
Professor Chen's research work focuses on innovation and the intersection of disciplines. He is good at absorbing new technologies, new concepts, opening up new research fields, or injecting new vitality into traditional research directions. He is one of the pioneers in the field of research on nanomaterials for health assessment in the environment and a forerunner in the development of renewable energy from microalgae. Its research projects have obtained six invention patents so far. He has published more than 130 academic papers in many authoritative academic journals such as Environmental Science and Technology. Professor Chen's papers have been cited more than 6,800 times, and his H-Index is 44. Professor Chen has also published more than 100 research results in international and domestic academic conferences; he has been invited to give special reports or preside over conferences in international academic conferences for many times. Professor Chen's paper was awarded the best paper in 2006 by Environmental Science and Technology. Prof. Chen's honors also include the 2011 American Chemical Society Best Paper Report Award; two of the 2011 American Chemical Society Chemistry and Engineering News (C&EN) Best Excellent Papers; AEESP) Best Doctoral Dissertation Supervisor Award; in 2014, he won the Best Doctoral Dissertation Supervisor Award from Sigma Xi in the United States, etc. In 2012, he was selected into the "Thousand Talents Program" of the Organization Department of the CCP Central Committee.

Fact 4 Release time: 2018-05-25 

  

At 10:00 am on May 24, at Q204 of the School of Environmental and Chemical Engineering, Professor Chen Yongsheng from Georgia Institute of Technology gave a report entitled "Environmental Applications Implications of Nanotechnology". The report meeting was chaired by Professor Luo Xubiao, and some teachers and postgraduate students from the School of Environmental Chemistry attended the report meeting.
Professor Chen Yongsheng first introduced the main academic research directions of the Department of Environmental and Civil Engineering of Georgia Institute of Technology, which can be divided into: atmosphere, surface water, groundwater, energy and material sustainability, environmental health, and discussed the subject leaders in each direction. Introduced. Then, based on the research results of his research group in the past 15 years, Mr. Chen gave a detailed introduction from the aspects of titanium oxide photocatalytic decontamination, atmospheric desulfurization and denitrification, biomass conversion, and water separation membrane design. After the report meeting, Mr. Chen gave detailed answers to the questions of the teachers and students, and the teachers and students all benefited a lot.Contact address: School of Environmental and Chemical Engineering, Nanchang Aviation University, No. 696, Fenghe South Avenue, Nanchang Postal Code: 330063

Fact 5:
Publishing time: 2016-06-15 

On the afternoon of June 14, Dr. Chen Yongsheng, a tenured professor of the Department of Environmental and Civil Engineering of Georgia Institute of Technology and an expert of the "Thousand Talents Program" of the Organization Department of the Central Committee of the CPC, visited our school and gave a lecture entitled "Perspectives of environmental implications" for teachers and students of our school. of nanotechnology" academic report. School of Chemical Engineering, teachers and graduate students of environmental engineering, water supply and drainage science and engineering in our school participated in this academic report, which was chaired by Dean Li Zhongyu.
Professor Chen introduced the research progress of his research group in the field of health assessment of nanomaterials in the environment in recent years. He focused on the aggregation of nanoparticles, the effect of non-aggregated single nanoparticles on DNA, ion release, and reactive oxygen species generation. The safety and health effects of nanoparticles are described. At the same time, specific research methods such as dynamics and molecular biology are introduced in detail. The participants had a lively exchange and discussion with Professor Chen on related academic issues.
Dr. Yongsheng Chen is currently a tenured professor of the Department of Environmental and Civil Engineering at Georgia Institute of Technology, and concurrently engaged in research and teaching at Arizona State University and Georgia Institute of Technology. Dr. Chen received his Ph.D. in Environmental Chemistry from Nankai University in 1995. After only one year of teaching there, he was promoted to associate professor. Dr. Chen came to the United States in 1998 and has taught at the National Cleaner Production Center, Arizona State University and Georgia Institute of Technology, becoming one of the very few Chinese professors who have never studied in the United States but taught in famous American universities. For more than 20 years, Dr. Chen's research has extensively and deeply involved water treatment, water pollution, water resources management, new energy and sustainable development, including research and application of water treatment and water cycle, pollutants in the environment Migration and transformation and its risks in China, sustainable renewable bioenergy and sustainable urban development, etc. In the above fields, he has undertaken a number of projects for the National Natural Science Foundation (NSF), the United States Environmental Protection Agency (USEPA), the National Aeronautics and Space Administration (NASA), the United States Department of Health (NIH), the United States Department of Defense (DOD), the United States The research funds of the Department of Energy (DOE) and the Boeing Company of the United States in this field have totaled more than 10 million US dollars. His current research team has more than 30 members, including visiting scholars, postdoctoral fellows, doctoral students, master students and undergraduates.
Dr. Chen's research focuses on innovation and the intersection of disciplines. He is good at absorbing new technologies, new concepts, opening up new research fields, or injecting new vitality into traditional research directions. He is one of the pioneers in the field of research on nanomaterials for health assessment in the environment and a forerunner in the development of renewable energy from microalgae. Its research projects have obtained six invention patents so far.
Dr. Chen has achieved many important achievements in the field of scientific research he is engaged in. He has published more than 110 academic papers in many authoritative academic journals such as Environmental Science and Technology. Dr. Chen's papers have been cited as many as 5,600 times, and his H-Index is 39. Dr. Chen has also published research results in more than 80 international and domestic academic conferences; has been invited to give special reports or presided over conferences in international academic conferences for many times; obtained 6 patents. Dr. Chen's paper was awarded the 2006 Best Paper of the Year by Environmental Science and Technology. Dr. Chen's honors also include the 2011 American Chemical Society Best Paper Report Award; the 2011 American Chemical Society Chemistry and Engineering News (C&EN) two Best Excellent Papers; In 2014, he won the Best Doctoral Dissertation Mentor Award from Sigma Xi in the United States, etc. In 2012, he was selected into the "Thousand Talents Program" of the Organization Department of the CPC Central Committee.
Dr. Yongsheng Chen has been invited to serve as a project review expert for many institutions in the United States, Europe and China, including the National Natural Science Foundation of the United States, the Environmental Protection Agency, the United States Department of Energy, the National Natural Science Foundation of Israel, and the State of Ukraine. The National Natural Science Foundation of China, the Netherlands Organization for Scientific Research (The Netherlands Organization for Scientific Research.) and the French National Research Agency (The French National Research Agency (ANR)) project review experts. Dr. Chen Yongsheng has also been invited many times to serve as China Changjiang Scholars and overseas evaluation experts of the "Thousands of Young Talents Program" of the Organization Department of the CPC Central Committee.

Address: Mingxing Building, Science and Education City Campus, Changzhou University, Changzhou City, Jiangsu Province

e. 

  

 

Fact 6:
The Membrane Separation Technology Collaborative Innovation Center (hereinafter referred to as the "Center") was established in August 2014 and was identified as the first batch of Tianjin Collaborative Innovation Centers. The center is led by Tianjin University of Technology, in conjunction with the Tianjin Institute of Seawater Desalination and Comprehensive Utilization of the Ministry of Natural Resources , Tianjin University, the Eco-Environmental Research Center of the Chinese Academy of Sciences and other top domestic membrane research institutions , Tianjin Motian Membrane Technology Co., Ltd., Guiyang Times Wharton Technology Co., Ltd., Shandong Dongyue Polymer Materials Co., Ltd. and other domestic leading and benchmarking enterprises in the membrane field, have established a stable and open organizational form of "core layer + collaboration layer" , and constructed a benefit-sharing mechanism of " project as a link, market-oriented operation " , to form a " talent- discipline - platform " trinity of industry-university-research interest community. The center implements the center director responsibility system under the leadership of the board of directors, combined with Tianjin University of Technology " double first-class " discipline construction and national scientific research platform construction, has gradually become the core base for technological innovation, achievement transformation and talent training in China's membrane industry.

According to the development requirements of " dynamic, open, integrated and sustainable " , combined with the research tasks of the Collaborative Innovation Center and the effectiveness of multi-party collaboration, the center attracted China Resources Environmental Protection Development Co. , Ltd. The advantages of applied basic research in the field of separation membranes , the engineering design and development advantages of the Tianjin Seawater Desalination and Comprehensive Utilization Research Institute of the Ministry of Natural Resources, the production and engineering construction advantages of advanced membrane products of Tianjin Motian Membrane Technology Co. , Ltd., the advantages of China Resources Environmental Protection Development Co., Ltd. in environmental protection The influence of the whole industry chain in the field, strong complementarity, has created a membrane separation science and technology collaborative innovation center integrating applied research - engineering design - production and construction - marketing promotion .

The center focuses on major national strategies such as green development and ecological civilization construction, facing major needs in the fields of environment, chemical industry, energy, biomedicine, etc., guided by major plans such as "Made in China 2025", with high-performance separation membrane materials and green preparation technology, Separation membrane materials and key components for biomedicine, membrane technology, seawater chemistry and resource utilization, membrane integration technology and intelligent equipment are the research directions , and the development strategy of " complementary advantages , collaborative research , key breakthroughs , and overall improvement " will be implemented to give full play to the colleges and universities. The service advantages of economic system construction provide scientific and technological and talent support for the development of national environmental protection, water resources safety, and the development of strategic emerging industries such as new materials and biomedicine in Tianjin .

After 6 years of development, the coordination mechanism of the center has become more complete, the technology chain and industrial chain have become more complete, and the collaborative innovation ability has been significantly improved. The development of the center has promoted the textile science and engineering discipline of Tianjin University of Technology to enter the ranks of the national "double first-class" world-class discipline construction . Materials, chemistry and engineering disciplines related to separation membrane research entered the ESI global 1% for the first time. In 2015 , the Ministry of Science and Technology and Tianjin Municipality jointly approved the establishment of the State Key Laboratory of Separation Membranes and Membrane Processes and the State Key Laboratory of Membrane Materials and Membrane Applications (Enterprise State Key Laboratory), and subsequently approved the establishment of a national-level international joint research center (2016 ), innovative talent training demonstration base ( 2017 ), separation membrane discipline innovation and intelligence base ( 2018 ) and other national platforms . In 2016 , the school established membrane technology research, established membrane industry alliance and seawater desalination alliance, incubated and supported more than 40 high-tech enterprises in the field of separation membrane and membrane process, and made important contributions to the development of membrane technology in Tianjin and the whole country.

Ji Yuan is a former Certified Public Accountant licensed by the People’s Republic of China, who audited financial statements of Chinese Communist enterprises for multiple years. 
Email: cpajiyuan@protonmail.com

23 January 2022

Tesla's management may have manipulated revenue from China to enrich themselves

 Tesla is a great company both in China and free world. It plans to increase investment 1.2billion yuan in China as reported by Reuters in Chinese. (https://www.reuters.com/article/tesla-shanghai-production-line-1126-idCNKBS2IB06L) 

There are 49 subsidiaries in China including Hong Kong as at the end of 2020, according to List of Subsidiaries of the Registrant in the EX-21.1 4 tsla-ex211_15.htm EX-21.1 to 10-K file. It generated 6.66 billion of revenue from China or 21% of gross revenue. The increase in 2020 of revenue from China was 3.87 billion or 123.49% compared to 2.56 billion or 20.24% increase from the United States, according to the 10-K document filed on 8 Feb 2021. On page 93, it could be inferred that vesting of stock option awards on directors relied on revenue and net income (loss) attributable to common stockholders before interest expense, provision (benefit) for income taxes, depreciation and amortization and stock-based compensation reported in the financial statements. EBITDA is revenue minus operating costs. Chief executives’ stock options vesting relied heavily on the growth of revenue in China.

However, be cautious about the numbers reported in the financial statements when calculating p/e ratio to arrive at the intrinsic value. Its p/e ratio was 306.29 at 21 January 2022.The audit papers of PricewaterhouseCoopers Zhong Tian LLP, the component auditor in relation with the Tesla's operation in China haven't been inspected for consecutive three years from 2018 to 2020 by PCAOB, according to the information filed by PricewaterhouseCoopers LLP on PCAOB’s website, the group auditor or major auditor. (https://pcaobus.org/oversight/international/china-related-access-challenges/china-referred-work?searchWithin=tsla). Overstatement of earnings or revenue of China operation could lead to overstatement of consolidated earnings or revenue through the process of consolidating after translating into US dollar from Chinese Yuan. The Chinese Yuan/USD was too expensive some Chinese thought. Chinese censorship system may cover up business scandals which could become a surprise strike on stock market performance someday.

Electronic cars made in China consume energy which could encourage genocide and crime against humanity. 320 million tons of coals were produced in Xinjiang in 2021, mostly converted to electricity or gas, where genocide is undergoing. (http://www.coalchina.org.cn/index.php?m=content&c=index&a=show&catid=10&id=136058)

There’s guanxi culture in China which means that without bribery or corruption business is hard to continue. Corruption in China therefore could only be encouraged also because Chinese accountancy firms are also influenced heavily by government. It could lead to understatement risk of contingent liabilities and provisions regarding environment pollution, forced demolition of private homes and forced labour. Guanxi culture also means that if the political figure the business relies on failed to keep job in political fight, the business was likely to be given a heavy surprise. It means any company with investment in communist China may fit for bottom straddle strategy. 

IP theft risk is also significant in China which could give rise to risk of overstatement of intangibles. 

Tesla’s calculation may possibly be based on population number 1.4 billion of Chinese. There are many reports in Chinese that there are only 800 million Chinese living in China(https://www.rfa.org/mandarin/yataibaodao/junshiwaijiao/lxy-01092018110111.html; https://www.epochtimes.com/gb/21/8/6/n13143176.htm)

 If Tesla couldn't learn lessons of other US companies in China, Tesla could be another victim of Chinese communist theft. Even with the greatest technology could be defeated by technology thief.


21 January 2022

Jian Zhang, a member of the US Department of Defense medical project review committee since 2004, is the CCP's Candidate of "National Hundred Thousand Talents Project" and Special Expert of the State Council

 Zhang Jian

professor
National-level candidate for the Hundred Thousand Talents Project
0755-88018036
zhangjian@sustech.edu.cn




Introduction to main academic achievements

Zhang Jian, Professor of School of Medicine, Southern University of Science and Technology, Doctoral Supervisor, Dean of Zhicheng Academy, National Candidate of "Hundreds of Thousands of Talents Project", Special Expert of the State Council, National Leading Talents introduced by Shenzhen, Cancer Metastasis of China Anti-Cancer Association Member of the Standing Committee of the Professional Committee and Chairman of the Youth Committee, Vice Chairman of the Translational Medicine Branch of the Chinese Society of Medicine and Biotechnology, Member of the Standing Committee of the Medical Cell Biology Branch of the Chinese Society of Cell Biology, Vice President of Shenzhen Biomedical Promotion Association, Shenzhen Alliance of China Anti-Cancer Alliance Vice-Chairman, who founded the "Longevity and Aging-related Diseases" Key Laboratory of the Ministry of Education and served as the first director, currently serves as a member of the Academic Committee of the Guangdong Provincial Key Laboratory of Cell Microenvironment and Disease Research and the Academic Committee of the Shenzhen Key Laboratory of Cell Microenvironment. From 2015 to 2017, he served as the associate editor of "Medical Oncology". SCI has published more than 100 articles in total. He graduated from the University of Michigan School of Medicine with a Ph.D., and has been a member of the US Department of Defense medical project review committee since 2004. Since 2009, he has been a Changjiang Scholar of the Ministry of Education and a final review expert of the Natural Science Foundation of my country. In 2012, he was selected as "National Outstanding Scientific and Technological Worker", and in 2013, he was selected as "National Hundred Thousand Talents Project" and "National Young and Middle-aged Experts with Outstanding Contributions". In 2016, it was approved as "Shenzhen Introduces National Outstanding Talents". Main research directions: aging basis and intervention; tumor microenvironment and metastasis.

 

Research areas

Oncology Translational Medicine Research

Tumor drug resistance, recurrence and metastasis

Aging and Cancer

 

educational experience

1981-1986: Bachelor, Department of Clinical Medicine, Tianjin Medical University

1997-1998: M.S., Immunology, Old Dominion University & East Virginia Medical School

1998-2001: Ph.D., Pathology, University of Michigan

 

main working experience

1986.8-1995.1 Tianjin Third Hospital/Tianjin Institute of Geriatrics, Internal Medicine Resident, Attending Physician

1995.1-1996.8 Visiting Scholar, World Health Organization Fellowship, Institute of Geriatrics, University of Wisconsin-Madison, USA

1996.8-1998.8 Visiting Research Scientist, Eastern Virginia Medical College Geriatrics Research Center

1998.8-2004.6 Ph.D. student/researcher, University of Michigan School of Medicine

2004.7-2010.12 Assistant Professor at University of Pittsburgh and University of Michigan School of Medicine (Tenure track)

2011.1-2016.7 Ministry of Education Key Laboratory of Longevity and Age-related Diseases/Director/Professor of Guangxi Medical University Translational Medical College

2016.3- Adjunct Professor, University of Pittsburgh School of Medicine

2016.7- Professor, School of Medicine, Southern University of Science and Technology

 

honor

2019-Vice President of Shenzhen Biomedical Promotion Association

2018- Vice Chairman of Shenzhen Alliance of China Cancer Prevention and Control Alliance

2014- Obtained the Special Government Allowance Expert of the State Council

2013-Selected as a national candidate for the National Hundred Thousand Talents Project and won the honorary title of "Young and Middle-aged Experts with Outstanding Contributions"

2013-International lecturer certificate issued by American Society for Basic Urological Research (SBUR)

2012-National Outstanding Scientific and Technological Workers

2011-Bagui Scholar of Guangxi Autonomous Region, Counselor of Guangxi Autonomous Region Government

2007-Mentoring Dr. Yi Lu, Young Investigator Travel Award, ASBMR

2005-Mentoring Dr. Yi Lu, Scholar-in-Training Award, AACR

2003-Scholar-in-Training Award, AACR

2003- Plenary Poster Award of 25th Annual Meeting of American Society for Bone and Mineral Research

2002-Alice L. Jee Memorial Young Investigator Award

2000-Plenary Poster Award of 22 nd Annual Meeting of American Society for Bone and Mineral Research

1994- Fellowship Award, World Health Organization (WHO)

 

representative works

  1. Zhang J , Dai J, Qi Y, Lin D, Smith P, Strayhorn C, Mizokami A, Fu Z, Westman J, Keller ET. Osteoprotegerin inhibits prostate cancer-induced osteoclastogenesis and prevents prostate tumor growth in the bone. J Clin Invest. 107:1235-1244, 2001.
  2. Zhang J , Johnston G, Stebler B, Keller ET. Oxidative stress-mediated activation of NFkB and the interleukin-6 promoter requires NFkB-inducing kinase activity. Antioxidant & Redox Signaling . 3:493-504, 2001.
  3. Zhang J , Dai J, Lin D, Habib P, Smith P, Murtha J, Fu Z, Yao Z, Qi Y, Keller ET. Osteoprotegerin abrogates chronic alcohol ingestion-induced bone loss in mice. J Bone Miner Res 17:1256- 1263, 2002.
  4. Zhang J , J Dai, Yao Z, Lu Y, Dougall W, Keller ET. Soluble RANK-Fc diminishes prostate tumor progression in bone. Cancer Res. 63:7883-90, 2003
  5. Zhang J , Lu Y, Kitazawa R, Kitazawa S, Dai J, Qi W, Zhao X, Yao Z, Hall D, Keller ET. Bioluminescence imaging of RANK ligand transcriptional regulation in vivo. Prostate. 59:360-9, 2004
  6. Zhang J , Dai J, Lu Y, Yao Z, O'Brein C, Qi W, Hall D, Ershler WB, Keller ET. In vivo visualization of aging-associated gene transcription: evidence for free radical theory of aging. Experimental Gerontology. 39:239-247, 2004
  7. Lu Y, Cai Z, Galson DL, Xiao G, Liu YL, George D, Melhem MF, Yao Z and Zhang J*. Monocyte chemotactic protein-1 (MCP-1) acts as a paracrine and autocrine factor for prostate cancer growth and invasion. Prostate. 66:1311-8, 2006
  8. Lu Y, Cai Z, Xiao G, Keller ET, Mizokami A, Yao Z, Roodman GD, Zhang J*. Monocyte chemotactic protein-1 (MCP-1) mediates prostate cancer-induced bone resorption. Cancer Res, 67:3646- 53, 2007
  9. Lu Y, Cai Z, Xiao G, Liu Y, Keller ET, Yao Z, and Zhang J*.    CCR2 expression correlates with prostate cancer progression. J Cell Biochem. 101:676-685, 2007
  10. Lu Y, Yao Z, and Zhang J*. Prostate cancer bone metastasis: interaction between tumor cells and bone microenvironment. Chin J of Biochem and Molecul Biol , 23(3):167-171, 2007
  11. Lu Y, Xiao G, Galson DL, Nishio Y, Mizokami A, Yao Z, and Zhang J*. PTHrP-induced MCP-1 production by human bone marrow endothelial cells promotes osteosteoclastast differentiation and prostate cancer cell proliferation and invasion in vitro.   Int J of Cancer. 121:724-733, 2007
  12. Lu Y, Nie DB, Witt WT, Chen Q, Shen M, Xie H, Lai L, Dai Y, Zhang J*. Expression of the fat-1 gene diminishes prostate cancer growth in vivo through enhancing apoptosis and inhibiting GSK-3β phosphorylation . Mol Cancer Therapeutics, 7(10):3203-11, 2008
  13. Lu Y, Wang J, Xu Y, Koch AE., Cai Z, Chen X, Galson DL, Taichman RS, and Zhang J*. CXCL16 functions as a novel chemotactic factor for prostate cancer cells in vitro. Mol Cancer Res, 6( 4): 546-54, 2008
  14. Lu Y, Chen QY, Corey E, Xie W, Fan J, Dai J, Mizokami A, and Zhang J*. Activation of MCP-1/CCR2 axis promotes prostate cancer growth in bone. Clin Exp Metastasis, 26(2): 161-9, 2009
  15. Cai Z, Chen QY, Chen J, Lu Y, Xiao GZ, and Zhang J*. MCP-1 promotes lung cancer-induced bone resorptive lesions in vivo. Neoplasia , 11(3):228-236, 2009
  16. Zhang J, Patel L, and Pienta KJ. CC chemokine ligand 2 (CCL2) promotes prostate cancer tumorigenesis and metastasis. Cytokine Growth Factor Rev. 21(1):41-8, 2010
  17. Zhang J, Lu Y, and Pienta KJ. Multiple roles of CC chemokine ligand 2 (CCL2) in promoting prostate cancer growth. J Natl Cancer Inst. 102(8):522-8, 2010
  18. Zhang J*, Sud S, Mizutani K, Gyetko MR, and Pienta KJ. Activation of urokinase plasminogen activator (uPA) and its receptor (uPAR) axis is essential for macrophage infiltration in a prostate cancer mouse model. Neoplasia 2011
  19. Zhang J, Patel L, Pienta KJ. Targeting Chemokine (CC motif) Ligand 2 (CCL2) as an Example of Translation of Cancer Molecular Biology to the Clinic. Progress in Molecular Biolology: Translational Sciences. 2010;95:31-53.
  20. Guo H, Yun C, Hou G, Du J, Huang X, Lu Y, Keller ET, Zhang J*, Deng J*, Mangiferin attenuates Th1/Th2 cytokine imbalance in an ovalbumin-induced asthmatic mouse model. Plos One . 9( 6):e100394, 2014
  21. Guo H, Lu Y, Wang J, Liu X, Keller ET, Liu Q, Zhou Q, Zhang J *. Targeting Notch Signaling Pathway in Cancer Therapeutics. Thoracic Cancer , 2014, 5; 473-86
  22. Hongwei Guo, Xiaolin Zhou, Yi Lu, Liye Xie, Qian Chen, Evan T. Keller, Qian Liu, Qinghua Zhou* , and Zhang J* . Translational progress on tumor biomarkers. Thoracic Cancer. 27 JUL 2015, DOI: 10.1111/1759 -7714.12294
  23. Yu Zhu, Chunlin Zou, Zhe Zhang, Chaonan Qian, Xin Yang, Junlin Shi, Yudui Xia,   Zhang J* , Yi Lu*. MEK inhibitor diminishes nasopharyngeal carcinoma (NPC) cell growth and NPC-induced osteoclastogenesis via modulating CCL2 and CXCL16 expression . Tumor Biology , 2015, 36(11):8811-8.
  24. Sha He, Yi Lu, Xia Liu, Xin Huang, Evan Keller, Chao-Nan Qian * ,   Zhang J * ; Wnt3a: function and implication in cancer. Chinese Journal of Cancer , 2015, 34(3):50.
  25. Lihui Wang, Yanli He, Weijun Liu, Shengbin Bai, Lei Xiao, Jie Zhang, Saravana M. Dhanasekaran, Zhuwen Wang, Shanker Kalyana-Sundaram, O. Alejandro Balbin, Sudhanshu Shukla, Yi Lu, Jules Lin, Rishindra M. Reddy, Philip W. Carrott, Jr., William R. Lynch, Andrew C. Chang, Arul M. Chinnaiyan, David G. Beer*, Zhang J *, Guoan Chen*. Non-coding RNA LINC00535 promotes lung adenocarcinoma progression via the Akt pathway . Oncotarget, 7(10):11487-99, 2016.
  26. Jing Li, Xin Yang, Hao Guan, Atsushi Mizokami, Evan T. Keller, Xiaozhen Xu, Xia Liu, Jiyong Tan, Longyuan Hu, Yi Lu*, Zhang J* . Exosome-derived microRNAs contribute to prostate cancer chemoresistance. International Journal of Oncology , 2016, 49:838-846.
  27. Yeguo Yang, Yi Lu, Lihui Wang, Atsushi Mizokami, Evan T. Keller, Zhang J* , Jiejun Fu*. Skp2 inhibition attenuates the resistance of prostate cancer cells to paclitaxel by up-regulation of p27. Oncology Reports , 2016, 36: 559-566.
  28. Yang Liu, Yi Chai, Zhang J * , and Junwei Tang * . A function variant at miR-501 alters susceptibility the patocellular carcinoma in a Chinese han population. Cell Physiol Biochem, 38(6):2500-8, 2016.
  29. Qiuyan Chen, Siyuan Qin, Yang Liu, Minghuang Hong, Chao-Nan Qian, Evan T Keller, Zhang J , Lu Y*. IGFBP-6 is a novel nasopharyngeal carcinoma prognostic biomarker. Oncotarget , 2016, Oct 18;7(42) :68140-68150.
  30. Yong Lei, Yanhua Yi, Yang Liu, Xia Liu, Evan T. Keller, Chao-Nan Qian, Jian Zhang* and Lu Y*. Metformin targets multiple signaling pathways in cancer. Chinese Journal of Cancer , 2017; 36(1): 17.
  31. Guo H, Luo H, Yuan H, Xia Y, Shu P, Huang X, Lu Y, Liu X, Keller ET, Sun D*, Deng J*, and Zhang J* . Litchi seed extracts diminish prostate cancer progression via induction of apoptosis and attenuation of EMT through Akt/GSK-3β signaling. Sci Rep . 2017; 7: 41656.
  32. Wenchu ​​Wang, Lihui Wang, Atsushi Mizokami, Junlin Shi, Chunlin Zou, Jinlu Dai, Evan T. Keller, Yi Lu* and Jian Zhang* . Down-regulation of E-cadherin enhances prostate cancer chemoresistance via Notch signaling. Chinese Journal of Cancer , 2017; 36:35
  33. Yutao Gao, Xia Liu, Ting Li, Luwei Wei, Antai Yang, Yi Lu, Jian Zhang, Li Li, Sumei Wang and Fuqiang Yin. Cross-validation of genes potentially associated with overall survival and drug resistance in ovarian cancer. Oncology Reports. 2017
  34. Jinlu Dai, Yi Lu, Hernan Roca, Jill M. Keller, Jian Zhang , Laurie K. McCauley and Evan T. Keller. Immune mediators in the tumor microenvironment of prostate cancer. Chinese Journal of Cancer , 2017; 36:29

Links to orginal content: 
1. https://www.sustech.edu.cn/zh/faculties/zhangjian.html
2. https://med.sustech.edu.cn/faculty/detail/id/187.html?lang=zh-cn

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